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LTE Radio Access, Rel. RL60, Operatin Documentation, Issue 04, Parameters (Excel) Flexi Multiradio BTS LTE Commissionin Transmission Parameters DN09147584 Issue 02B Approval Date 2014-09-08
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Transcript of RL60 Parameters
LTE Radio Access, Rel. RL60, Operating Documentation, Issue 04,Parameters (Excel)
Flexi Multiradio BTS LTE Commissioning, RNW and Transmission Parameters
DN09147584Issue 02BApproval Date 2014-09-08
LTE Radio Access, Rel. RL60, Operating Documentation, Issue 04,Parameters (Excel)
Flexi Multiradio BTS LTE Commissioning, RNW and Transmission Parameters
DN09147584Issue 02BApproval Date 2014-09-08
The information in this document applies solely to the hardware/software product (“Product”) specifiedherein, and only as specified herein.
This document is intended for use by Nokia Solutions and Networks' customers (“You”) only, and it may notbe used except for the purposes defined in the agreement between You and Nokia Solutions and Networks(“Agreement”) under which this document is distributed. No part of this document may be used, copied,reproduced, modified or transmitted in any form or means without the prior written permission of NokiaSolutions and Networks. If you have not entered into an Agreement applicable to the Product, or if thatAgreement has expired or has been terminated, You may not use this document in any manner and Youare obliged to return it to Nokia Solutions and Networks and destroy or delete any copies thereof.
The document has been prepared to be used by professional and properly trained personnel, and Youassume full responsibility when using it. Nokia Solutions and Networks welcome Your comments as part ofthe process of continuous development and improvement of the documentation.
This document and its contents are provided as a convenience to You. Any information or statementsconcerning the suitability, capacity, fitness for purpose or performance of the Product are given solely onan “as is” and “as available” basis in this document, and Nokia Solutions and Networks reserves the rightto change any such information and statements without notice. Nokia Solutions Networks has made allreasonable efforts to ensure that the content of this document is adequate and free of material errors andomissions, and Nokia Solutions and Networks will correct errors that You identify in this document. But,Nokia Solutions and Networks' total liability for any errors in the document is strictly limited to the correctionof such error(s). Nokia Solutions and Networks does not warrant that the use of the software in the Productwill be uninterrupted or error-free.
NO WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TOANY WARRANTY OF AVAILABILITY, ACCURACY, RELIABILITY, TITLE, NON-INFRINGEMENT,MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, IS MADE IN RELATION TO THECONTENT OF THIS DOCUMENT. IN NO EVENT WILL NOKIA SOLUTIONS AND NETWORKS BELIABLE FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT,INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OFPROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITY OR DATA THAT MAYARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATION IN IT, EVEN IN THE CASE OFERRORS IN OR OMISSIONS FROM THIS DOCUMENT OR ITS CONTENT.
This document is Nokia Solutions and Networks’ proprietary and confidential information, which may not bedistributed or disclosed to any third parties without the prior written consent of Nokia Solutions andNetworks.
Nokia is a registered trademark of Nokia Corporation. Other product names mentioned in this documentmay be trademarks of their respective owners, and they are mentioned for identification purposes only.
Copyright © 2014 Nokia Solutions and Networks. All rights reserved.
Important Notice on Product SafetyThis product may present safety risks due to laser, electricity, heat, and other sources of danger.
Only trained and qualified personnel may install, operate, maintain or otherwise handle thisproduct and only after having carefully read the safety information applicable to this product.
The safety information is provided in the Safety Information section in the “Legal, Safety andEnvironmental Information” part of this document or documentation set.
Nokia Solutions and Networks is continually striving to reduce the adverse environmental effects of itsproducts and services. We would like to encourage you as our customers and users to join us in workingtowards a cleaner, safer environment. Please recycle product packaging and follow the recommendationsfor power use and proper disposal of our products and their components.
If you should have questions regarding our Environmental Policy or any of the environmental services weoffer, please contact us at Nokia Solutions and Networks for any additional information.
The information in this document applies solely to the hardware/software product (“Product”) specifiedherein, and only as specified herein.
This document is intended for use by Nokia Solutions and Networks' customers (“You”) only, and it may notbe used except for the purposes defined in the agreement between You and Nokia Solutions and Networks(“Agreement”) under which this document is distributed. No part of this document may be used, copied,reproduced, modified or transmitted in any form or means without the prior written permission of NokiaSolutions and Networks. If you have not entered into an Agreement applicable to the Product, or if thatAgreement has expired or has been terminated, You may not use this document in any manner and Youare obliged to return it to Nokia Solutions and Networks and destroy or delete any copies thereof.
The document has been prepared to be used by professional and properly trained personnel, and Youassume full responsibility when using it. Nokia Solutions and Networks welcome Your comments as part ofthe process of continuous development and improvement of the documentation.
This document and its contents are provided as a convenience to You. Any information or statementsconcerning the suitability, capacity, fitness for purpose or performance of the Product are given solely onan “as is” and “as available” basis in this document, and Nokia Solutions and Networks reserves the rightto change any such information and statements without notice. Nokia Solutions Networks has made allreasonable efforts to ensure that the content of this document is adequate and free of material errors andomissions, and Nokia Solutions and Networks will correct errors that You identify in this document. But,Nokia Solutions and Networks' total liability for any errors in the document is strictly limited to the correctionof such error(s). Nokia Solutions and Networks does not warrant that the use of the software in the Productwill be uninterrupted or error-free.
NO WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TOANY WARRANTY OF AVAILABILITY, ACCURACY, RELIABILITY, TITLE, NON-INFRINGEMENT,MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, IS MADE IN RELATION TO THECONTENT OF THIS DOCUMENT. IN NO EVENT WILL NOKIA SOLUTIONS AND NETWORKS BELIABLE FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT,INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OFPROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITY OR DATA THAT MAYARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATION IN IT, EVEN IN THE CASE OFERRORS IN OR OMISSIONS FROM THIS DOCUMENT OR ITS CONTENT.
This document is Nokia Solutions and Networks’ proprietary and confidential information, which may not bedistributed or disclosed to any third parties without the prior written consent of Nokia Solutions andNetworks.
Nokia is a registered trademark of Nokia Corporation. Other product names mentioned in this documentmay be trademarks of their respective owners, and they are mentioned for identification purposes only.
Copyright © 2014 Nokia Solutions and Networks. All rights reserved.
Important Notice on Product SafetyThis product may present safety risks due to laser, electricity, heat, and other sources of danger.
Only trained and qualified personnel may install, operate, maintain or otherwise handle thisproduct and only after having carefully read the safety information applicable to this product.
The safety information is provided in the Safety Information section in the “Legal, Safety andEnvironmental Information” part of this document or documentation set.
Nokia Solutions and Networks is continually striving to reduce the adverse environmental effects of itsproducts and services. We would like to encourage you as our customers and users to join us in workingtowards a cleaner, safer environment. Please recycle product packaging and follow the recommendationsfor power use and proper disposal of our products and their components.
If you should have questions regarding our Environmental Policy or any of the environmental services weoffer, please contact us at Nokia Solutions and Networks for any additional information.
LTE Radio Access, Rel. RL60, Operating Documentation, Issue 04,Parameters (Excel)
Flexi Multiradio BTS LTE Commissioning, RNW and Transmission Parameters
DN09147584Issue 02BApproval Date 2014-09-08
LTE Radio Access, Rel. RL60, Operating Documentation, Issue 04,Parameters (Excel)
Flexi Multiradio BTS LTE Commissioning, RNW and Transmission Parameters
DN09147584Issue 02BApproval Date 2014-09-08
The information in this document applies solely to the hardware/software product (“Product”) specifiedherein, and only as specified herein.
This document is intended for use by Nokia Solutions and Networks' customers (“You”) only, and it may notbe used except for the purposes defined in the agreement between You and Nokia Solutions and Networks(“Agreement”) under which this document is distributed. No part of this document may be used, copied,reproduced, modified or transmitted in any form or means without the prior written permission of NokiaSolutions and Networks. If you have not entered into an Agreement applicable to the Product, or if thatAgreement has expired or has been terminated, You may not use this document in any manner and Youare obliged to return it to Nokia Solutions and Networks and destroy or delete any copies thereof.
The document has been prepared to be used by professional and properly trained personnel, and Youassume full responsibility when using it. Nokia Solutions and Networks welcome Your comments as part ofthe process of continuous development and improvement of the documentation.
This document and its contents are provided as a convenience to You. Any information or statementsconcerning the suitability, capacity, fitness for purpose or performance of the Product are given solely onan “as is” and “as available” basis in this document, and Nokia Solutions and Networks reserves the rightto change any such information and statements without notice. Nokia Solutions Networks has made allreasonable efforts to ensure that the content of this document is adequate and free of material errors andomissions, and Nokia Solutions and Networks will correct errors that You identify in this document. But,Nokia Solutions and Networks' total liability for any errors in the document is strictly limited to the correctionof such error(s). Nokia Solutions and Networks does not warrant that the use of the software in the Productwill be uninterrupted or error-free.
NO WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TOANY WARRANTY OF AVAILABILITY, ACCURACY, RELIABILITY, TITLE, NON-INFRINGEMENT,MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, IS MADE IN RELATION TO THECONTENT OF THIS DOCUMENT. IN NO EVENT WILL NOKIA SOLUTIONS AND NETWORKS BELIABLE FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT,INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OFPROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITY OR DATA THAT MAYARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATION IN IT, EVEN IN THE CASE OFERRORS IN OR OMISSIONS FROM THIS DOCUMENT OR ITS CONTENT.
This document is Nokia Solutions and Networks’ proprietary and confidential information, which may not bedistributed or disclosed to any third parties without the prior written consent of Nokia Solutions andNetworks.
Nokia is a registered trademark of Nokia Corporation. Other product names mentioned in this documentmay be trademarks of their respective owners, and they are mentioned for identification purposes only.
Copyright © 2014 Nokia Solutions and Networks. All rights reserved.
Important Notice on Product SafetyThis product may present safety risks due to laser, electricity, heat, and other sources of danger.
Only trained and qualified personnel may install, operate, maintain or otherwise handle thisproduct and only after having carefully read the safety information applicable to this product.
The safety information is provided in the Safety Information section in the “Legal, Safety andEnvironmental Information” part of this document or documentation set.
Nokia Solutions and Networks is continually striving to reduce the adverse environmental effects of itsproducts and services. We would like to encourage you as our customers and users to join us in workingtowards a cleaner, safer environment. Please recycle product packaging and follow the recommendationsfor power use and proper disposal of our products and their components.
If you should have questions regarding our Environmental Policy or any of the environmental services weoffer, please contact us at Nokia Solutions and Networks for any additional information.
The information in this document applies solely to the hardware/software product (“Product”) specifiedherein, and only as specified herein.
This document is intended for use by Nokia Solutions and Networks' customers (“You”) only, and it may notbe used except for the purposes defined in the agreement between You and Nokia Solutions and Networks(“Agreement”) under which this document is distributed. No part of this document may be used, copied,reproduced, modified or transmitted in any form or means without the prior written permission of NokiaSolutions and Networks. If you have not entered into an Agreement applicable to the Product, or if thatAgreement has expired or has been terminated, You may not use this document in any manner and Youare obliged to return it to Nokia Solutions and Networks and destroy or delete any copies thereof.
The document has been prepared to be used by professional and properly trained personnel, and Youassume full responsibility when using it. Nokia Solutions and Networks welcome Your comments as part ofthe process of continuous development and improvement of the documentation.
This document and its contents are provided as a convenience to You. Any information or statementsconcerning the suitability, capacity, fitness for purpose or performance of the Product are given solely onan “as is” and “as available” basis in this document, and Nokia Solutions and Networks reserves the rightto change any such information and statements without notice. Nokia Solutions Networks has made allreasonable efforts to ensure that the content of this document is adequate and free of material errors andomissions, and Nokia Solutions and Networks will correct errors that You identify in this document. But,Nokia Solutions and Networks' total liability for any errors in the document is strictly limited to the correctionof such error(s). Nokia Solutions and Networks does not warrant that the use of the software in the Productwill be uninterrupted or error-free.
NO WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TOANY WARRANTY OF AVAILABILITY, ACCURACY, RELIABILITY, TITLE, NON-INFRINGEMENT,MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, IS MADE IN RELATION TO THECONTENT OF THIS DOCUMENT. IN NO EVENT WILL NOKIA SOLUTIONS AND NETWORKS BELIABLE FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT,INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OFPROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITY OR DATA THAT MAYARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATION IN IT, EVEN IN THE CASE OFERRORS IN OR OMISSIONS FROM THIS DOCUMENT OR ITS CONTENT.
This document is Nokia Solutions and Networks’ proprietary and confidential information, which may not bedistributed or disclosed to any third parties without the prior written consent of Nokia Solutions andNetworks.
Nokia is a registered trademark of Nokia Corporation. Other product names mentioned in this documentmay be trademarks of their respective owners, and they are mentioned for identification purposes only.
Copyright © 2014 Nokia Solutions and Networks. All rights reserved.
Important Notice on Product SafetyThis product may present safety risks due to laser, electricity, heat, and other sources of danger.
Only trained and qualified personnel may install, operate, maintain or otherwise handle thisproduct and only after having carefully read the safety information applicable to this product.
The safety information is provided in the Safety Information section in the “Legal, Safety andEnvironmental Information” part of this document or documentation set.
Nokia Solutions and Networks is continually striving to reduce the adverse environmental effects of itsproducts and services. We would like to encourage you as our customers and users to join us in workingtowards a cleaner, safer environment. Please recycle product packaging and follow the recommendationsfor power use and proper disposal of our products and their components.
If you should have questions regarding our Environmental Policy or any of the environmental services weoffer, please contact us at Nokia Solutions and Networks for any additional information.
1. IntroductionThe purpose of this document is to assist users in finding parameters, their meanings, specifications, and default values. The managed objects and parameters are listed in alphabetical order.
2. How to read this excel reportThe excel report provides a full information on the parameter dictionary. It shows the full set of parameter attributes including the change information.
The excel report consists of two main sections:- MO Class Tree- Parameter List
2. 1 MO Class TreeThis section shows the full Managed Object Class tree with the names of classes. Rows are grouped into respective class levels for structured and convenient view. Use unfold (+) and fold (-) buttons in the left panel to browse the tree.
2.2 Parameter ListThis section shows the full parameter information including the following:- abbreviated names- managed objects- parent/child parameter relationships- default values- range and step- field descriptions- change information
2.2.1 Field descriptionsField descriptions are provided in the second row of Parameter List section. Use fold (-) and unfold (+) buttons on the left panel to respectively hide and show the field descriptions.
2.2.2 Change informationChange information is a part of Parameter List section and is available in the following ways:
1. Definition on whether the parameter is new, removed, changed, or has been moved to another location in the structure (for example, to another managed object class). That definition is provided in the following columns:
- Changes between issues ... which shows the changes since the previous issue of the document.- Changes between releases ... which shows the changes since the latest issue of the document in the previous product release.
If the cell is empty, the parameter is not changed, nor new, nor removed, nor moved.Note that removed parameters are listed in the very bottom and they are marked with red font.
Filters are enabled for convenient browsing of the change categories.
2. Detailed change information showing the current and previous values of parameter attributes. That information is provided in the following columns:
- <parameter attribute> in issue ... which shows the value in the previous issue of the document.- <parameter attribute> in release ... which shows value in the latest issue of the document in the previous product release.
The columns are grouped into attribute-specific sections for structured and convenient view. Use unfold (+) and fold (-) buttons in the top bar to browse the attribute-specific change details. Use unfold all (2) and fold all (1) buttons on the left hand side of the top bar to respectively show and hide the change details for the whole report.
Note that for all parameters except new and removed ones, the field values for previous issue and previous release are always provided to show total history information. Additionally, the changed attributes of parameters are highlighted with grey color. Highlights are enabled to specify whether there is a change between issues or releases.
1. IntroductionThe purpose of this document is to assist users in finding parameters, their meanings, specifications, and default values. The managed objects and parameters are listed in alphabetical order.
2. How to read this excel reportThe excel report provides a full information on the parameter dictionary. It shows the full set of parameter attributes including the change information.
The excel report consists of two main sections:- MO Class Tree- Parameter List
2. 1 MO Class TreeThis section shows the full Managed Object Class tree with the names of classes. Rows are grouped into respective class levels for structured and convenient view. Use unfold (+) and fold (-) buttons in the left panel to browse the tree.
2.2 Parameter ListThis section shows the full parameter information including the following:- abbreviated names- managed objects- parent/child parameter relationships- default values- range and step- field descriptions- change information
2.2.1 Field descriptionsField descriptions are provided in the second row of Parameter List section. Use fold (-) and unfold (+) buttons on the left panel to respectively hide and show the field descriptions.
2.2.2 Change informationChange information is a part of Parameter List section and is available in the following ways:
1. Definition on whether the parameter is new, removed, changed, or has been moved to another location in the structure (for example, to another managed object class). That definition is provided in the following columns:
- Changes between issues ... which shows the changes since the previous issue of the document.- Changes between releases ... which shows the changes since the latest issue of the document in the previous product release.
If the cell is empty, the parameter is not changed, nor new, nor removed, nor moved.Note that removed parameters are listed in the very bottom and they are marked with red font.
Filters are enabled for convenient browsing of the change categories.
2. Detailed change information showing the current and previous values of parameter attributes. That information is provided in the following columns:
- <parameter attribute> in issue ... which shows the value in the previous issue of the document.- <parameter attribute> in release ... which shows value in the latest issue of the document in the previous product release.
The columns are grouped into attribute-specific sections for structured and convenient view. Use unfold (+) and fold (-) buttons in the top bar to browse the attribute-specific change details. Use unfold all (2) and fold all (1) buttons on the left hand side of the top bar to respectively show and hide the change details for the whole report.
Note that for all parameters except new and removed ones, the field values for previous issue and previous release are always provided to show total history information. Additionally, the changed attributes of parameters are highlighted with grey color. Highlights are enabled to specify whether there is a change between issues or releases.
1. IntroductionThe purpose of this document is to assist users in finding parameters, their meanings, specifications, and default values. The managed objects and parameters are listed in alphabetical order.
2. How to read this excel reportThe excel report provides a full information on the parameter dictionary. It shows the full set of parameter attributes including the change information.
The excel report consists of two main sections:- MO Class Tree- Parameter List
2. 1 MO Class TreeThis section shows the full Managed Object Class tree with the names of classes. Rows are grouped into respective class levels for structured and convenient view. Use unfold (+) and fold (-) buttons in the left panel to browse the tree.
2.2 Parameter ListThis section shows the full parameter information including the following:- abbreviated names- managed objects- parent/child parameter relationships- default values- range and step- field descriptions- change information
2.2.1 Field descriptionsField descriptions are provided in the second row of Parameter List section. Use fold (-) and unfold (+) buttons on the left panel to respectively hide and show the field descriptions.
2.2.2 Change informationChange information is a part of Parameter List section and is available in the following ways:
1. Definition on whether the parameter is new, removed, changed, or has been moved to another location in the structure (for example, to another managed object class). That definition is provided in the following columns:
- Changes between issues ... which shows the changes since the previous issue of the document.- Changes between releases ... which shows the changes since the latest issue of the document in the previous product release.
If the cell is empty, the parameter is not changed, nor new, nor removed, nor moved.Note that removed parameters are listed in the very bottom and they are marked with red font.
Filters are enabled for convenient browsing of the change categories.
2. Detailed change information showing the current and previous values of parameter attributes. That information is provided in the following columns:
- <parameter attribute> in issue ... which shows the value in the previous issue of the document.- <parameter attribute> in release ... which shows value in the latest issue of the document in the previous product release.
The columns are grouped into attribute-specific sections for structured and convenient view. Use unfold (+) and fold (-) buttons in the top bar to browse the attribute-specific change details. Use unfold all (2) and fold all (1) buttons on the left hand side of the top bar to respectively show and hide the change details for the whole report.
Note that for all parameters except new and removed ones, the field values for previous issue and previous release are always provided to show total history information. Additionally, the changed attributes of parameters are highlighted with grey color. Highlights are enabled to specify whether there is a change between issues or releases.
1. IntroductionThe purpose of this document is to assist users in finding parameters, their meanings, specifications, and default values. The managed objects and parameters are listed in alphabetical order.
2. How to read this excel reportThe excel report provides a full information on the parameter dictionary. It shows the full set of parameter attributes including the change information.
The excel report consists of two main sections:- MO Class Tree- Parameter List
2. 1 MO Class TreeThis section shows the full Managed Object Class tree with the names of classes. Rows are grouped into respective class levels for structured and convenient view. Use unfold (+) and fold (-) buttons in the left panel to browse the tree.
2.2 Parameter ListThis section shows the full parameter information including the following:- abbreviated names- managed objects- parent/child parameter relationships- default values- range and step- field descriptions- change information
2.2.1 Field descriptionsField descriptions are provided in the second row of Parameter List section. Use fold (-) and unfold (+) buttons on the left panel to respectively hide and show the field descriptions.
2.2.2 Change informationChange information is a part of Parameter List section and is available in the following ways:
1. Definition on whether the parameter is new, removed, changed, or has been moved to another location in the structure (for example, to another managed object class). That definition is provided in the following columns:
- Changes between issues ... which shows the changes since the previous issue of the document.- Changes between releases ... which shows the changes since the latest issue of the document in the previous product release.
If the cell is empty, the parameter is not changed, nor new, nor removed, nor moved.Note that removed parameters are listed in the very bottom and they are marked with red font.
Filters are enabled for convenient browsing of the change categories.
2. Detailed change information showing the current and previous values of parameter attributes. That information is provided in the following columns:
- <parameter attribute> in issue ... which shows the value in the previous issue of the document.- <parameter attribute> in release ... which shows value in the latest issue of the document in the previous product release.
The columns are grouped into attribute-specific sections for structured and convenient view. Use unfold (+) and fold (-) buttons in the top bar to browse the attribute-specific change details. Use unfold all (2) and fold all (1) buttons on the left hand side of the top bar to respectively show and hide the change details for the whole report.
Note that for all parameters except new and removed ones, the field values for previous issue and previous release are always provided to show total history information. Additionally, the changed attributes of parameters are highlighted with grey color. Highlights are enabled to specify whether there is a change between issues or releases.
Managed Object Class Tree
MRBTS ANTLBTSSCL
LCELLLNBTS
ADIPNOANRPRLANRPRTANRPRWBTSSC
ANTLLCELMHARET
CRGPRCTRLTS
MTRACEFTM
AMGR CERTHETHLKIPNO
BFDBFDGRPIDNSIEIF
IVIFIHCPINTPIPRMIPRTIPRTV6QOSTWAMP
IPSECC L2SWIOAMMD
OAMMA OAMMEP
OAMPRFPMTNLPPTTSYNC
STPGTAC
LTACTOPB
TOPFTOPP
UNITGTPUITRACELNADJ
LNADJL
LNADJGLNADJWLNADJXLNADLPLNCEL
CARELCDFIMGFIM IAFIMIRFIMLNHOGLNHOHLNHOIFLNHOWLNHOXLNNEIHLNRELLNRELGLNRELWLNRELXREDRTUFFIMXPARAM
LNHENBLNMMEMFBIPRMODPR
MODIMPMODRED
MOPR MOIMPMORED
PMRNLSCTPULCOMP
MHAPMCADMRETRMODSMOD
Managed Object Class Name
Multiradio BTS Site Antenna Line parameters LTE BTS radio specific configuration Local Cell LTE LTE Basestation RNW parameters Adjacent IP Node parameters Automatic Neighbor Relationship Profile LTE Automatic Neighbor Relationship Profile TD-SCDMA Automatic Neighbor Relationship Profile WCDMA BTS Site commissioning parameters Antenna Line parameters Local Cell parameters Mast Head Amplifier Remote Electrical Tilt Cell Resource Group Profile Trace Control Cell Trace Session Flexi transport module Account Manager Certificate Handler Ethernet link interface IP Node Configuration BFD session Bidirectional Forwarding Detection Group DNS Access Plain Ethernet network interface VLAN interface DHCP access NTP Server Configuration Restricted mode configuration IP Routing Tables IPv6 Routing Tables Quality of Service configuration TWAMP session IPsec configuration Layer 2 Switch Maintenance Domain Maintenance Association Maintenance Association End Point Link OAM Profile Transport Performance Management Measurement Administration PDH physical section trail termination point Clock Synchronization Synchronization Protection Group Transport admission control Transport admission control for LTE ToP base MO ToP freq sync ToP Phase Sync Hardware Unit GPRS Tunnel Protocol User Plane parameters Interface Trace Neighbouring LTE BTS Neighbouring LTE BTS Cell
Neighbouring GERAN BTS Cell Neighbouring WCDMA BTS Cell Neighbouring CDMA 1xRTT BTS Cell Target Cell for S1 Handover LTE BTS CELL RNW parameters Carrier Aggregation Relation CDMA2000 frequency Idle Mode parameters GERAN frequency Idle Mode parameters Intra frequency Idle Mode parameters Inter frequency Idle Mode parameters Handover parameters to Neigbouring GERAN BTS Cell LN Handover to HRPD Handover parameters to Neigbouring Interfrequency LTE Cell Handover parameters to Neigbouring WCDMA BTS Cell Handover parameters to Neigbouring CDMA2000 1xRTT Cell LN Neighbourship to HRPD Cell LTE Neighbor Relation LTE Neighbor Relation to GERAN LTE Neighbor Relation to UTRAN LTE Neighbor Relation to CDMA2000 1xRTT Redirection target parameters Utran FDD frequency Idle Mode parameters CDMA2000 1xXRTT Parameter Home eNB Set LTE Mobility Management Entity Multiple Frequency Band Indicator Profile Mobility Default Profile Mobility Idle Mode Default Profile Mobility Default profile for Redirection Mobility Profile Mobility Idle Mode Profile Mobility Profile for Redirection PM counters configuration for radio network layer Stream Control Transmission Protocol parameters Uplink coordinated multipoint set Mast Head Amplifier Performance Measurement Common Administration Remote Electrical Tilt Radio Module System Module
Abbreviated Name
amgrId
ldapConnectionType
primaryLdapPort
Changed primaryLdapServer
Changed actAlsoForUeBasedANR
anrPrLId
anrThresRSRPNbCell
New anrThresRSRPNbCellMobEv
anrThresRSRQNbCell
nrLimitInterFreq
Note:See the How to Read This Report tabfor instructions on the usage of Parameter List
Changes between issues 02A and 02B
Changes between releases RL50 and RL60
nrLimitIntraFreq
targetCarrierFreq
anrPrWId
cellsToApplyList
enableAnrProfile
lnRelWDefaults
csfbPsHoAllowed
psHoAllowed
srvccAllowed
lnRelWLimitForAnr
pscBlacklist
psc
pscLast
rncIdCoding
rncIdAlignment
rncIdType
srvccHoInd
utraCarrierFreq
additionalRxGain
Changed alDcVoltageEnabled
antId
antennaRoundTripDelay
antennaTotalLoss
Changed antlId
Changed communication3gppEnabled
feederVoltage
mrcProdCode
Changed rModId
ulDelay
vswrMajorAlarm
vswrMinorAlarm
bfdActivation
bfdAdminUp
Changed bfdDestAddress
Changed bfdDetectMult
Changed bfdGrp
bfdId
Changed bfdSourceIpAddr
Changed bfdSourceUdpPort
Changed bfdType
desMinTxInt
reqMinRxInt
bfdGrpId
alToggSuppList
alToggAmount
alToggClearenceTime
alToggConditonTime
faultName
inUse
btsId
btsName
Changed btsSyncMode
btssclId
Changed ext1ppsClkOutOn
ext2M048ClkInUse
Changed ext2M048ClkOutOn
Changed gpsCableLength
Changed gpsCtrlBlockForCoLocatedBts
Changed gpsInUse
Changed gpsTotalAntennaLineDelay
holdOverModeUsed
Changed rfSharingEnabled
syncPropagationEnabled
Changed tdmSyncInUse
caRelId
caSchedFairFact
disableSCellPDCCHOlLa
Changed lcrId
Changed cdfimId
New csfbRegParam1xRtt
New foreignNidReg
New foreignSidReg
New homeReg
New multiNid
New multiSid
New nid
New paramReg
New powerDownReg
New powerUpReg
New regPeriod
New regZone
New sid
New totalZone
New zoneTimer
New hoRegParamHrpd
New hrpdPreRegAllowed
New hrpdPreRegZoneId
New hrpdSecPreRegZoneId1
New hrpdSecPreRegZoneId2
Changed hrpdBdClList
hrpdBdClBcl
hrpdCResPrio
hrpdFrqThrH
hrpdFrqThrL
New idleLBHrpdCelResWeight
Changed hrpdNCList
hrpdArfcn
hrpdBdClNcl
hrpdCellId
hrpdExSel
Changed rttBdClList
New idleLBRttCelResWeight
rttBdClBcl
rttCResPrio
rttFrqThrH
rttFrqThrL
Changed rttNCList
rttArfcn
rttBdClNcl
rttCellId
rttExSel
Changed searchWinSize
Changed tResHrpd
tResHrpdSF
Changed hrpResTiFHM
Changed hrpResTiFMM
Changed tResRtt
tResRttSF
Changed rttResTiFHM
Changed rttResTiFMM
New BTSOperatorCertificate
New certificateFingerprint
New certificateIssuedBy
New certificateIssuedTo
New certificateSerialNumber
New certificateType
New certificateValidFrom
New certificateValidTo
New CRLDPSource
New CRLDistributionPoint
New CRLDPPrimary
New CRLDPSecondary
New CRLInfo
New CRLDPType
New CRLDistributionPoint
New CRLDownloadStatus
New CRLIssuer
New CRLNextUpdate
New CRLNumOfRevCert
New CRLThisUpdate
Changed New CRLUpdateFailureReason
New CRLUsageEnabled
btsCertificateUpdateTime
Changed Changed caCertificateUpdateTime
caSubjectName
certhId
cmpDirectory
cmpServerIpAddress
cmpServerPort
crlUpdatePeriod
New crgPrId
New crgSkipThreshold
New defaultPlmnGroupId
New plmnGroupList
New mcc
New mnc
New mncLength
New plmnGroupId
New plmnGroupShareList
New plmnGroupId
New plmnGroupShare
ctrlTsId
extTraceReporting
extCellTraceRep
extUeTraceRep
maxUeTraceSessions
netActIpAddr
omsTracePortNum
tceTracePortNum
traceRepMode
cellTraceRepMode
ueTraceRepMode
ueActiveTrcSessFlag
vendorSpecTracing
taTracing
acceptableFrameTypes
Changed administrativeState
Changed ethLinkId
l2BurstSize
l2IngressRate
l2ShaperRate
Changed l2VlanIdList
highValue
lowValue
linkOAMEnabled
linkOAMProfile
macAddr
Changed portDefaultPriority
Changed portDefaultVlanId
speedAndDuplex
ftmId
locationName
Changed softwareReleaseVersion
systemTitle
userLabel
gfimId
Changed tResGer
tResGerSF
Changed gerResTiFHM
Changed gerResTiFMM
bandInd
gCelResPrio
Changed gerArfcnVal
Changed gerFrqThrH
Changed gerFrqThrL
gnflId
New idleLBGeranCelResWeight
nccperm
pMaxGer
Changed qRxLevMinGer
gtpuId
gtpuN3Reqs
gtpuPathSupint
gtpuT3Resp
sgwIpAddressList
Changed sgwIpAddress
transportNwId
iafimId
intrFrBCList
Changed rangeIntraPci
startIntraPci
intrFrNCList
physCellIdNcl
qOffsetCell
dnsAccessId
serverIpAddress
serverIpAddress2
New ieifId
Changed localIpAddr
New localIpv6Addr
New localIpv6PrefixLength
Changed mtu
Changed netmask
qosEnabled
sbs
sbsTotal
sir
sirTotal
Changed trafficPathShapingEnable
Changed upperLayerShaping
wfqSchedQueueWeight
client_identifier
dhcpClientIdentifier
dhcpFixedIpAddress
dhcpAccessId
hardware_identifier
dhcpFixedIpAddress
dhcpHardwareIdentifier
range_identifier
dhcpRangeEnd
Changed dhcpRangeStart
ntpAccessId
Changed ntpServers
actFastIpRerouting
Changed actIpTnlMeasure
New actIpv6
Changed actSeparationRanSharing
Changed addTransportNwIpAddrList
addCPlaneIpv4Address
New addCPlaneIpv6Address
addUPlaneIpv4Address
New addUPlaneIpv6Address
transportNwId
bfdHoldUpTime
btsId
btsSubnetMacAddr
Changed cPlaneIpAddress
New cPlaneIpv6Address
Changed disableFtp
Changed enableSoam
ftmBtsSubnetAddress
ftmBtsSubnetMask
icmpResponseEnabled
ipNodeId
mPlaneIpAddress
mainTransportNwId
oamIpAddr
oamTlvReply
omsTls
planeMacAddr
New retransTimer
Changed sPlaneIpAddress
secOmsIpAddr
servingOms
servingOmsAdminSetting
servingOmsSwoRequest
twampFlag
twampIpAddress
twampReflFlag
udpEchoFlag
twampMessageRate
Changed twampReflectorPort
Changed uPlaneIpAddress
New uPlaneIpv6Address
wfqSchedOamWeight
RmExceptions
sourceTwoDiscr
sourceTwoIpAddr
sourceTwoNetMask
userLabel
iprmId
ipRoutingTableId
staticRoutes
bfdId
destIpAddr
gateway
netmask
preference
New ipv6RoutingTableId
New staticIpv6Routes
New bfdId
New destIpv6Addr
New destinationIpv6PrefixLength
New gatewayIpv6Addr
New preference
New ipSecEmBypassCtrlIpAddr
New ipSecEmBypassEnabled
New ipSecEmBypassExit
New ipSecEmBypassPingTimer
New ipSecEmBypassState
ipSecEnabled
ipSeccId
Changed securityPolicies
antiReplayEnabled
antiReplayWindowSize
dpddelay
dpdtimeout
encryptionMethod
New ikeDiffHellGrp
ikeEncryptionMethod
ikeProtocol
ipSecStatus
Changed localIpAddress
localIpPort
New localIpPrefixLength
Changed localTunnelEndpoint
policyNumber
protocol
Changed remoteIpAddress
remoteIpPort
New remoteIpPrefixLength
remoteTunnelEndpoint
saMaxLifeTime
dlCarFrqEut
eutCelResPrio
New idleLBEutCelResWeight
Changed intFrBCList
rangeInterPci
startInterPci
Changed intFrNCList
physCellIdNcl
qOffCell
interFrqQThrR9
interFrqQThrHighR9
interFrqQThrLowR9
Changed interFrqThrH
Changed interFrqThrL
interPresAntP
Changed interTResEut
Changed irfimId
measBdw
pMaxInterF
qOffFrq
qQualMinR9
Changed qRxLevMinInterF
tResEutSF
Changed eutResTiFHM
Changed eutResTiFMM
Changed localIpAddr
New localIpv6Addr
New localIpv6PrefixLength
Changed netmask
qosEnabled
sbs
sir
vlanId
Changed vlanIfNetId
wfqSchedQueueWeight
Changed dscpMap
dscp
priorityQueue
enableLayer2Switching
l2PriorityQueueWeight2
l2PriorityQueueWeight3
l2PriorityQueueWeight4
Changed l2PriorityQueueWeight5
Changed l2PriorityQueueWeight6
Changed portDefaultPriority
portDefaultVlanId
priorityQueueNonIP
priorityQueuePcp0
priorityQueuePcp1
priorityQueuePcp2
priorityQueuePcp3
priorityQueuePcp4
priorityQueuePcp5
priorityQueuePcp6
priorityQueuePcp7
priorityQueueUntagged
qosClassification
switchId
vlanAwareSwitch
Changed lCellId
repeaterDelay
Changed resourceList
antlId
subCellId
txRxUsage
Changed sectorId
Changed adjEnbId
Changed cPlaneIpAddr
cPlaneIpAddrCtrl
guGroupIdList
mcc
mmeGroupId
mnc
mncLength
Changed lnAdjId
Changed plmnId
mcc
mnc
mncLength
x2LinkStatus
arfcnValueGeran
bandIndicatorGeran
basestationColourCode
dtm
Changed gTargetCi
Changed gTargetLac
Changed gTargetRac
lnAdjGId
Changed mcc
Changed mnc
Changed mncLength
networkColourCode
Changed networkControlOrder
rimStatus
Changed systemInfoListGeran
Changed systemInfoType
bcPlmnIdList
mcc
mnc
mncLength
cpConfDL
cpConfUL
dlTrmBw
ecgiAdjEnbId
ecgiLcrId
ecgiPlmnId
mcc
mnc
mncLength
fDlEarfcn
fUlEarfcn
lnAdjlId
phyCellId
sourceOfData
spcSubConfTD
tac
trmBwTD
ulDlConfTD
ulTrmBw
lnAdjWId
primaryPlmnId
mcc
mnc
mncLength
secondaryPlmnIdL
mcc
mnc
mncLength
sourceOfData
Changed srvccHoInd
Changed uTargetCid
uTargetFreq
uTargetLac
uTargetRac
Changed uTargetRncId
uTargetScFdd
New arfcn
New bandClass
New cellId
New lnadjxId
New marketId
New pnOffset
New sectorId
New swNo
New act1xCsfb
New act8EpsBearers
actCMAS
Changed actCSFBRedir
actCellTrace
New actCellTraceWithIMSI
actCiphering
Changed actCompChecks
actConvVoice
actCplaneOvlHandling
Changed actCsfbPsHoToUtra
Changed actDLCAggr
actDistributedSite
Changed actDualBand
Changed actDualCarrier
New actDualRx1xCsfb
actERabModify
actETWS
Changed actEmerCallRedir
Changed actEnhAcAndGbrServices
Changed actFlexBbUsage
actGsmRedirWithSI
New actHOtoHrpd
Changed actHOtoWcdma
actHeNBMobility
New actHighPrioServices
Changed actHighRrc
New actHoFromUtran
Changed actIMSEmerSessR9
Changed actIdleLB
Changed actIfHo
Changed actImmHRPD
actImmXrtt
Changed actInterFreqLB
actIntraFreqLoadBal
New actLPPaOtdoa
actLTES1Ho
actLocRep
actMDTCellTrace
New actMFBI
actMultBearers
actMultGbrBearers
actNonGbrServiceDiff
New actOTNRecovery
actOperatorQCI
New actOperatorQCIGBR
actOptMmeSelection
actPdcpRohc
Changed actRIMforGSM
actRedirect
actRfChaining
actS1Flex
actS1OlHandling
actSelMobPrf
Changed actSrvccToGsm
actSrvccToWcdma
actSubscriberTrace
New actUeBasedAnrInterFreqLte
Changed actUeBasedAnrIntraFreqLte
Changed actUeBasedAnrUtran
Changed New actUlCoMp
actZUC
Changed acteNACCtoGSM
amRlcPBTab1
dlPollByte
ueCategory
Changed ulPollByte
amRlcPBTab2
Changed dlPollByte
ueCategory
Changed ulPollByte
amRlcPBTab3
Changed dlPollByte
ueCategory
Changed ulPollByte
amRlcPBTab4
Changed dlPollByte
ueCategory
Changed ulPollByte
amRlcPBTab5
Changed dlPollByte
ueCategory
Changed ulPollByte
New anrIfTRSC
anrOmExtEnable
anrRobLevel
blacklistedGsmPlmnsForRim
mcc
mnc
mncLength
btsResetRequest
caMinDlAmbr
cipherPrefL
eea0
eea1
eea2
eea3
Changed congWeightAlg
defProfIdxAM
defProfIdxUM
enableAutoLock
enableGrflShdn
Changed enbName
etwsPrimNotifBcDur
Changed glbNbEnbIdX2LinkBlacklist
enbId
mcc
mnc
mncLength
New hpsSessConfig
New hpsSessArpMax
New hpsSessArpMin
imsEmerPlmnConfig
emerSessArpPreemCap
emerSessArpPreemVul
emerSessArpPrioLev
emerSessLimServ
emerSessMcc
emerSessMnc
emerSessMncLen
integrityPrefL
eia0
eia1
eia2
eia3
keyRefrMarg
Changed lnBtsId
New maxNumOfLnadjLimit
maxNumPreEmptions
New maxNumX2LinksIn
New maxNumX2LinksOut
Changed mcc
minNotActivatedUtraRSCFS
Changed mnc
Changed mncLength
moProfileSelect
nRimRirG
nullFallback
operationalState
New otnRecoveryPeriod
ovlha
actInHORed
actRrcConnRed
pbrNonGbr
pciIpAdrMap
dlEarfcn
enbId
Changed ipAdr
mcc
mnc
mncLength
pci
pdcpProf1
pdcpProfileId
statusRepReq
tDiscard
pdcpProf101
pdcpProfileId
rohcMaxCid
snSize
tDiscard
pdcpProf102
pdcpProfileId
snSize
tDiscard
pdcpProf103
pdcpProfileId
snSize
tDiscard
pdcpProf104
pdcpProfileId
snSize
tDiscard
pdcpProf2
pdcpProfileId
statusRepReq
tDiscard
pdcpProf3
pdcpProfileId
statusRepReq
tDiscard
pdcpProf4
pdcpProfileId
statusRepReq
tDiscard
pdcpProf5
pdcpProfileId
statusRepReq
tDiscard
prioTopoHO
prohibitLBHOTimer
Changed prohibitPsHOtoWcdma
Changed pwsWithEmAreaId
qciTab1
Changed delayTarget
drxProfileIndex
dscp
enforceTtiBundling
lcgid
maxGbrDl
maxGbrUl
pdcpProfIdx
prio
qci
qciSupp
resType
rlcMode
rlcProfIdx
schedulBSD
schedulPrio
qciTab2
Changed delayTarget
drxProfileIndex
dscp
enforceTtiBundling
l2OHFactorDL
l2OHFactorUL
lcgid
maxGbrDl
maxGbrUl
pdcpProfIdx
prio
qci
qciSupp
resType
rlcMode
rlcProfIdx
schedulBSD
schedulPrio
qciTab3
Changed delayTarget
drxProfileIndex
dscp
enforceTtiBundling
l2OHFactorDL
l2OHFactorUL
lcgid
maxGbrDl
maxGbrUl
pdcpProfIdx
prio
qci
qciSupp
resType
rlcMode
rlcProfIdx
schedulBSD
schedulPrio
qciTab4
Changed delayTarget
drxProfileIndex
dscp
enforceTtiBundling
l2OHFactorDL
l2OHFactorUL
lcgid
maxGbrDl
maxGbrUl
pdcpProfIdx
prio
qci
qciSupp
resType
rlcMode
rlcProfIdx
schedulBSD
schedulPrio
qciTab5
drxProfileIndex
dscp
enforceTtiBundling
lcgid
pdcpProfIdx
prio
qci
qciSupp
resType
rlcMode
rlcProfIdx
schedulBSD
schedulPrio
schedulType
schedulWeight
qciTab6
drxProfileIndex
dscp
enforceTtiBundling
lcgid
pdcpProfIdx
prio
qci
qciSupp
resType
rlcMode
rlcProfIdx
schedulBSD
schedulPrio
schedulWeight
qciTab7
drxProfileIndex
dscp
enforceTtiBundling
lcgid
Changed pdcpProfIdx
prio
qci
qciSupp
resType
rlcMode
rlcProfIdx
schedulBSD
schedulPrio
schedulWeight
qciTab8
drxProfileIndex
dscp
enforceTtiBundling
lcgid
pdcpProfIdx
prio
qci
qciSupp
resType
rlcMode
rlcProfIdx
schedulBSD
schedulPrio
schedulWeight
qciTab9
drxProfileIndex
dscp
enforceTtiBundling
lcgid
pdcpProfIdx
prio
qci
qciSupp
resType
rlcMode
rlcProfIdx
schedulBSD
schedulPrio
schedulWeight
Changed qciTabOperator
counterGroup
New delayTarget
Changed drxProfileIndex
dscp
Changed enforceTtiBundling
New l2OHFactorDl
New l2OHFactorUl
Changed lcgid
New maxGbrDl
New maxGbrUl
Changed pdcpProfIdx
New prio
Changed qci
qciSupp
Changed resType
Changed rlcMode
Changed rlcProfIdx
schedulBSD
Changed schedulPrio
schedulWeight
New rachAccessForHoFromUtran
recoveryResetDelay
Changed rfSharingState
rlcProf1
pollPdu
rlcProfileId
tPollRetr
tProhib
tReord
rlcProf101
rlcProfileId
snFieldLengthDL
snFieldLengthUL
tReord
rlcProf102
rlcProfileId
snFieldLengthDL
snFieldLengthUL
tReord
rlcProf103
rlcProfileId
snFieldLengthDL
snFieldLengthUL
tReord
rlcProf104
rlcProfileId
snFieldLengthDL
snFieldLengthUL
tReord
rlcProf2
pollPdu
rlcProfileId
tPollRetr
tProhib
tReord
rlcProf3
pollPdu
rlcProfileId
tPollRetr
tProhib
tReord
rlcProf4
pollPdu
rlcProfileId
tPollRetr
tProhib
tReord
rlcProf5
pollPdu
rlcProfileId
tPollRetr
tProhib
tReord
s1InducedCellDeactDelayTime
sCellActivationCyclePeriod
sCellActivationMethod
Changed sCellDeactivationTimereNB
sCellpCellHARQFdbkUsage
shutdownStepAmount
shutdownWindow
New supportedNumOfLnadj
systemInformationListWCDMA
physCellId
sysInfo
tRimKaG
tRimPollG
tRimRirG
tS1RelPrepG
tS1RelPrepL
Changed tS1RelPrepU
tagMaxAM
tagMaxUM
timDelACContPreempt
ttiBundlingDuringHoMeas
Changed txPathFailureMode
New ulpcRssiMaxIAw
New voiceSuppMatchInd
Changed a1TimeToTriggerDeactInterMeas
Changed a2TimeToTriggerActGERANMeas
New a2TimeToTriggerActHrpdMeas
Changed a2TimeToTriggerActInterFreqMeas
Changed a2TimeToTriggerActWcdmaMeas
Changed a2TimeToTriggerRedirect
Changed a3Offset
a3ReportInterval
a3TimeToTrigger
a5ReportInterval
a5TimeToTrigger
acBarCsfbOc
acBarAC
acBarTime
probFac
acBarMMTelVideoOc
acBarAC
acBarTime
probFac
acBarMMTelVoiceOc
acBarAC
acBarTime
probFac
acBarOc
ocAcBarAC
ocAcBarTime
ocAcProbFac
acBarSig
sigAcBarAC
sigAcBarTime
sigAcProbFac
Changed actDlsOldtc
actDlsVoicePacketAgg
Changed actDrx
Changed actFastMimoSwitch
Changed actLdPdcch
actModulationSchemeUL
New actNoIntraBandIFMeasurements
Changed actOlLaPdcch
Changed actOtdoa
Changed actPrsTxDiv
New actPuschMask
actRepeaterMode
New actSixIfMeasurements
Changed actSmartDrx
Changed actSuperCell
Changed actTtiBundling
New actUlGrpHop
Changed actUlLnkAdp
New actUlpcMethod
addAUeRrHo
addAUeTcHo
addEmergencySessions
addGbrTrafficRrHo
addGbrTrafficTcHo
addNumDrbRadioReasHo
addNumDrbTimeCriticalHo
addNumQci1DrbRadioReasHo
addNumQci1DrbTimeCriticalHo
addSpectrEmi
administrativeState
Changed anrUtraRscpThres
applyOutOfSyncState
blacklistHoL
blacklistTopo
freqEutra
phyCellIdRange
phyCellIdStart
blankedPucch
New c2KTimers
New tC2KMeasReport
New tC2KRelocPrep
New tC2kRelocExec
New tULHOPrepTransfer
celResTiF
Changed celResTiFHM
Changed celResTiFMM
cellBarred
cellCapClass
cellIndOffServ
Changed cellName
cellReSelPrio
cellResetRequest
New cellResourceGroupPrId
New cellResourceSharingMode
cellSelectionInfoV920
qQualMinOffsetR9
qQualMinR9
cellSrPeriod
cellType
cqiAperEnable
cqiAperMode
Changed cqiPerNp
cqiPerSbCycK
cqiPerSimulAck
dFListPucch
dFpucchF1
dFpucchF1b
dFpucchF2
dFpucchF2a
dFpucchF2b
dSrTransMax
defPagCyc
deltaMargin
deltaPreMsg3
deltaPucchShift
Changed deltaTfEnabled
dl64QamEnable
Changed dlCellPwrRed
Changed dlChBw
dlInterferenceEnable
dlInterferenceLevel
dlInterferenceModulation
Changed dlMimoMode
Changed dlOlqcEnable
dlPathlossChg
dlPcfichBoost
dlPhichBoost
dlRsBoost
Changed dlTargetBler
dlamcCqiDef
Changed dlamcEnable
Changed dlpcMimoComp
dlsDciCch
dlsFdAlg
Changed dlsOldtcTarget
Changed dlsUsePartPrb
drxApplyDeviceType
drxProfile1
drxProfileIndex
drxProfilePriority
Changed drxProfile101
drxInactivityT
drxLongCycle
Changed drxOnDuratT
drxProfileIndex
drxProfilePriority
Changed drxRetransT
drxProfile102
drxInactivityT
drxLongCycle
drxOnDuratT
drxProfileIndex
drxProfilePriority
drxRetransT
New drxProfile103
New drxInactivityT
New drxLongCycle
New drxOnDuratT
New drxProfileIndex
New drxProfilePriority
New drxRetransT
Changed drxProfile2
Changed drxInactivityT
drxLongCycle
Changed drxOnDuratT
drxProfileIndex
drxProfilePriority
Changed drxRetransT
Changed drxProfile3
drxInactivityT
drxLongCycle
Changed drxOnDuratT
drxProfileIndex
drxProfilePriority
Changed drxRetransT
Changed drxProfile4
drxInactivityT
drxLongCycle
drxOnDuratT
drxProfileIndex
drxProfilePriority
Changed drxRetransT
Changed drxProfile5
drxInactivityT
drxLongCycle
drxOnDuratT
drxProfileIndex
drxProfilePriority
Changed drxRetransT
Changed drxSmartProfile2
Changed drxInactivityT
drxLongCycle
Changed drxOnDuratT
drxProfileIndex
drxProfilePriority
Changed drxRetransT
drxShortCycle
drxShortCycleT
smartStInactFactor
Changed drxSmartProfile3
drxInactivityT
drxLongCycle
Changed drxOnDuratT
drxProfileIndex
drxProfilePriority
Changed drxRetransT
drxShortCycle
drxShortCycleT
smartStInactFactor
Changed drxSmartProfile4
Changed drxInactivityT
drxLongCycle
drxOnDuratT
drxProfileIndex
drxProfilePriority
Changed drxRetransT
drxShortCycle
drxShortCycleT
smartStInactFactor
Changed drxSmartProfile5
Changed drxInactivityT
drxLongCycle
drxOnDuratT
drxProfileIndex
drxProfilePriority
Changed drxRetransT
drxShortCycle
drxShortCycleT
smartStInactFactor
Changed eCallAcBarred
New eHrpdSectList
New preRegLoadBalFactor
New sectorID
Changed eUlLaAtbPeriod
Changed eUlLaBlerAveWin
Changed eUlLaDeltaMcs
Changed eUlLaLowMcsThr
Changed eUlLaLowPrbThr
Changed eUlLaPrbIncDecFactor
Changed earfcnDL
Changed earfcnUL
New emAreaIdList
Changed enableAmcPdcch
enableBetterCellHo
enableCovHo
enableDl16Qam
Changed enableLowAgg
Changed enablePcPdcch
eutraCelId
New eutranAccessPointPosition
New altitude
New confidence
New degreesOfLatitude
New degreesOfLongitude
New directionOfAltitude
New latitudeSign
New orientationOfMajorAxis
New uncertaintyAltitude
New uncertaintySemiMajor
New uncertaintySemiMinor
New fUlLAAtbTrigThr
filterCenterTx
filterCoeff
filterCoefficientCSFBCpichEcn0
filterCoefficientCSFBCpichRscp
filterCoefficientCpichEcn0
filterCoefficientCpichRscp
filterCoefficientRSRP
filterCoefficientRSRQ
Changed filterCoefficientRSSI
furtherPlmnIdL
cellReserve
mcc
mnc
mncLength
gbrCongHandling
grpAssigPUSCH
harqMaxMsg3
harqMaxTrDl
harqMaxTrUl
harqMaxTrUlTtiBundling
hopModePusch
New hrpdTimers
New tC2KRelocOverallHrpd
New tC2KRelocPrepHrpd
New tUlHoPrepTransferHrpd
hsScenario
Changed hysA3Offset
Changed hysThreshold2GERAN
New hysThreshold2Hrpd
Changed hysThreshold2InterFreq
Changed hysThreshold2Wcdma
Changed hysThreshold2a
Changed hysThreshold3
Changed hysThreshold4
Changed iFLBLoadThresholds
Changed iFLBBearCheckTimer
iFLBHighLoadGBRDL
iFLBHighLoadNonGBRDL
iFLBHighLoadPdcch
iFLBNomNumPrb
New iFLBRetryTimer
iFLBTargetLoadGBRDL
iFLBTargetLoadNonGBRDL
iFLBTargetLoadPdcch
New idleLBCelResWeight
idleLBPercentageOfUes
Changed ilReacTimerUl
Changed inactivityTimer
Changed iniMcsDl
iniMcsUl
iniPrbsUl
Changed intrFrqCelRes
intraPresAntP
lcrId
Changed lnCelId
loadBalancingProfile
lowerMarginCIO
maxBitrateDl
maxBitrateUl
maxCrPgDl
maxCrRa4Dl
maxCrRaDl
maxCrSibDl
maxGbrTrafficLimit
maxNrSymPdcch
maxNumActDrb
Changed maxNumActUE
maxNumCaConfUeDc
maxNumQci1Drb
maxNumRrc
maxNumRrcEmergency
Changed maxNumUeDl
Changed Changed maxNumUeUl
mbrSelector
measQuantityCSFBUtra
Changed measQuantityUtra
New mimoClConfig
Moved mimoClCqiThD
Moved mimoClCqiThU
Moved mimoClRiThD
Moved mimoClRiThU
New mimoOlConfig
Moved mimoOlCqiThD
Moved mimoOlCqiThU
Moved mimoOlRiThD
Moved mimoOlRiThU
minBitrateDl
minBitrateUl
moPrMappingList
moPrId
spid
spidLast
Changed mobStateParamNCelChgHgh
Changed mobStateParamNCelChgMed
Changed mobStateParamTEval
Changed mobStateParamTHystNorm
modPeriodCoeff
n1PucchAn
n310
n311
Changed nCqiRb
offsetFreqIntra
operationalState
p0NomPucch
p0NomPusch
Changed pMax
pMaxIntraF
pMaxOwnCell
pagingNb
pdcchAggDefUe
pdcchAggMsg4
pdcchAggPaging
pdcchAggPreamb
pdcchAggRaresp
pdcchAggSib
pdcchAlpha
Changed pdcchCqiShift
Changed pdcchHarqTargetBler
pdcchUlDlBal
periodicCqiFeedbackType
periodicUeMeas
activateMeas
measurementType
reportAmount
reportInterval
phichDur
phichRes
phyCellId
prachCS
prachConfIndex
Changed prachFreqOff
Changed prachHsFlag
prachPwrRamp
preambTxMax
primPlmnCellres
prsBandwidth
prsConfigurationIndex
prsMuting
prsMutingInfo
prsMutingInfoPatternLen
prsNumDlFrames
prsPowerBoost
pucchNAnCs
puschAckOffI
puschCqiOffI
puschRiOffI
Changed qHyst
qQualMinR9
qRxLevMinOffset
Changed qrxlevmin
qrxlevminintraF
raContResoT
raLargeMcsUl
raMsgPoffGrB
raNondedPreamb
raPreGrASize
Changed raRespWinSize
raSmallMcsUl
raSmallVolUl
New rand
Changed rcAmbrMgnDl
Changed rcAmbrMgnUl
Changed rcEnableDl
Changed rcEnableUl
Changed redBwEnDl
Changed redBwMaxRbDl
New redBwRbUlConfig
redBwMaxRbUl
redBwMinRbUl
Changed redBwRpaEnUl
riEnable
Changed riPerM
Changed riPerOffset
rootSeqIndex
New rsrqMobilityParams
New a1ReportInterval
New a2TimeToTriggerMobRsrq
New hysThreshold2MobRsrq
New threshold2MobRsrq
New threshold2aRsrq
Changed rsrqRedirectParams
a2TimeToTriggerRedirectRsrq
Changed hysThreshold4Rsrq
Changed threshold4Rsrq
New rttCellIdInfo
New rttCsfbType
New rttPreregRefCellId
New rttPreregCellId
New rttPreregMarketId
New rttPreregSectorId
New rttPreregSwNo
sIntraSearchV920
sIntraSearchPR9
sIntraSearchQR9
Changed sIntrasearch
sNonIntraSearchV920
sNonIntraSearchPR9
sNonIntraSearchQR9
Changed sNonIntrsearch
siWindowLen
sib2Scheduling
siMessagePeriodicity
siMessageRepetition
siMessageSibType
sib3Scheduling
siMessagePeriodicity
siMessageRepetition
siMessageSibType
Changed sibSchedulingList
siMessagePeriodicity
siMessageRepetition
Changed siMessageSibType
spStResPars
Changed nCellChgHigh
Changed nCellChgMed
Changed qHystSfHigh
Changed qHystSfMed
Changed tEvaluation
Changed tHystNormal
srbSchedWeightDl
srbSchedWeightUl
Changed srsConfiguration
Changed srsPwrOffset
stInactFactor
Changed syncSigTxMode
t300
t301
t302
Changed t304InterRAT
t304InterRATGsm
t304IntraLte
Changed t304eNaccGsm
t310
t311
t320
tExtendedWait
New tPageCorrInt
tPeriodicBsr
Changed tPeriodicPhr
tProhibitPhr
tReTxBsrTime
Changed tReselEutr
tStoreUeCntxt
taMaxOffset
taTimer
taTimerMargin
tac
threshServingLowQR9
Changed threshSrvLow
Changed threshold1
Changed threshold2GERAN
New threshold2Hrpd
Changed threshold2InterFreq
Changed threshold2Wcdma
Changed threshold2a
Changed threshold3
Changed threshold3a
Changed threshold4
timeToTriggerSfHigh
timeToTriggerSfMedium
ttiBundlingBlerTarget
ttiBundlingBlerThreshold
ttiBundlingSinrThreshold
Changed ulChBw
Changed ulCombinationMode
ulRsCs
ulTargetBler
ulamcAllTbEn
ulamcSwitchPer
ulatbEventPer
Changed ulpcAlpha
New ulpcIAwConfig
New p0NomPuschIAw
New ulpcCEBalanceIAw
New ulpcMinQualIAw
New ulpcMinWaitForPc
New ulpcRefPwrIAw
ulpcIniPrePwr
New ulpcPucchConfig
Moved ulpcLowlevCch
Moved ulpcLowqualCch
ulpcUplevCch
Moved ulpcUpqualCch
New ulpcPuschConfig
Moved ulpcLowlevSch
Moved ulpcLowqualSch
ulpcUplevSch
ulpcUpqualSch
ulpcRarespTpc
Changed ulpcReadPeriod
ulsFdPrbAssignAlg
ulsMaxPacketAgg
ulsMinRbPerUe
ulsMinTbs
New ulsPuschMask
New ulsPuschMaskLength
New ulsPuschMaskStart
Changed ulsSchedMethod
New uplinkPCCommonr10
New deltaFPucchF1bCSr10
New deltaFPucchF3r10
upperMarginCIO
Changed useId
cellIndOff
freqEutra
lnHeNBId
pciFirst
pciLast
arfcnValueListGERAN
Changed b2Threshold1GERAN
Changed b2Threshold2RssiGERAN
Changed b2TimeToTriggerGERANMeas
bandIndicatorGERAN
hysB2ThresholdGERAN
Changed lnHoGId
nccperm
Changed reportIntervalGERAN
New b2Threshold1Hrpd
New b2Threshold2PstrHrpd
New b2TimeToTriggerHrpdMeas
New hrpdCarrierFreq
New hrpdArfcn
New hrpdBandClass
New hrpdMeasLoadBalFactor
New hrpdPreRegAllowed
New hrpdSearchWindowSize
New hysB2ThresholdHrpd
New lnHohId
New offsetFreqHrpd
New reportIntervalHrpd
Changed a3OffsetRsrpInterFreq
Changed a3OffsetRsrqInterFreq
Changed a3ReportIntervalRsrpInterFreq
Changed a3ReportIntervalRsrqInterFreq
Changed a3TimeToTriggerRsrpInterFreq
Changed a3TimeToTriggerRsrqInterFreq
Changed a5ReportIntervalInterFreq
Changed a5TimeToTriggerInterFreq
Changed eutraCarrierInfo
Changed hysA3OffsetRsrpInterFreq
Changed hysA3OffsetRsrqInterFreq
Changed hysThreshold3InterFreq
interPresAntP
lnHoIfId
Changed measQuantInterFreq
measurementBandwidth
offsetFreqInter
Changed threshold3InterFreq
Changed threshold3aInterFreq
thresholdRsrpIFLBFilter
Changed thresholdRsrqIFLBFilter
Changed b1ThresholdCSFBUtraEcn0
Changed b1ThresholdCSFBUtraRscp
b1TimeToTriggerCSFBUtraMeas
Changed b2Threshold1Utra
Changed b2Threshold2UtraEcn0
Changed b2Threshold2UtraRscp
Changed b2TimeToTriggerUtraMeas
Changed hysB1ThresholdCSFBUtra
Changed hysB2ThresholdUtra
lnHoWId
maxNumCsfbTargets
offsetFreqUtra
Changed reportIntervalUtra
utraCarrierFreq
New lnhoxId
New rttCarrierFreq
New rttArfcn
New rttBandClass
New rttMaxNumCsfbTargets
New rttSearchWindowSize
New rttStrengthThresh
accMmePlmnsList
mcc
mnc
mncLength
New administrativeState
Changed ipAddrPrim
Changed ipAddrSec
lnMmeId
mmeName
relMmeCap
s1LinkStatus
transportNwId
New hrpdArfcn
New hrpdBandClass
New hrpdPnOffset
New hrpdSectorID
New lnNeiHId
New psHoAllowed
cellIndOffNeigh
cellIndOffNeighDelta
ecgiAdjEnbId
ecgiLcrId
ecgiPlmnId
mcc
mnc
mncLength
handoverAllowed
lnRelId
nrControl
nrStatus
ci
eNACCAllowed
lac
Changed lnRelGId
nrControl
plmnId
mcc
mnc
mncLength
redirWithSysInfoAllowed
srvccAllowed
csfbPsHoAllowed
Changed lnRelWId
nrControl
plmnId
mcc
mnc
mncLength
psHoAllowed
srvccAllowed
Changed uTargetCid
Changed uTargetRncId
New arfcn
New bandClass
New cellId
New e1xCsfbAllowed
New lnrelxId
New marketId
New pnOffset
New sectorId
New swNo
ltacId
tacLimitGbrEmergency
tacLimitGbrHandover
tacLimitGbrNormal
transportNwId
New addFreqBandInd
New addSpectrEmissReq
New eutraCarrierFreq
New mfbiPrId
active
aisgProtocol
alarmThresholdLevel
antBandList
Changed antBeamwidth
antOperFreqBand
Changed antOperGain
antBearing
Changed antModel
Changed antSerial
Changed antlId
Changed baseStationID
connection
gainResolution
Changed installDate
Changed installerID
lnaNumber
maxGain
mhaAlarmDetection
mhaGain
mhaId
mhaType
minGain
prodCode
releaseId3Gpp
Changed scannedAntennaInterface
Changed sectorID
serNum
substance
tmaSubunitRxFreqBandMax
tmaSubunitRxFreqBandMin
tmaSubunitTxFreqBandMax
tmaSubunitTxFreqBandMin
tmaSubunitType
wmhConnector
Changed cdmaHrpdBdClL
cdmaHrpdBdCl
New idleLBHrpdCelResWeight
Changed cdmaRttBdClL
cdmaRttBdCl
New idleLBRttCelResWeight
Changed dlCarFrqEutL
Changed dlCarFrqEut
New idleLBEutCelResWeight
Changed geranCarFrqBd
geranBandInd
New idleLBGeranCelResWeight
Changed geranCarFrqIdleModeL
modimpId
Changed utrFddCarFrqL
New idleLBUtraFddCelResWeight
utrFddCarFrq
autoAdapt
freqLayListCsfbHighWcdma
freqLayListCsfbNormWcdma
freqLayListLte
freqLayListPsHoWcdma
freqLayListSrvccWcdma
idleLBPercentageOfUes
moDPrId
Changed refFreqListNaccGeran
bandIndicator
referenceARFCN
Changed refFreqListSrvccGsm
bandIndicator
referenceARFCN
addGsmSIToRedirMsg
Changed csFallBPrio
Changed emerCallPrio
moDRedId
Changed redirBandCdma
Changed redirFreqCdma
Changed redirFreqEutra
Changed redirFreqUtra
redirGeranArfcnValueL
Changed redirGeranBandIndicator
Changed redirRAT
Changed redirectPrio
Changed cdmaHrpdBdClL
cdmaHrpdBdCl
New idleLBHrpdCelResWeight
Changed cdmaRttBdClL
cdmaRttBdCl
New idleLBRttCelResWeight
Changed dlCarFrqEutL
dlCarFrqEut
New idleLBEutCelResWeight
Changed geranCarFrqBd
geranBandInd
New idleLBGeranCelResWeight
Changed geranCarFrqIdleModeL
moimpId
Changed utrFddCarFrqL
New idleLBUtraFddCelResWeight
utrFddCarFrq
freqLayListCsfbHighWcdma
freqLayListCsfbNormWcdma
freqLayListLte
freqLayListPsHoWcdma
freqLayListSrvccWcdma
idleLBPercentageOfUes
moPrId
Changed refFreqListNaccGeran
bandIndicator
referenceARFCN
Changed refFreqListSrvccGsm
bandIndicator
referenceARFCN
addGsmSIToRedirMsg
Changed csFallBPrio
Changed emerCallPrio
moRedId
Changed redirBandCdma
Changed redirFreqCdma
Changed redirFreqEutra
Changed redirFreqUtra
redirGeranArfcnValueL
Changed redirGeranBandIndicator
Changed redirRAT
Changed redirectPrio
actEthernetSec
altitude
autoConHWId
autoConSiteId
autoConfBlocked
New cmSyncCheck
New cmSyncCheckPeriod
commissioningRequired
New configDataRevisionNumber
latitude
longitude
mrbtsId
passUnitList
comment
name
Changed prodCode
Changed serNum
version
resetToTestDedicated
sharedRfTechnologies
symptomDataTriggerL
timeZone
unitList
primaryConnection
prodCode
secondaryConnection
unitName
unitNumber
Changed variant
cellId
cellMaxActiveUEsTraced
cellTrcMode
cellVendorSpecTracing
cellTaTracing
eutranTraceId
eutranTraceIdMcc
eutranTraceIdMnc
eutranTraceIdMncLen
traceId
trcRecSessionRef
mTraceId
tceCellTracePortNum
tceIpAddress
traceRrcMsgCategory
traceRrcNonUeSpecMsgList
traceRrcSetting
traceRrcUeSpecMsgList
traceS1MsgCategory
traceS1NonUeSpecMsgList
traceS1Setting
traceS1UeSpecMsgList
traceX2MsgCategory
traceX2NonUeSpecMsgList
traceX2Setting
traceX2UeSpecMsgList
assocId
ccmTxPeriod
maName
vlanEnabled
vlanId
domainId
mdLevel
Changed mdName
Changed aisEnabled
enableCcm
Changed ethernetPort
oammepId
remoteMepList
Changed macAddr
mepId
vlanPrio
activeMode
alarmClearanceDelay
efEventThreshold
efEventWindow
Changed efpEventThreshold
efpEventWindow
efssEventThreshold
efssEventWindow
Changed eventRepetition
eventSupport
Changed linkOAMProfileName
loopBackTime
New loopbackSupported
profileId
testFrameRate
testFrameSize
pmCAdmId
reportingIntervalPm
mtCellAvailability
mtCellLoad
mtCellRes
mtCellThruput
mtEPSBearer
mtInterSysHo
New mtInterSysHoEhrpdBc
mtInterSysHoGsmNb
mtInterSysHoUtranNb
mtIntereNBHo
mtIntraeNBHo
mtLTEHo
mtPowQualDL
mtPowQualUL
New mtQoS
mtRRC
mtRadBearer
mtS1AP
mtTranspLoad
mtUEandServiceDiff
mtUEstate
mtX2AP
mteNBload
mtintraLTEHoNb
pmRnlId
Changed lte_ETHIF_Stats_Interval
Changed lte_Ethernet_Link_Interval
Changed lte_IPSec_Interval
Changed lte_IP_Filtering_Interval
Changed lte_IP_Stats_Interval
lte_L2SWI_Stats_Interval
Changed lte_PHB_Stats_Interval
Changed lte_TAC_Statistics_Interval
Changed lte_TOP_FreqSync_Stats_Interval
New
lte_TWAMP_Stats_Interval
lte_VLAN_IP_Stats_Interval
lte_VLAN_PHB_Stats_Interval
lte_VLAN_Stats_Interval
lte_TOP_PhaseSync_Stats_Interval
pmTnlId
Changed administrativeState
pdhLbo
pdhLineType
pdhPSTTPId
dscpMap
dscp
pHB
vlanPrio
enablePhbCounters
perHopBehaviourWeightList
assuredForwardingClass1
assuredForwardingClass2
assuredForwardingClass3
assuredForwardingClass4
bestEffort
qosId
sseDscpOverwrite
Changed trafficTypesMap
dscp
Changed trafficType
addGsmSIToRedirMsg
Changed csFallBPrio
Changed emerCallPrio
Changed redirBandCdma
Changed redirFreqCdma
Changed redirFreqEutra
Changed redirFreqUtra
Changed redirGeranArfcnValueL
Changed redirGeranBandIndicator
Changed redirRat
Changed redirectPrio
Changed redrtId
active
angle
antBandList
Changed antBeamwidth
antOperFreqBand
Changed antOperGain
antBearing
antHeight
antLocation
Changed antModel
Changed antSerial
antTechnology
antType
Changed antlIdList
Changed baseStationID
calibrate
calibrationDone
configFileDlNeeded
configurationDone
configurationFile
connection
hwVersion
Changed installDate
Changed installerID
manufacturer
maxAngle
mechanicalAngle
minAngle
prodCode
releaseId3Gpp
New retAntUnitNumber
New retDeviceType
retId
Changed scannedAntennaInterface
Changed sectorID
serNum
swVersion
Changed climateControlProfiling
connectionList
linkId
positionInChain
sModId
Changed extAlList
cancelDelay
descr
id
polarity
severity
startDelay
usedInEutra
extCtrlList
descr
id
inUse
initState
linkSpeed
Changed moduleLocation
prodCode
Changed rModId
serNum
assocMaxRetrans
maxTimeSctpSetup
pathMaxRetrans
rtoMax
rtoMin
sctpHeartbeatInterval
sctpId
Changed climateControlProfiling
Changed extAlList
cancelDelay
descr
id
inUse
polarity
severity
startDelay
Changed extCtrlList
descr
id
inUse
initState
Changed linkList
Changed linkId
linkSpeed
radioMaster
Changed moduleLocation
prodCode
sModId
serNum
Changed syncMaster
technology
synchroSourceList
clockProtocol
interfaceNumber
priority
ssmEnabled
ssmTimeout
unitNumber
timingGenPgId
syncId
Changed tacId
topbId
Changed actTopFreqSynch
logMeanSyncValue
Changed masterIpAddr
topId
New acceptedClockQuality
New actTopPhaseSynch
New logMeanSyncValue
New phaseErrorComp
New topComMode
New topDomainNumber
New topEthMulticastAddress
New topMasters
New masterIpAddr
New toppId
Changed administrativeState
Changed destIpAddress
destPort
dscp
Changed messageSize
plrAlarmThreshold
Changed rttAlarmThreshold
Changed sourceIpAddress
twampId
Changed tResUtra
tResUtraSF
Changed utrResTiFHM
Changed utrResTiFMM
uffimId
Changed utrFddCarFrqL
dlCarFrqUtra
New idleLBUtranFddCelResWeight
pMaxUtra
Changed qQualMinUtra
Changed qRxLevMinUtra
uCelResPrio
utraFrqQThrHighR9
utraFrqQThrLowR9
Changed utraFrqThrH
Changed utraFrqThrL
New ulCoMpCellList
New ulCoMpId
New ulCoMpSinrThreshold
Changed enableRP301Interface
unitId
Changed unitTypeActual
Changed unitTypeExpected
New auth
New authIncluded
New bandClass
New dayLt
New dayLtIncluded
New fpcFchInitSetptRC11
New fpcFchInitSetptRC12
New fpcFchInitSetptRC3
New fpcFchInitSetptRC4
New fpcFchInitSetptRC5
New gcsnaL2AckTimer
New gcsnaSequenceContextTimer
New homeRegIncluded
New imsi11and12
New imsiTSupported
New lpSec
New lpSecIncluded
New ltmOff
New ltmOffIncluded
New maxNumAltSo
New mcc
New minPRev
New pRev
New pilotInc
New pilotIncIncluded
New prefMSIDType
New xparamId
Removed idleLBHrpdCelResPrio
Removed idleLBRttCelResPrio
Removed idleLBGeranCelResPrio
Removed ethIfNetId
Removed linkOAMLoopbackSupport
Removed localNetmask
Removed pfsDiffHellGrp
Removed remoteNetmask
Removed idleLBEutCelResPrio
Removed emAreaId
Removed idleLBCellReSelPrio
Removed ulpcEnable
Removed ulpcPucchEn
Removed ulpcPuschEn
Removed ulpcSrsEn
Removed qci2AvPacketSize
Removed qci3AvPacketSize
Removed qci4AvPacketSize
Removed tacActivityFactor
Removed tacExludeL2Overhead
Removed idleLBHrpdCelResPrio
Removed idleLBRttCelResPrio
Removed idleLBEutCelResPrio
Removed idleLBGeranCelResPrio
Removed idleLBUtraFddCelResPrio
Removed idleLBHrpdCelResPrio
Removed idleLBRttCelResPrio
Removed idleLBEutCelResPrio
Removed idleLBGeranCelResPrio
Removed idleLBUtraFddCelResPrio
Removed usedInGeran
Removed idleLBUtranFddCelResPrio
MO Class Parent Structure
AMGR
AMGR
AMGR
AMGR
ANRPRL
ANRPRL
ANRPRL
ANRPRL
ANRPRL
ANRPRL
ANRPRL
ANRPRL
ANRPRW
ANRPRW
ANRPRW
ANRPRW
ANRPRW lnRelWDefaults
ANRPRW lnRelWDefaults
ANRPRW lnRelWDefaults
ANRPRW
ANRPRW
ANRPRW pscBlacklist
ANRPRW pscBlacklist
ANRPRW
ANRPRW rncIdCoding
ANRPRW rncIdCoding
ANRPRW
ANRPRW
ANTL
ANTL
ANTL
ANTL
ANTL
ANTL
ANTL
ANTL
ANTL
ANTL
ANTL
ANTL
ANTL
BFD
BFD
BFD
BFD
BFD
BFD
BFD
BFD
BFD
BFD
BFD
BFDGRP
BTSSCL
BTSSCL alToggSuppList
BTSSCL alToggSuppList
BTSSCL alToggSuppList
BTSSCL alToggSuppList
BTSSCL alToggSuppList
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
BTSSCL
CAREL
CAREL
CAREL
CAREL
CDFIM
CDFIM
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM csfbRegParam1xRtt
CDFIM
CDFIM hoRegParamHrpd
CDFIM hoRegParamHrpd
CDFIM hoRegParamHrpd
CDFIM hoRegParamHrpd
CDFIM
CDFIM hrpdBdClList
CDFIM hrpdBdClList
CDFIM hrpdBdClList
CDFIM hrpdBdClList
CDFIM hrpdBdClList
CDFIM
CDFIM hrpdNCList
CDFIM hrpdNCList
CDFIM hrpdNCList
CDFIM hrpdNCList
CDFIM
CDFIM rttBdClList
CDFIM rttBdClList
CDFIM rttBdClList
CDFIM rttBdClList
CDFIM rttBdClList
CDFIM
CDFIM rttNCList
CDFIM rttNCList
CDFIM rttNCList
CDFIM rttNCList
CDFIM
CDFIM
CDFIM
CDFIM tResHrpdSF
CDFIM tResHrpdSF
CDFIM
CDFIM
CDFIM tResRttSF
CDFIM tResRttSF
CERTH
CERTH BTSOperatorCertificate
CERTH BTSOperatorCertificate
CERTH BTSOperatorCertificate
CERTH BTSOperatorCertificate
CERTH BTSOperatorCertificate
CERTH BTSOperatorCertificate
CERTH BTSOperatorCertificate
CERTH
CERTH
CERTH CRLDistributionPoint
CERTH CRLDistributionPoint
CERTH
CERTH CRLInfo
CERTH CRLInfo
CERTH CRLInfo
CERTH CRLInfo
CERTH CRLInfo
CERTH CRLInfo
CERTH CRLInfo
CERTH CRLInfo
CERTH
CERTH
CERTH
CERTH
CERTH
CERTH
CERTH
CERTH
CERTH
CRGPR
CRGPR
CRGPR
CRGPR
CRGPR plmnGroupList
CRGPR plmnGroupList
CRGPR plmnGroupList
CRGPR plmnGroupList
CRGPR
CRGPR plmnGroupShareList
CRGPR plmnGroupShareList
CTRLTS
CTRLTS
CTRLTS extTraceReporting
CTRLTS extTraceReporting
CTRLTS
CTRLTS
CTRLTS
CTRLTS
CTRLTS
CTRLTS traceRepMode
CTRLTS traceRepMode
CTRLTS
CTRLTS
CTRLTS vendorSpecTracing
ETHLK
ETHLK
ETHLK
ETHLK
ETHLK
ETHLK
ETHLK
ETHLK l2VlanIdList
ETHLK l2VlanIdList
ETHLK
ETHLK
ETHLK
ETHLK
ETHLK
ETHLK
FTM
FTM
FTM
FTM
FTM
GFIM
GFIM
GFIM
GFIM tResGerSF
GFIM tResGerSF
GNFL
GNFL
GNFL
GNFL
GNFL
GNFL
GNFL
GNFL
GNFL
GNFL
GTPU
GTPU
GTPU
GTPU
GTPU
GTPU sgwIpAddressList
GTPU sgwIpAddressList
IAFIM
IAFIM
IAFIM intrFrBCList
IAFIM intrFrBCList
IAFIM
IAFIM intrFrNCList
IAFIM intrFrNCList
IDNS
IDNS
IDNS
IEIF
IEIF
IEIF
IEIF
IEIF
IEIF
IEIF
IEIF
IEIF
IEIF
IEIF
IEIF
IEIF
IEIF
IHCP
IHCP client_identifier
IHCP client_identifier
IHCP
IHCP
IHCP hardware_identifier
IHCP hardware_identifier
IHCP
IHCP range_identifier
IHCP range_identifier
INTP
INTP
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO addTransportNwIpAddrList
IPNO addTransportNwIpAddrList
IPNO addTransportNwIpAddrList
IPNO addTransportNwIpAddrList
IPNO addTransportNwIpAddrList
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO
IPNO twampFlag
IPNO twampFlag
IPNO twampFlag
IPNO
IPNO
IPNO
IPNO
IPNO
IPRM
IPRM RmExceptions
IPRM RmExceptions
IPRM RmExceptions
IPRM RmExceptions
IPRM
IPRT
IPRT
IPRT staticRoutes
IPRT staticRoutes
IPRT staticRoutes
IPRT staticRoutes
IPRT staticRoutes
IPRTV6
IPRTV6
IPRTV6 staticIpv6Routes
IPRTV6 staticIpv6Routes
IPRTV6 staticIpv6Routes
IPRTV6 staticIpv6Routes
IPRTV6 staticIpv6Routes
IPSECC
IPSECC
IPSECC
IPSECC
IPSECC
IPSECC
IPSECC
IPSECC
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IRFIM
IRFIM
IRFIM
IRFIM
IRFIM intFrBCList
IRFIM intFrBCList
IRFIM
IRFIM intFrNCList
IRFIM intFrNCList
IRFIM
IRFIM interFrqQThrR9
IRFIM interFrqQThrR9
IRFIM
IRFIM
IRFIM
IRFIM
IRFIM
IRFIM
IRFIM
IRFIM
IRFIM
IRFIM
IRFIM
IRFIM tResEutSF
IRFIM tResEutSF
IVIF
IVIF
IVIF
IVIF
IVIF
IVIF
IVIF
IVIF
IVIF
IVIF
L2SWI
L2SWI dscpMap
L2SWI dscpMap
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
L2SWI
LCELL
LCELL
LCELL
LCELL resourceList
LCELL resourceList
LCELL resourceList
LCELL
LNADJ
LNADJ
LNADJ
LNADJ
LNADJ guGroupIdList
LNADJ guGroupIdList
LNADJ guGroupIdList
LNADJ guGroupIdList
LNADJ
LNADJ
LNADJ plmnId
LNADJ plmnId
LNADJ plmnId
LNADJ
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJG
LNADJL
LNADJL bcPlmnIdList
LNADJL bcPlmnIdList
LNADJL bcPlmnIdList
LNADJL
LNADJL
LNADJL
LNADJL
LNADJL
LNADJL
LNADJL ecgiPlmnId
LNADJL ecgiPlmnId
LNADJL ecgiPlmnId
LNADJL
LNADJL
LNADJL
LNADJL
LNADJL
LNADJL
LNADJL
LNADJL
LNADJL
LNADJL
LNADJW
LNADJW
LNADJW primaryPlmnId
LNADJW primaryPlmnId
LNADJW primaryPlmnId
LNADJW
LNADJW secondaryPlmnIdL
LNADJW secondaryPlmnIdL
LNADJW secondaryPlmnIdL
LNADJW
LNADJW
LNADJW
LNADJW
LNADJW
LNADJW
LNADJW
LNADJW
LNADJX
LNADJX
LNADJX
LNADJX
LNADJX
LNADJX
LNADJX
LNADJX
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS amRlcPBTab1
LNBTS amRlcPBTab1
LNBTS amRlcPBTab1
LNBTS
LNBTS amRlcPBTab2
LNBTS amRlcPBTab2
LNBTS amRlcPBTab2
LNBTS
LNBTS amRlcPBTab3
LNBTS amRlcPBTab3
LNBTS amRlcPBTab3
LNBTS
LNBTS amRlcPBTab4
LNBTS amRlcPBTab4
LNBTS amRlcPBTab4
LNBTS
LNBTS amRlcPBTab5
LNBTS amRlcPBTab5
LNBTS amRlcPBTab5
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS blacklistedGsmPlmnsForRim
LNBTS blacklistedGsmPlmnsForRim
LNBTS blacklistedGsmPlmnsForRim
LNBTS
LNBTS
LNBTS
LNBTS cipherPrefL
LNBTS cipherPrefL
LNBTS cipherPrefL
LNBTS cipherPrefL
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS glbNbEnbIdX2LinkBlacklist
LNBTS glbNbEnbIdX2LinkBlacklist
LNBTS glbNbEnbIdX2LinkBlacklist
LNBTS glbNbEnbIdX2LinkBlacklist
LNBTS
LNBTS hpsSessConfig
LNBTS hpsSessConfig
LNBTS
LNBTS imsEmerPlmnConfig
LNBTS imsEmerPlmnConfig
LNBTS imsEmerPlmnConfig
LNBTS imsEmerPlmnConfig
LNBTS imsEmerPlmnConfig
LNBTS imsEmerPlmnConfig
LNBTS imsEmerPlmnConfig
LNBTS
LNBTS integrityPrefL
LNBTS integrityPrefL
LNBTS integrityPrefL
LNBTS integrityPrefL
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS ovlha
LNBTS ovlha
LNBTS
LNBTS
LNBTS pciIpAdrMap
LNBTS pciIpAdrMap
LNBTS pciIpAdrMap
LNBTS pciIpAdrMap
LNBTS pciIpAdrMap
LNBTS pciIpAdrMap
LNBTS pciIpAdrMap
LNBTS
LNBTS pdcpProf1
LNBTS pdcpProf1
LNBTS pdcpProf1
LNBTS
LNBTS pdcpProf101
LNBTS pdcpProf101
LNBTS pdcpProf101
LNBTS pdcpProf101
LNBTS
LNBTS pdcpProf102
LNBTS pdcpProf102
LNBTS pdcpProf102
LNBTS
LNBTS pdcpProf103
LNBTS pdcpProf103
LNBTS pdcpProf103
LNBTS
LNBTS pdcpProf104
LNBTS pdcpProf104
LNBTS pdcpProf104
LNBTS
LNBTS pdcpProf2
LNBTS pdcpProf2
LNBTS pdcpProf2
LNBTS
LNBTS pdcpProf3
LNBTS pdcpProf3
LNBTS pdcpProf3
LNBTS
LNBTS pdcpProf4
LNBTS pdcpProf4
LNBTS pdcpProf4
LNBTS
LNBTS pdcpProf5
LNBTS pdcpProf5
LNBTS pdcpProf5
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS qciTab1
LNBTS
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS qciTab2
LNBTS
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS qciTab3
LNBTS
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS qciTab4
LNBTS
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS qciTab5
LNBTS
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS qciTab6
LNBTS
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS qciTab7
LNBTS
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS qciTab8
LNBTS
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS qciTab9
LNBTS
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS qciTabOperator
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS rlcProf1
LNBTS rlcProf1
LNBTS rlcProf1
LNBTS rlcProf1
LNBTS rlcProf1
LNBTS
LNBTS rlcProf101
LNBTS rlcProf101
LNBTS rlcProf101
LNBTS rlcProf101
LNBTS
LNBTS rlcProf102
LNBTS rlcProf102
LNBTS rlcProf102
LNBTS rlcProf102
LNBTS
LNBTS rlcProf103
LNBTS rlcProf103
LNBTS rlcProf103
LNBTS rlcProf103
LNBTS
LNBTS rlcProf104
LNBTS rlcProf104
LNBTS rlcProf104
LNBTS rlcProf104
LNBTS
LNBTS rlcProf2
LNBTS rlcProf2
LNBTS rlcProf2
LNBTS rlcProf2
LNBTS rlcProf2
LNBTS
LNBTS rlcProf3
LNBTS rlcProf3
LNBTS rlcProf3
LNBTS rlcProf3
LNBTS rlcProf3
LNBTS
LNBTS rlcProf4
LNBTS rlcProf4
LNBTS rlcProf4
LNBTS rlcProf4
LNBTS rlcProf4
LNBTS
LNBTS rlcProf5
LNBTS rlcProf5
LNBTS rlcProf5
LNBTS rlcProf5
LNBTS rlcProf5
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS systemInformationListWCDMA
LNBTS systemInformationListWCDMA
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNBTS
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL acBarCsfbOc
LNCEL acBarCsfbOc
LNCEL acBarCsfbOc
LNCEL
LNCEL acBarMMTelVideoOc
LNCEL acBarMMTelVideoOc
LNCEL acBarMMTelVideoOc
LNCEL
LNCEL acBarMMTelVoiceOc
LNCEL acBarMMTelVoiceOc
LNCEL acBarMMTelVoiceOc
LNCEL
LNCEL acBarOc
LNCEL acBarOc
LNCEL acBarOc
LNCEL
LNCEL acBarSig
LNCEL acBarSig
LNCEL acBarSig
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL blacklistHoL
LNCEL blacklistHoL
LNCEL blacklistHoL
LNCEL blacklistHoL
LNCEL
LNCEL
LNCEL c2KTimers
LNCEL c2KTimers
LNCEL c2KTimers
LNCEL c2KTimers
LNCEL
LNCEL celResTiF
LNCEL celResTiF
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL cellSelectionInfoV920
LNCEL cellSelectionInfoV920
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL dFListPucch
LNCEL dFListPucch
LNCEL dFListPucch
LNCEL dFListPucch
LNCEL dFListPucch
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL drxProfile1
LNCEL drxProfile1
LNCEL
LNCEL drxProfile101
LNCEL drxProfile101
LNCEL drxProfile101
LNCEL drxProfile101
LNCEL drxProfile101
LNCEL drxProfile101
LNCEL
LNCEL drxProfile102
LNCEL drxProfile102
LNCEL drxProfile102
LNCEL drxProfile102
LNCEL drxProfile102
LNCEL drxProfile102
LNCEL
LNCEL drxProfile103
LNCEL drxProfile103
LNCEL drxProfile103
LNCEL drxProfile103
LNCEL drxProfile103
LNCEL drxProfile103
LNCEL
LNCEL drxProfile2
LNCEL drxProfile2
LNCEL drxProfile2
LNCEL drxProfile2
LNCEL drxProfile2
LNCEL drxProfile2
LNCEL
LNCEL drxProfile3
LNCEL drxProfile3
LNCEL drxProfile3
LNCEL drxProfile3
LNCEL drxProfile3
LNCEL drxProfile3
LNCEL
LNCEL drxProfile4
LNCEL drxProfile4
LNCEL drxProfile4
LNCEL drxProfile4
LNCEL drxProfile4
LNCEL drxProfile4
LNCEL
LNCEL drxProfile5
LNCEL drxProfile5
LNCEL drxProfile5
LNCEL drxProfile5
LNCEL drxProfile5
LNCEL drxProfile5
LNCEL
LNCEL drxSmartProfile2
LNCEL drxSmartProfile2
LNCEL drxSmartProfile2
LNCEL drxSmartProfile2
LNCEL drxSmartProfile2
LNCEL drxSmartProfile2
LNCEL drxSmartProfile2
LNCEL drxSmartProfile2
LNCEL drxSmartProfile2
LNCEL
LNCEL drxSmartProfile3
LNCEL drxSmartProfile3
LNCEL drxSmartProfile3
LNCEL drxSmartProfile3
LNCEL drxSmartProfile3
LNCEL drxSmartProfile3
LNCEL drxSmartProfile3
LNCEL drxSmartProfile3
LNCEL drxSmartProfile3
LNCEL
LNCEL drxSmartProfile4
LNCEL drxSmartProfile4
LNCEL drxSmartProfile4
LNCEL drxSmartProfile4
LNCEL drxSmartProfile4
LNCEL drxSmartProfile4
LNCEL drxSmartProfile4
LNCEL drxSmartProfile4
LNCEL drxSmartProfile4
LNCEL
LNCEL drxSmartProfile5
LNCEL drxSmartProfile5
LNCEL drxSmartProfile5
LNCEL drxSmartProfile5
LNCEL drxSmartProfile5
LNCEL drxSmartProfile5
LNCEL drxSmartProfile5
LNCEL drxSmartProfile5
LNCEL drxSmartProfile5
LNCEL
LNCEL
LNCEL eHrpdSectList
LNCEL eHrpdSectList
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL eutranAccessPointPosition
LNCEL eutranAccessPointPosition
LNCEL eutranAccessPointPosition
LNCEL eutranAccessPointPosition
LNCEL eutranAccessPointPosition
LNCEL eutranAccessPointPosition
LNCEL eutranAccessPointPosition
LNCEL eutranAccessPointPosition
LNCEL eutranAccessPointPosition
LNCEL eutranAccessPointPosition
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL furtherPlmnIdL
LNCEL furtherPlmnIdL
LNCEL furtherPlmnIdL
LNCEL furtherPlmnIdL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL hrpdTimers
LNCEL hrpdTimers
LNCEL hrpdTimers
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL iFLBLoadThresholds
LNCEL iFLBLoadThresholds
LNCEL iFLBLoadThresholds
LNCEL iFLBLoadThresholds
LNCEL iFLBLoadThresholds
LNCEL iFLBLoadThresholds
LNCEL iFLBLoadThresholds
LNCEL iFLBLoadThresholds
LNCEL iFLBLoadThresholds
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL mimoClConfig
LNCEL mimoClConfig
LNCEL mimoClConfig
LNCEL mimoClConfig
LNCEL
LNCEL mimoOlConfig
LNCEL mimoOlConfig
LNCEL mimoOlConfig
LNCEL mimoOlConfig
LNCEL
LNCEL
LNCEL
LNCEL moPrMappingList
LNCEL moPrMappingList
LNCEL moPrMappingList
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL periodicUeMeas
LNCEL periodicUeMeas
LNCEL periodicUeMeas
LNCEL periodicUeMeas
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL prsMuting
LNCEL prsMuting
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL redBwRbUlConfig
LNCEL redBwRbUlConfig
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL rsrqMobilityParams
LNCEL rsrqMobilityParams
LNCEL rsrqMobilityParams
LNCEL rsrqMobilityParams
LNCEL rsrqMobilityParams
LNCEL
LNCEL rsrqRedirectParams
LNCEL rsrqRedirectParams
LNCEL rsrqRedirectParams
LNCEL
LNCEL
LNCEL
LNCEL rttPreregRefCellId
LNCEL rttPreregRefCellId
LNCEL rttPreregRefCellId
LNCEL rttPreregRefCellId
LNCEL
LNCEL sIntraSearchV920
LNCEL sIntraSearchV920
LNCEL
LNCEL
LNCEL sNonIntraSearchV920
LNCEL sNonIntraSearchV920
LNCEL
LNCEL
LNCEL
LNCEL sib2Scheduling
LNCEL sib2Scheduling
LNCEL sib2Scheduling
LNCEL
LNCEL sib3Scheduling
LNCEL sib3Scheduling
LNCEL sib3Scheduling
LNCEL
LNCEL sibSchedulingList
LNCEL sibSchedulingList
LNCEL sibSchedulingList
LNCEL
LNCEL spStResPars
LNCEL spStResPars
LNCEL spStResPars
LNCEL spStResPars
LNCEL spStResPars
LNCEL spStResPars
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL ulpcIAwConfig
LNCEL ulpcIAwConfig
LNCEL ulpcIAwConfig
LNCEL ulpcIAwConfig
LNCEL ulpcIAwConfig
LNCEL
LNCEL
LNCEL ulpcPucchConfig
LNCEL ulpcPucchConfig
LNCEL ulpcPucchConfig
LNCEL ulpcPucchConfig
LNCEL
LNCEL ulpcPuschConfig
LNCEL ulpcPuschConfig
LNCEL ulpcPuschConfig
LNCEL ulpcPuschConfig
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL ulsPuschMask
LNCEL ulsPuschMask
LNCEL
LNCEL
LNCEL uplinkPCCommonr10
LNCEL uplinkPCCommonr10
LNCEL
LNCEL
LNHENB
LNHENB
LNHENB
LNHENB
LNHENB
LNHOG
LNHOG
LNHOG
LNHOG
LNHOG
LNHOG
LNHOG
LNHOG
LNHOG
LNHOH
LNHOH
LNHOH
LNHOH
LNHOH hrpdCarrierFreq
LNHOH hrpdCarrierFreq
LNHOH
LNHOH
LNHOH
LNHOH
LNHOH
LNHOH
LNHOH
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOIF
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOW
LNHOX
LNHOX
LNHOX rttCarrierFreq
LNHOX rttCarrierFreq
LNHOX
LNHOX
LNHOX
LNMME
LNMME accMmePlmnsList
LNMME accMmePlmnsList
LNMME accMmePlmnsList
LNMME
LNMME
LNMME
LNMME
LNMME
LNMME
LNMME
LNMME
LNNEIH
LNNEIH
LNNEIH
LNNEIH
LNNEIH
LNNEIH
LNREL
LNREL
LNREL
LNREL
LNREL
LNREL ecgiPlmnId
LNREL ecgiPlmnId
LNREL ecgiPlmnId
LNREL
LNREL
LNREL
LNREL
LNRELG
LNRELG
LNRELG
LNRELG
LNRELG
LNRELG
LNRELG plmnId
LNRELG plmnId
LNRELG plmnId
LNRELG
LNRELG
LNRELW
LNRELW
LNRELW
LNRELW
LNRELW plmnId
LNRELW plmnId
LNRELW plmnId
LNRELW
LNRELW
LNRELW
LNRELW
LNRELX
LNRELX
LNRELX
LNRELX
LNRELX
LNRELX
LNRELX
LNRELX
LNRELX
LTAC
LTAC
LTAC
LTAC
LTAC
MFBIPR
MFBIPR
MFBIPR
MFBIPR
MHA
MHA
MHA
MHA
MHA antBandList
MHA antBandList
MHA antBandList
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MHA
MODIMP
MODIMP cdmaHrpdBdClL
MODIMP cdmaHrpdBdClL
MODIMP
MODIMP cdmaRttBdClL
MODIMP cdmaRttBdClL
MODIMP
MODIMP dlCarFrqEutL
MODIMP dlCarFrqEutL
MODIMP
MODIMP geranCarFrqBd
MODIMP geranCarFrqBd
MODIMP
MODIMP
MODIMP
MODIMP utrFddCarFrqL
MODIMP utrFddCarFrqL
MODPR
MODPR
MODPR
MODPR
MODPR
MODPR
MODPR
MODPR
MODPR
MODPR refFreqListNaccGeran
MODPR refFreqListNaccGeran
MODPR
MODPR refFreqListSrvccGsm
MODPR refFreqListSrvccGsm
MODRED
MODRED
MODRED
MODRED
MODRED
MODRED
MODRED
MODRED
MODRED
MODRED
MODRED
MODRED
MOIMP
MOIMP cdmaHrpdBdClL
MOIMP cdmaHrpdBdClL
MOIMP
MOIMP cdmaRttBdClL
MOIMP cdmaRttBdClL
MOIMP
MOIMP dlCarFrqEutL
MOIMP dlCarFrqEutL
MOIMP
MOIMP geranCarFrqBd
MOIMP geranCarFrqBd
MOIMP
MOIMP
MOIMP
MOIMP utrFddCarFrqL
MOIMP utrFddCarFrqL
MOPR
MOPR
MOPR
MOPR
MOPR
MOPR
MOPR
MOPR
MOPR refFreqListNaccGeran
MOPR refFreqListNaccGeran
MOPR
MOPR refFreqListSrvccGsm
MOPR refFreqListSrvccGsm
MORED
MORED
MORED
MORED
MORED
MORED
MORED
MORED
MORED
MORED
MORED
MORED
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS passUnitList
MRBTS passUnitList
MRBTS passUnitList
MRBTS passUnitList
MRBTS passUnitList
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS
MRBTS unitList
MRBTS unitList
MRBTS unitList
MRBTS unitList
MRBTS unitList
MRBTS unitList
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE cellVendorSpecTracing
MTRACE
MTRACE eutranTraceId
MTRACE eutranTraceId
MTRACE eutranTraceId
MTRACE eutranTraceId
MTRACE eutranTraceId
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
MTRACE
OAMMA
OAMMA
OAMMA
OAMMA
OAMMA
OAMMD
OAMMD
OAMMD
OAMMEP
OAMMEP
OAMMEP
OAMMEP
OAMMEP
OAMMEP remoteMepList
OAMMEP remoteMepList
OAMMEP
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
OAMPRF
PMCADM
PMCADM
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMRNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PMTNL
PPTT
PPTT
PPTT
PPTT
QOS
QOS dscpMap
QOS dscpMap
QOS dscpMap
QOS
QOS
QOS perHopBehaviourWeightList
QOS perHopBehaviourWeightList
QOS perHopBehaviourWeightList
QOS perHopBehaviourWeightList
QOS perHopBehaviourWeightList
QOS
QOS
QOS
QOS trafficTypesMap
QOS trafficTypesMap
REDRT
REDRT
REDRT
REDRT
REDRT
REDRT
REDRT
REDRT
REDRT
REDRT
REDRT
REDRT
RET
RET
RET
RET antBandList
RET antBandList
RET antBandList
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RET
RMOD
RMOD
RMOD connectionList
RMOD connectionList
RMOD connectionList
RMOD
RMOD extAlList
RMOD extAlList
RMOD extAlList
RMOD extAlList
RMOD extAlList
RMOD extAlList
RMOD extAlList
RMOD
RMOD extCtrlList
RMOD extCtrlList
RMOD extCtrlList
RMOD extCtrlList
RMOD
RMOD
RMOD
RMOD
RMOD
SCTP
SCTP
SCTP
SCTP
SCTP
SCTP
SCTP
SMOD
SMOD
SMOD extAlList
SMOD extAlList
SMOD extAlList
SMOD extAlList
SMOD extAlList
SMOD extAlList
SMOD extAlList
SMOD
SMOD extCtrlList
SMOD extCtrlList
SMOD extCtrlList
SMOD extCtrlList
SMOD
SMOD linkList
SMOD linkList
SMOD linkList
SMOD
SMOD
SMOD
SMOD
SMOD
SMOD
STPG
STPG synchroSourceList
STPG synchroSourceList
STPG synchroSourceList
STPG synchroSourceList
STPG synchroSourceList
STPG synchroSourceList
STPG
SYNC
TAC
TOPB
TOPF
TOPF
TOPF
TOPF
TOPP
TOPP
TOPP
TOPP
TOPP
TOPP
TOPP
TOPP
TOPP topMasters
TOPP
TWAMP
TWAMP
TWAMP
TWAMP
TWAMP
TWAMP
TWAMP
TWAMP
TWAMP
UFFIM
UFFIM
UFFIM tResUtraSF
UFFIM tResUtraSF
UFFIM
UFFIM
UFFIM utrFddCarFrqL
UFFIM utrFddCarFrqL
UFFIM utrFddCarFrqL
UFFIM utrFddCarFrqL
UFFIM utrFddCarFrqL
UFFIM utrFddCarFrqL
UFFIM utrFddCarFrqL
UFFIM utrFddCarFrqL
UFFIM utrFddCarFrqL
UFFIM utrFddCarFrqL
ULCOMP
ULCOMP
ULCOMP
UNIT
UNIT
UNIT
UNIT
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
XPARAM
CDFIM hrpdBdClList
CDFIM rttBdClList
GNFL
IEIF
IPNO
IPSECC securityPolicies
IPSECC securityPolicies
IPSECC securityPolicies
IRFIM
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LNCEL
LTAC
LTAC
LTAC
LTAC
LTAC
MODIMP cdmaHrpdBdClL
MODIMP cdmaRttBdClL
MODIMP dlCarFrqEutL
MODIMP geranCarFrqBd
MODIMP utrFddCarFrqL
MOIMP cdmaHrpdBdClL
MOIMP cdmaRttBdClL
MOIMP dlCarFrqEutL
MOIMP geranCarFrqBd
MOIMP utrFddCarFrqL
RMOD extAlList
UFFIM utrFddCarFrqL
Child Parameters Full Name
Account manager identifier
LDAP Server TLS access mode
Activate also for UE-based ANR
ANR profile for LTE identifier
Port number of the primary LDAP server
IP address of the primary LDAP server
ANR power level threshold for neighbor cells
ANR power level threshold for mobility events
ANR quality threshold for neighbor cells
Neighbor relation limit inter-frequency
Target carrier frequency
ANR profile for WCDMA identifier
Cells to apply list
Enable ANR profile
LNRELW default values
PS handover allowed
List of blacklisted PSCs
Primary scrambling code
Neighbor relation limit intra-frequency
• csfbPsHoAllowed• psHoAllowed• srvccAllowed
Circuit-switched fallback with PS handover allowed
Single radio Voice call continuity allowed
Limit for ANR created UTRAN neighbor relations
• psc• pscLast
Coding of RNC ID within UTRAN CI
Alignment within UTRAN CI
RNC ID type
SRVCC HO indication
UTRAN carrier frequency
Additional antenna line Rx gain
AL DC voltage enabled
Antenna identifier
Antenna round trip delay
Antenna total loss
Antenna line configuration identifier
Last primary scrambling code of a range
• rncIdAlignment• rncIdType
Communication 3GPP enabled
Feeder voltage
Product code
Radio module reference id
VSWR major alarm
VSWR minor alarm
BFD session activation flag
BFD group reference
Uplink delay for the delay compensation
BFD session admin down state control
Destination IP address for the BFD session
BFD session lost packets detection time multiplier
BFD session identifier
UDP source port of the BFD session
BFD session type
Toggling alarm suppression list
Toggling alarm amount
Toggling clearance time
Toggling alarm condition time
BTS fault name
Source IP address for the BFD session
Desired minimum BFD control word transmit interval
Required minimum BFD control word receive interval
Bidirectional Forwarding Detection identifier
• alToggAmount• alToggClearenceTime• alToggConditonTime• faultName• inUse
BTS identifier
BTS name
Network synchronization mode
LTE BTS site identification
GPS cable length
GPS in use
GPS antenna line delay
Suppression of toggling alarms in use
PPS synchronization output in use in HO mode
External 2.048 MHz synchronization in use
External 2.048 MHz synchronization output in HO mode
GPS control interface blocked for co-located BTS
Rf sharing enabled
Forward synchronization in co-siting
Holdover mode in temperature control
Transmission synchronization (TDM/SyncE/ToP) in use
Carrier aggregation relation identifier
Sched Carrier Aggr fairness control factor
Disable PDCCH outer loop link adaptation in SCell
Local cell resource ID of cell to be aggregated
CDMA2000 frequency idle mode configuration identifier
• foreignNidReg• foreignSidReg• homeReg• multiNid• multiSid
CDMA2000 1xRTT CSFB registration parameters
CDMA2000 1xRTT NID roamer registration indicator
CDMA2000 1xRTT SID roamer registration indicator
CDMA2000 1xRTT registration zone
CDMA2000 1xRTT home registration indicator
CDMA2000 1xRTT multiple NID storage indicator
CDMA2000 1xRTT multiple SID storage indicator
CDMA2000 1xRTT network identification
CDMA2000 1xRTT parameter-change registration indicator
CDMA2000 1xRTT power-down registration indicator
CDMA2000 1xRTT power-up registration indicator
CDMA2000 1xRTT registration period
CDMA2000 1xRTT system identification
CDMA2000 1xRTT number of registration zones
CDMA2000 1xRTT zone timer length
HRPD pre-registration info
HRPD pre-registration allowed
HRPD pre-registration zone ID
CDMA2000 HRPD band class list
CDMA2000 HRPD band class
CDMA2000 HRPD neighbor cell list
• hrpdPreRegAllowed• hrpdPreRegZoneId• hrpdSecPreRegZoneId1• hrpdSecPreRegZoneId2
HRPD secondary pre-registration Zone ID1
HRPD secondary pre-registration Zone ID2
• hrpdBdClBcl• hrpdCResPrio• hrpdFrqThrH• hrpdFrqThrL• idleLBHrpdCelResWeight
CDMA2000 HRPD cell reselection priority
CDMA2000 HRPD reselection high threshold
CDMA2000 HRPD reselection low threshold
CDMA HRPD band weight factor idle mode load balancing
• hrpdArfcn• hrpdBdClNcl• hrpdCellId• hrpdExSel
CDMA2000 HRPD frequency
CDMA2000 HRPD band class
CDMA2000 1xRTT band class list
CDMA2000 1xRTT band class BCL
CDMA2000 1xRTT neighbor cell list
CDMA2000 1xRTT frequency
CDMA2000 HRPD physical cell identity
CDMA2000 HRPD NCL extension selector
• idleLBRttCelResWeight• rttBdClBcl• rttCResPrio• rttFrqThrH• rttFrqThrL CDMA 1xRTT band weight factor
idle mode load balancing
CDMA2000 1xRTT cell reselection priority
CDMA2000 1xRTT reselection high threshold
CDMA2000 1xRTT reselection low threshold
• rttArfcn• rttBdClNcl• rttCellId• rttExSel
CDMA search window size
CDMA2000 1xRTT band class (NCL)
CDMA2000 1xRTT physical cell identity
CDMA2000 1xRTT NCL extension selector
CDMA2000 HRPD cell reselection timer
• hrpResTiFHM• hrpResTiFMM
Speed dep scaling factors treselection HRPD
HRPD cell reselection timer factor high mobility
HRPD cell reselection timer factor med mobility
CDMA2000 1xRTT cell reselection timer
• rttResTiFHM• rttResTiFMM
Speed dep scaling factors treselection 1xRTT
1xRTT cell reselection timer factor high mobility
1xRTT cell reselection timer factor med mobility
BTS Operator Certificate
Certificate Fingerprint
Certificate Issued By
Certificate Issued To
Certificate Serial Number
Certificate Type
Certificate Valid From
Certificate Valid To
CRLDP Source
CRL distribution point
CRLDP primary
CRLDP Secondary
• certificateFingerprint• certificateIssuedBy• certificateIssuedTo• certificateSerialNumber• certificateType
• CRLDPPrimary• CRLDPSecondary
CRL Info
CRLDPType
CRL Distribution Point
CRL status of last download
CRLs nextUpdate
CRLs number of revoked certificates
CRL Update Failure Reason
CRL Usage Enabled
• CRLDPType• CRLDistributionPoint• CRLDownloadStatus• CRLIssuer• CRLNextUpdate
Issuer of the current certificate revocation list
Issue date of the current certificate revocation list
Update time for BTS certificate renewal
Update time for CA certificate renewal
CMP server subject name
CMP Directory
CMP server IP address
CMP server port number
Cell resource group profile identifier
Default PLMN group
PLMN group list
Mobile country code
Mobile network code
Certificate Handler configuration identifier
Certificate Revocation List update period
Cell resource group subframe skipping threshold
• mcc• mnc• mncLength• plmnGroupId
Mobile network code length
PLMN group identifier
Plmn group share list
PLMN group identifier
Cell resource group share
Trace control identifier
3rd party trace reporting
3rd party cell trace reporting
3rd party UE trace reporting
NetAct IP address
OMS trace port number
• plmnGroupId• plmnGroupShare
• extCellTraceRep• extUeTraceRep
Maximum UE trace sessions allowed
3rd party tool trace port number
Trace reporting mode
Cell trace reporting mode
UE trace reporting mode
• taTracing Vendor specific extension tracing
TA tracing
Switch port acceptable frame types
Ethernet link interface identifier
Layer 2 switch member burst size
• cellTraceRepMode• ueTraceRepMode
UE active trace sessions present flag
Administrative state of the ethernet link interface
Layer 2 switch member ingress limiting rate
Low value of VLAN identifier range
Link OAM enabling flag
Link OAM profile reference
MAC address
Port default VLAN priority
Speed and duplex configuration
Transport module identifier
Network element location name
Layer 2 switch member egress shaping rate
• highValue• lowValue
Layer 2 switch member VLAN identifier list
Upper value of VLAN identifier range
Default VLAN identifier for layer 2 switching
Software Release Version
Network element system name
GERAN cell reselection timer
GERAN frequency band indicator
ARFCN value list
Network element user defined description
GERAN frequency idle mode configuration identifier
• gerResTiFHM• gerResTiFMM
Speed-dependent scaling factors t-reselection GERAN
GERAN cell reselection timer factor high mobility
GERAN cell reselection timer factor medium mobility
GERAN RAT carrier frequency absolute priority
GERAN inter-frequency threshold high
NCC permitted bitmap
GTPU configuration identifier
GTP-U path supervision interval
SGW IP address list
Serving Gateway IPv4/v6 address
GERAN inter-frequency threshold low
GERAN neighbour frequency configuration identifier
GERAN carrier weight factor idle mode load balancing
GERAN maximum allowed transmit power
GERAN minimum required receive level
Maximum number of unanswered N3 requests
T3 maximum waiting time for GTP-U responses
• sgwIpAddress• transportNwId
Transport network identifier
Intra-frequency blacklisted cell list
Lowest PCI in intra-frequency range
Intra-frequency neighbouring cell list
Cell reselection procedure offset
Intra frequency idle mode configuration identifier
• rangeIntraPci• startIntraPci
Number of PCI in intra-frequency range
• physCellIdNcl• qOffsetCell
Physical cell identifier in neighboring cell list
DNS servers access configuration identifier
IP address of the primary DNS server
IP address of the secondary DNS server
Identifier of the ethernet based IP interface
Maximum transfer unit
QOS traffic priorization enabling flag
Shaper burst size
Total Shaper Burst Size
Shaper information rate
Total shaper information rate
Traffic Path Shaping Enabling Flag
IP address of the plain Ethernet network interface
Plain Ethernet Network Interface IPv6 Address
Plain Ethernet Network Interface IPv6 Prefix-Length
Subnet mask of the plain Ethernet network interface
Take ethernet overhead into account when shaping
WFQ aggregator queue weight
DHCP Client Identifier
DHCP Fixed IP Address
DHCP Server Identifier
DHCP Fixed IP Address
DHCP Hardware Identifier
DHCP IP address pool
DHCP Range End IP Address
DHCP Range Start IP Address
NTP configuration entity identifier
• dhcpClientIdentifier• dhcpFixedIpAddress
Entry set for DHCP clients identified by a system name
• dhcpFixedIpAddress• dhcpHardwareIdentifier
Entry set for DHCP clients identified by a MAC address
• dhcpRangeEnd• dhcpRangeStart
List of NTP server IP addresses
Control Plane IPv4 Address
Control Plane IPv6 Address
User Plane IPv4 Address
User Plane IPv6 Address
Transport Network Identifier
Feature Activation Flag For Fast IP Re-Routing
Feature Activation Flag IPTransport Network Measurement
Feature Activation Flag IPv6 For U/C-Plane
Activation Flag Transport Separation For RAN Sharing
• addCPlaneIpv4Address• addCPlaneIpv6Address• addUPlaneIpv4Address• addUPlaneIpv6Address• transportNwId
Additional Transport Network IP Address List
BFD Hold-Up time delay for re-installing the protection
Base station identifier
MAC address for BTS subnet
Control plane IP address
Control plane IPv6 address
Disable FTP server
Enable/disable service OAM
BTS subnet IP address
Enable response to ICMP traffic
IP node configuration identifier
Management plane IP address
Main Transport Network Identifier
Subnet mask for the BTS subnet IP address
Optional TLV message reply flag
TLS usage towards the OPS system
MAC address for U/C/M/S plane
Secondary OMS IP address
Serving OMS
Serving OMS administrative setting
Serving OMS switchover request
Transport network IP address of the O&M system
Neighbor Solicitation Message Retransmit Timer
Synchronization plane application IP address
• twampIpAddress• twampReflFlag• udpEchoFlag
TWAMP reflector and udp echo flag indicator
TWAMP application or IP interface address
UDP echo flag
TWAMP reflector port number
User plane IP address
User plane IPv6 address
How is source two defined?
IP address for source two
User Label
TWAMP message response enabling flag
TWAMP initiator rate for sending messages
WFQ aggregator queue weight for Service OAM messages
• sourceTwoDiscr• sourceTwoIpAddr• sourceTwoNetMask• userLabel
Restricted Mode exception list (IP address list)
Subnet mask for source two IP address
IP Restricted Mode object identifier
Identifier of the IP routing table
Static IP routes set
Gateway
Netmask
Preference value of the route
Identifier Of The IPv6 Routing Table
Static IPv6 Routes Set
• bfdId• destIpAddr• gateway• netmask• preference BFD route protection session
identifier
Destination IP address of static route
• bfdId• destIpv6Addr• destinationIpv6PrefixLength• gatewayIpv6Addr• preference BFD route protection session
identifier
Destination IPv6 Address Of The Static Route
Destination IPv6 Prefix Length
Gateway IPv6 Address
Preference value of the route
IPsec emergency bypass enabled
IPsec emergency bypass state
IPSec enabling flag
IPsec configuration identifier
Security policies
Anti replay enabled flag
IPsec emergency bypass control server IP address
IPsec emergency bypass exit active state request
IPsec emergency bypass ping retry timer
• antiReplayEnabled• antiReplayWindowSize• dpddelay• dpdtimeout• encryptionMethod
Size of the anti replay window
DPD alarm raising delay time
DPD timeout
ESP encryption algorithm
IKE Diffie-Hellman group
IKE layer encryption method
IKE protocol variant
IPsec action status
Local IP address
Port number of the local IP address
local Ip Prefix Length
Local IPsec tunnel endpoint IP address
Policy order number
Protocol information
Remote IP address
Port of the remote IP address
remote Ip Prefix Length
EUTRA frequency value
Inter-frequency blacklisted cell list
Remote IPsec tunnel endpoint IP address
Security association maximum lifetime
EUTRA carrier frequency absolute priority
EUTRA carrier weight factor idle mode load balancing
• rangeInterPci• startInterPci
Number of PCI in inter-frequency range
Lowest PCI in inter-frequency range
Cell reselection procedure offset
EUTRA presence antenna port1
EUTRA cell reselection timer
IRFIM identifier
• physCellIdNcl• qOffCell
Inter-Frequency neighbouring cell list
Physical cell identifier in neighbouring cell list
• interFrqQThrHighR9• interFrqQThrLowR9
EUTRA inter-frequency quality thresholds (Rel9)
EUTRA inter-frequency quality threshold high (Rel9)
EUTRA inter-frequency quality threshold low (Rel9)
EUTRA inter frequency threshold high
EUTRA inter frequency threshold low
Allowed measurement bandwidth
Pmax neighbouring EUTRA cells
EUTRA frequency specific offset
Minimum required Rx RSRP level
Min required RSRQ in inter-freq neighbor cells (Rel9)
• eutResTiFHM• eutResTiFMM
Speed-dependent scaling factors t-reselection EUTRAN
EUTRA cell reselection timer factor high mobility
EUTRA cell reselection timer factor medium mobility
Local IP address of the VLAN interface
VLAN Ethernet Network Interface IPv6 Address
VLAN Ethernet Network Interface IPv6 Prefix-Length
Network mask of the local IP address
QOS traffic priorisation enabling flag
Shaper burst size
Shaper information rate
VLAN identifier
VLAN interface object identifier
WFQ aggregator queue weight
DSCP to priority queue map
DSCP value
Priority queue identifier
Enable layer 2 switching
• dscp• priorityQueue
Layer 2 switch member weight for priority queue 2
Layer 2 switch member weight for priority queue 3
Port default VLAN priority
Priority queue for non-IP frames
Layer 2 switch member weight for priority queue 4
Layer 2 switch member weight for priority queue 5
Layer 2 switch member weight for priority queue 6
Default VLAN identifier for layer 2 switching
Priority queue for frames with VLAN PCP bits 0
Priority queue for frames with VLAN PCP bits 1
Priority queue for frames with VLAN PCP bits 2
Priority queue for frames with VLAN PCP bits 3
Priority queue for frames with VLAN PCP bits 4
Priority queue for frames with VLAN PCP bits 5
Priority queue for untagged frames
QOS classification flag
Identifier of the layer 2 switch object
Local cell resource identifier
Repeater delay
Resource list
Antenna line id
Sub cell identifier
TX and RX usage
Priority queue for frames with VLAN PCP bits 6
Priority queue for frames with VLAN PCP bits 7
Flag to decide if VLAN aware switching is used
• antlId• subCellId• txRxUsage
Cell sector id
C-Plane IP address of neighbor eNB
C-Plane IP address control
Neighbour eNB identifier
Identity of neighbor eNB within PLMN
• mcc• mmeGroupId• mnc• mncLength
Neighbor eNB globally unique group ID list
MCC in PLMN identity included in GU group ID
MME group ID included in GU group ID
MNC in PLMN identity included in GU group ID
MNC length in PLMN identity included in GU group ID
• mcc• mnc• mncLength
Primary PLMN identity of neighbor eNB
MCC in primary PLMN identity of neighbor eNB
X2 link status
ARFCN value geran
Band indicator geran
Basestation colour code
DTM capability
CI GERAN
LAC GERAN
RAC GERAN
Neighbor GERAN BTS cell identifier
MCC GERAN
MNC in primary PLMN identity of neighbor eNB
MNC length in primary PLMN of neighbor eNB
MNC GERAN
MNC length GERAN
Network colour code
Network control order
RIM interface status
System info list GERAN
System information type
Broadcast PLMN identity list
MCC in broadcast PLMN identity
MNC in broadcast PLMN identity
DL cyclic prefix configuration
• mcc• mnc• mncLength
MNC length in broadcast PLMN identity
UL Cyclic Prefix Configuration
Downlink transmission bandwidth
Identity of neighbor eNB in ECGI
Neighbor LTE cell identifier
Local cell resource ID of related neighbor cell
• mcc• mnc• mncLength
Primary PLMN identity of neighbor LTE cell in ECGI
MCC in primary PLMN identity of neighbour ENB in ECGI
MNC in primary PLMN identity of neighbour ENB in ECGI
MNC length in primary PLMN ID of neighbour ENB in ECGI
Downlink EARFCN of LTE cell served by neighbor eNB
Uplink EARFCN of FDD cell served by neighbor eNB
Physical cell ID of cell served by neighbor eNB
Source of data
UL and DL transmission bandwidth
Uplink transmission bandwidth
Target primary PLMN identity
MCC
MNC
MNC length
Target secondary PLMN ID list
Special Subframe Configuration Of Neighbor ENB
Tracking area code of cell served by neighbor eNB
Uplink Downlink subframe configuration in radio frame
Neighbor WCDMA BTS cell identifier
• mcc• mnc• mncLength
• mcc• mnc• mncLength
MCC
MNC
MNC length
Source of data
SRVCC HO indication
Target cell id
Target frequency
Target location area code
Target routing area code
Target RNC id
Primary scrambling code (FDD)
Neighbor 1x carrier frequency
Neighbor 1x band class
Neighbor 1x cell ID
Neighbor 1x market ID
Neighbor 1x PN offset
Neighbor 1x sector ID
Neighbor 1x switch number
Activate 1xCSFB
Activate Support of 8 EPS Bearers
Activation CMAS support
Activate CS fallback via redirection
Activate cell trace
CDMA2000 1xRTT neighbor cell identifier
Activate cell trace with IMSI
Activate support for distributed site
Activate dual carrier usage
Activate E-RAB modification
Ciphering algorithm activation parameter
Activation of complete consistency checks
Activate support of conversational voice bearer
Activation of C-plane overload handling
Activate CS fallback with PS-HO to UTRA
Activation of downlink carrier aggregation
Activate support for dual band operation
Activate CSFB to CDMA 1xRTT for dual RX UEs
Activation ETWS support
Activate flexible base band usage
Activate home eNB mobility
Activate high priority services
Activate handover from UTRAN
Activate emergency call via redirection
Activate enhanced AC and GBR services
Activate GSM redirect with system information
Activate handover from LTE to eHRPD
Activate handover from LTE to WCDMA
Activate high amount of RRC connected UE
Activate support of IMS emergency sessions for Rel 9 UE
Enable interFrequency handover
Activate LPPa support for OTDOA
Activate location reporting
Activate MDT cell trace
Activate MFBI support
Activate multiple bearers
Activation of idle mode load balancing (IdleLB)
Activation idle mode mobility CDMA/eHRPD
Activation idle mode mobility CDMA/1xRTT
Activation of inter-frequency load balancing (iFLB)
Activation of intra-frequency load balancing
Activate intra LTE S1based handover
Activate multiple GBR bearers
Activate OTN recovery
Activate optimized MME selection
Activate support for RF chaining
Activation status of S1 flex feature
Activate S1 overload handling
Activate nonGBR service differentiation
Activate support of operator specific QCIs
Activate support of operator specific GBR QCIs
Activate PDCP robust header compression
Activate RAN Information Management for GSM
Enable UE context release with redirect
Activate selective mobility profiles
Activate SRVCC to GSM
Activate SRVCC to WCDMA
Activate UE-based ANR for UTRAN
Activate Uplink CoMP
Activation of ZUC algorithm
Activate eNACC to GSM
AM RLC poll byte table 1
Activate subscriber and equipment trace
Activate UE-based ANR for Inter-frequency LTE
Activate UE-based ANR for intra-Frequency LTE
• dlPollByte• ueCategory• ulPollByte
DL poll byte
UE category
UL poll byte
AM RLC poll byte table 2
DL poll byte
UE category
UL poll byte
AM RLC poll byte table 3
DL poll byte
UE category
UL poll byte
AM RLC poll byte table 4
• dlPollByte• ueCategory• ulPollByte
• dlPollByte• ueCategory• ulPollByte
• dlPollByte• ueCategory• ulPollByte
DL poll byte
UE category
UL poll byte
AM RLC poll byte table 5
DL poll byte
UE category
UL poll byte
ANR interfrequency RSC timer
ANR robustness level
Blacklisted GSM PLMNs for RIM
MCC
• dlPollByte• ueCategory• ulPollByte
Activate ANR support for LTE with OAM extension
• mcc• mnc• mncLength
MNC
MNC length
BTS reset requested
Ciphering algorithm parameters
Null ciphering algorithm
SNOW 3G-based algorithm
AES-based algorithm
ZUC-based algorithm
Congestion weight algorithm
Default profile index AM
Default profile index UM
Min UE-AMBR downlink for carrier aggregation
• eea0• eea1• eea2• eea3
Enable automatic locking
Enable graceful cell shutdown
eNB name
Global eNB id X2-link blacklist
X2 blacklisted eNB ID
X2 blacklisted global eNB id MCC
X2 blacklisted global eNB id MNC
High-priority session configurations
ETWS primary notification broadcast duration
• enbId• mcc• mnc• mncLength
X2 blacklisted global eNB id MNC length
• hpsSessArpMax• hpsSessArpMin
High-priority session ARP priority level maximum
High-priority session ARP priority level minimum
Emergency sessions ARP
Emergency sessions MCC
Emergency sessions MNC
Emergency sessions MNC length
Null integrity algorithm
SNOW 3G
AES
• emerSessArpPreemCap• emerSessArpPreemVul• emerSessArpPrioLev• emerSessLimServ• emerSessMcc
IMS emergency PLMN configurations
Emergency session ARP pre-emption Capability
Emergency session ARP pre-emption Vulnerability
Emergency sessions limited service mode support
• eia0• eia1• eia2• eia3
Integrity protection algorithm parameters
ZUC
Key refresh margin
Macro eNB identifier
Max number of LNADJ instances
Maximum number of pre-emptions
MCC in PLMN
MNC in PLMN
MNC length in PLMN
Mobility profile selection mode
Maximum number of eNB-controlled incoming X2-links
Maximum number of eNB-controlled outgoing X2-links
Minimum not activated UTRA reportStrongestCellsForSon
Maximum RIR attempts to GERAN
Null ciphering algorithm fallback
Operational state
OTN recovery period
Overload handling
Activate incoming HO reduction
Activate RRC connection reduction
Prioritized bit rate nonGBR
PCI-IP address mapping table
PCI-IP map downlink EARFCN
PCI-IP map eNB ID
PCI-IP map IPv4/IPv6 address
• actInHORed• actRrcConnRed
• dlEarfcn• enbId• ipAdr• mcc• mnc
PCI-IP map primary MCC
PCI-IP map primary MNC
PCI-IP map primary MNC length
PCI-IP map PCI
Profile 1 of PDCP parameters
PDCP profile ID
Status report required
Timer discard
Profile 101 of PDCP parameters
PDCP profile ID
ROHC maximum CID
Sequence number size
• pdcpProfileId• statusRepReq• tDiscard
• pdcpProfileId• rohcMaxCid• snSize• tDiscard
Timer discard
Profile 102 of PDCP parameters
PDCP profile Id
Sequence number size
Timer discard
Profile 103 of PDCP parameters
PDCP profile id
Sequence number size
Timer discard
Profile 104 of PDCP parameters
PDCP profile id
Sequence number size
• pdcpProfileId• snSize• tDiscard
• pdcpProfileId• snSize• tDiscard
• pdcpProfileId• snSize• tDiscard
Timer discard
Profile 2 of PDCP parameters
PDCP profile ID
Status report required
Timer discard
Profile 3 of PDCP parameters
PDCP profile ID
Status report required
Timer discard
Profile 4 of PDCP parameters
PDCP profile id
Status report required
• pdcpProfileId• statusRepReq• tDiscard
• pdcpProfileId• statusRepReq• tDiscard
• pdcpProfileId• statusRepReq• tDiscard
Timer discard
Profile 5 of PDCP parameters
PDCP profile id
Status report required
Timer discard
Handover topology priority
Prohibit Load based handover timer
Prohibit PS-HO to WCDMA
PWS with emergency area ID
QCI translation table QCI 1
Delay target
DRX profile index
• pdcpProfileId• statusRepReq• tDiscard
• delayTarget• drxProfileIndex• dscp• enforceTtiBundling• lcgid
DSCP
Enforce TTI bundling
Logical channel group identifier
Maximum GBR downlink
Maximum GBR uplink
PDCP profile index
Priority
QCI
QCI support
Resource type
RLC mode
RLC profile index
Scheduling bucket size duration
Scheduling priority
QCI translation table QCI 2
Delay target
DRX profile index
DSCP
Enforce TTI bundling
L2 overhead factor GBR DL
L2 overhead factor GBR UL
Logical channel group identifier
Maximum GBR downlink
Maximum GBR uplink
• delayTarget• drxProfileIndex• dscp• enforceTtiBundling• l2OHFactorDL
PDCP profile index
Priority
QCI
QCI support
Resource type
RLC mode
RLC profile index
Scheduling bucket size duration
Scheduling priority
QCI translation table QCI 3
Delay target
DRX profile index
• delayTarget• drxProfileIndex• dscp• enforceTtiBundling• l2OHFactorDL
DSCP
Enforce TTI bundling
L2 overhead factor GBR DL
L2 overhead factor GBR UL
Logical channel group identifier
Maximum GBR downlink
Maximum GBR uplink
PDCP profile index
Priority
QCI
QCI support
Resource type
RLC mode
RLC profile index
Scheduling bucket size duration
Scheduling priority
QCI translation table QCI 4
Delay target
DRX profile index
DSCP
Enforce TTI bundling
L2 overhead factor GBR DL
L2 overhead factor GBR UL
Logical channel group identifier
• delayTarget• drxProfileIndex• dscp• enforceTtiBundling• l2OHFactorDL
Maximum GBR downlink
Maximum GBR uplink
PDCP profile index
Priority
QCI
QCI support
Resource type
RLC mode
RLC profile index
Scheduling bucket size duration
Scheduling priority
QCI translation table QCI 5• drxProfileIndex• dscp• enforceTtiBundling• lcgid• pdcpProfIdx
DRX profile index
DSCP
Enforce TTI bundling
Logical channel group identifier
PDCP profile index
Priority
QCI
QCI support
Resource type
RLC mode
RLC profile index
Scheduling bucket size duration
Scheduling priority
Scheduling type
Scheduling weight
QCI translation table QCI 6
DRX profile index
DSCP
Enforce TTI bundling
Logical channel group identifier
PDCP profile index
Priority
QCI
QCI support
• drxProfileIndex• dscp• enforceTtiBundling• lcgid• pdcpProfIdx
Resource type
RLC mode
RLC profile index
Scheduling bucket size duration
Scheduling priority
Scheduling weight
QCI translation table QCI 7
DRX profile index
DSCP
Enforce TTI bundling
Logical channel group identifier
PDCP profile index
• drxProfileIndex• dscp• enforceTtiBundling• lcgid• pdcpProfIdx
Priority
QCI
QCI support
Resource type
RLC mode
RLC profile index
Scheduling bucket size duration
Scheduling priority
Scheduling weight
QCI translation table QCI 8
DRX profile index
DSCP
• drxProfileIndex• dscp• enforceTtiBundling• lcgid• pdcpProfIdx
Enforce TTI bundling
Logical channel group identifier
PDCP profile index
Priority
QCI
QCI support
Resource type
RLC mode
RLC profile index
Scheduling bucket size duration
Scheduling priority
Scheduling weight
QCI translation table QCI 9
DRX profile index
DSCP
Enforce TTI bundling
Logical channel group identifier
PDCP profile index
Priority
QCI
QCI support
Resource type
RLC mode
RLC profile index
• drxProfileIndex• dscp• enforceTtiBundling• lcgid• pdcpProfIdx
Scheduling bucket size duration
Scheduling priority
Scheduling weight
Counter group
Delay target
DRX profile index
DSCP
Enforce TTI bundling
L2 overhead factor GBR Dl
L2 overhead factor GBR Ul
Logical channel group identifier
• counterGroup• delayTarget• drxProfileIndex• dscp• enforceTtiBundling
QCI translation table operator specific QCIs
Maximum GBR downlink
Maximum GBR uplink
PDCP profile index
Priority
QCI
QCI support
Resource type
RLC mode
RLC profile index
Scheduling bucket size duration
Scheduling priority
Scheduling weight
Recovery reset delay
RF sharing state
Profile 1 of RLC parameters
Poll PDU
RLC profile id
Timer poll retransmit
Timer status prohibit
Timer reordering
Profile 101 of RLC parameters
RLC profile id
SN field length downlink
RACH access for handover from UTRAN
• pollPdu• rlcProfileId• tPollRetr• tProhib• tReord
• rlcProfileId• snFieldLengthDL• snFieldLengthUL• tReord
SN field length uplink
Timer reordering
Profile 102 of RLC parameters
RLC profile id
SN field length downlink
SN field length uplink
Timer reordering
Profile 103 of RLC parameters
RLC profile id
SN field length downlink
SN field length uplink
Timer reordering
• rlcProfileId• snFieldLengthDL• snFieldLengthUL• tReord
• rlcProfileId• snFieldLengthDL• snFieldLengthUL• tReord
Profile 104 of RLC parameters
RLC profile id
SN field length downlink
SN field length uplink
Timer reordering
Profile 2 of RLC parameters
Poll PDU
RLC profile id
Timer poll retransmit
Timer status prohibit
Timer reordering
Profile 3 of RLC parameters
• rlcProfileId• snFieldLengthDL• snFieldLengthUL• tReord
• pollPdu• rlcProfileId• tPollRetr• tProhib• tReord
• pollPdu• rlcProfileId• tPollRetr• tProhib• tReord
Poll PDU
RLC profile id
Timer poll retransmit
Timer status prohibit
Timer reordering
Profile 4 of RLC parameters
Poll PDU
RLC profile id
Timer poll retransmit
Timer status prohibit
Timer reordering
Profile 5 of RLC parameters
• pollPdu• rlcProfileId• tPollRetr• tProhib• tReord
• pollPdu• rlcProfileId• tPollRetr• tProhib• tReord
Poll PDU
RLC profile id
Timer poll retransmit
Timer status prohibit
Timer reordering
S1 induced cell deactivation time
SCell activation cycle period
SCell activation method
SCell deactivation timer eNB
Shutdown step amount
Shutdown window
SCell and PCell ambiguous HARQ feedback usage
System information list WCDMA
Physical Cell Id
System Information
End-Tag maximum AM
End-Tag maximum UM
Supported number of LNADJ instances
• physCellId• sysInfo
Timer to wait for next RI PDU from GERAN
Polling timer to ReStart RIR Procedure to GERAN
Timer to wait for RIR Response from GERAN
Supervision timer for handover preparation to GSM
Supervision timer preparation intra LTE HO
Supervision timer for the preparation HO WCDMA
TX path failure mode
A3 offset
Timer delayed AC continuation At pre-emption
TTI bundling during handover measurements
Maximum RSSI for interference-aware UL-PC
Voice support match indicator preconfiguration
Time to trigger for A1 to deactivate inter measurement
Time to trigger for A2 to activate GERAN measurement
Time to Trigger for A2 to activate C2K-HRPD Measurement
Time to trigger for A2 to activate inter measurement
Time to trigger for A2 to activate WCDMA measurement
Time to trigger for A2 to start redirect procedure
A3 report interval
A3 time to trigger
A5 report interval
A5 time to trigger
Access class barring list
Access class barring time
Access probability factor
Access class barring list
Access class barring time
Access probability factor
• acBarAC• acBarTime• probFac
Access class barring for mobile originating CS fallback
• acBarAC• acBarTime• probFac
Access class barring for MMTEL video originating calls
Access class barring list
Access class barring time
Access probability factor
Access barring for signaling
• acBarAC• acBarTime• probFac
Access class barring for MMTEL voice originating calls
• ocAcBarAC• ocAcBarTime• ocAcProbFac
Access class barring for originating calls
Access class barring list for mobile originating calls
Access class barring time for originating calls
Access probability factor for originating calls
• sigAcBarAC• sigAcBarTime• sigAcProbFac
Access class barring list mobile orig signaling
Access class barring time for signaling
Access probability factor for signaling
Activate DL OLDTC
Activate DRX
Activate fast adaptive MIMO switch
Activate load adaptive PDCCH
Activate modulation scheme UL
Activate outer loop link adaptation
PRS activation
PRS Tx diversity activation
Activate PUSCH masking
Repeater mode activation
Activate DL voice packet aggregation
Activate support for excluded intra-band IF measurement
Activate smart DRX
Activate supercell configuration
Activate TTI bundling
Activation of uplink group hopping
Activate uplink link adaptation
Method for UL power control
Add emergency sessions
Activate support for up to six Inter-freq measurement
Additional active UE with reason radio reason handover
Additional active UE with reason time critical handover
Add GBR-DRB traffic for radio reason handover
Add GBR-DRB traffic for time critical reason handover
Add number DRB radioReasHo
Add number DRB timeCriticalHo
Additional spectrum emission mask
Administrative state
ANR UTRA RSCP threshold
Apply UL out-of-sync state
Blacklisted topologies
eUTRA carrier frequency
Range of physical cell id range
Add number QCI1 DRB for radioReasHo
Add number QCI1 DRB for timeCriticalHo
• blacklistTopo• freqEutra• phyCellIdRange• phyCellIdStart
Blacklisted cell for intra and inter freq HO list
Start of physical cell id range
Blanked PUCCH resources
CDMA2000 timers
Cell barred flag
Cell capacity class value
• tC2KMeasReport• tC2KRelocPrep• tC2kRelocExec• tULHOPrepTransfer
CDMA2000 1xRTT measurement report timer
CDMA2000 relocation preparation timer
CDMA2000 relocation execution timer
UL Handover preparation transfer timer
• celResTiFHM• celResTiFMM
Intra-frequency reselection timer EUTRA
Cell reselection timer factor high mobility
Cell reselection timer factor medium mobility
Cell name
Cell reselection priority
Cell reset requested
Assigned cell resource group profile
Cell resource sharing mode
Cell scheduling request periodicity
Cell type
Cell individual offset of own serving cells PCI
• qQualMinOffsetR9• qQualMinR9
Minimum required quality in cell (Rel9)
Offset for minimum required RSRQ in cell (Rel9)
Minimum required RSRQ in cell (Rel9)
Enable aperiodic CQI reporting on PUSCH
CQI periodicity network period
Periodic CQI subbands cycles
DeltaF PUCCH list
DeltaF PUCCH format 1
DeltaF PUCCH format 1b
DeltaF PUCCH format 2
DeltaF PUCCH format 2a
DeltaF PUCCH format 2b
Default paging cycle
Aperiodic CQI feedback reporting mode
Enable simultaneous CQI and ACK/NACK
• dFpucchF1• dFpucchF1b• dFpucchF2• dFpucchF2a• dFpucchF2b
Dedicated SR transmission maximum
Handover margin
Delta cyclic shift for PUCCH
Enable 64QAM in downlink
Cell power reduce
Downlink channel bandwidth
Downlink MIMO mode
Enable OLQC
Delta preamble random access message 3
Enabled TB size impact to UE PUSCH power calculation
Enable downlink interference generation
Interference level for generated downlink interference
Modulation scheme for downlink interference
Downlink pathloss change
DL target BLER
Default CQI
Enable DL AMC
MIMO power compensation
DL scheduler FD algorithm
DL OLDTC target
Use of partly allocated PRBs
Downlink PCFICH transmission power boost
Downlink PHICH transmission power boost
Downlink reference signals transmission power boost
DCI format for common channel transmission
DRX apply device type
DRX profile 1
DRX profile index
DRX profile priority
DRX profile 101
DRX inactivity timer
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
DRX retransmission timer
DRX profile 102
• drxProfileIndex• drxProfilePriority
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
DRX inactivity timer
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
DRX retransmission timer
DRX profile 103
DRX inactivity timer
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
DRX retransmission timer
DRX profile 2
DRX inactivity timer
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
DRX retransmission timer
DRX profile 3
DRX inactivity timer
DRX long cycle
DRX on duration timer
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
DRX profile index
DRX profile priority
DRX retransmission timer
DRX profile 4
DRX inactivity timer
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
DRX retransmission timer
DRX profile 5
DRX inactivity timer
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
DRX retransmission timer
DRX smart profile 2
DRX inactivity timer
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
DRX retransmission timer
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
DRX short cycle
DRX short cycle timer
DRX smart profile 3
DRX inactivity timer
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
DRX retransmission timer
DRX short cycle
DRX short cycle timer
Short term inactivity factor for smart DRX
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
DRX smart profile 4
DRX inactivity timer
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
DRX retransmission timer
DRX short cycle
DRX short cycle timer
DRX smart profile 5
Short term inactivity factor for smart DRX
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
Short term inactivity factor for smart DRX
• drxInactivityT• drxLongCycle• drxOnDuratT• drxProfileIndex• drxProfilePriority
DRX inactivity timer
DRX long cycle
DRX on duration timer
DRX profile index
DRX profile priority
DRX retransmission timer
DRX short cycle
DRX short cycle timer
Access barred for emergency calls
Short term inactivity factor for smart DRX
• preRegLoadBalFactor• sectorID
eHRPD sector-ID list for pre-registration
Loadbalancing factor for pre-registration with eHRPD
SectorID of eHRPD access network
EARFCN downlink
EARFCN uplink
Emergency area ID list
Enable better cell HO
Extended uplink link adaptation ATB periodicity
Extended uplink link adaptation BLER averaging window
Extended uplink link adaptation delta MCS
Extended uplink link adaptation low MCS threshold
Extended uplink link adaptation low PRB threshold
Extended uplink link adaptation PRB factor
Enable AMC for PDCCH link adaptation
Enable coverage HO
Enable downlink 16QAM
Enable PDCCH power control
E-UTRAN cell identifier
E-UTRAN access point position
Altitude
Confidence
Degrees of latitude
Degrees of longitude
Direction of altitude
Latitude sign
Enable lower aggregation selection for PDCCH LA
• altitude• confidence• degreesOfLatitude• degreesOfLongitude• directionOfAltitude
Orientation of major axis
Uncertainty altitude
Uncertainty semi-major
Uncertainty semi-minor
Filter center TX
Filter coefficient
Filtering coefficient used for RSRP
Fast uplink link ATB trigger threshold
Filtering coefficient used for CSFB Cpich-Ecn0
Filtering coefficient used for CSFB Cpich-RSCP
Filtering coefficient used for cpich ecN0
Filtering coefficient used for cpich RSCP
Filtering coefficient used for RSRQ
Filtering coefficient used for RSSI
Further PLMN identity list
Cell reserved for operator use
Mobile country code
Mobile network code
Mobile network code length
GBR congestion handling
Group assignment for PUSCH
• cellReserve• mcc• mnc• mncLength
Maximum number of message 3 HARQ transmissions
Maximum number of HARQ transmission in DL
Maximum number of HARQ transmission in UL
Hopping mode of PUSCH
HRPD Timers
Highspeed scenario
Max number of UL HARQ transmissions during TTI bundling
• tC2KRelocOverallHrpd• tC2KRelocPrepHrpd• tUlHoPrepTransferHrpd
CDMA2000 HRPD Handover Relocation Execution Timer
CDMA2000 HRPD Handover Relocation Preparation Timer
CDMA2000 HRPD UL Handover Preparation Transfer Timer
Related hysteresis of offset a3Offset for RSRP intra F
Related hysteresis of threshold th2 GERAN for RSRP
Related Hysteresis of Threshold2 C2K-HRPD for RSRP
Related hysteresis of threshold th2 interFreq for RSRP
Related hysteresis of threshold th2 WCDMA for RSRP
Inter Freq Load Bal Retry Timer
Related hysteresis of threshold th2a for RSRP
Related hysteresis of thresholds th3 and th3a for RSRP
Related hysteresis of threshold th4 for RSRP
• iFLBBearCheckTimer• iFLBHighLoadGBRDL• iFLBHighLoadNonGBRDL• iFLBHighLoadPdcch• iFLBNomNumPrb
Inter-frequency load balancing load thresholds
Inter-frequency load balancing QCI1 Bearer check timer
Inter-frequency load balancing GBR high load DL
Inter-frequency load balancing non-GBR high load DL
Inter-frequency load balancing PDCCH high load
Inter-frequency load balancing nominal number of PRBs
Inter-frequency load balancing GBR target load DL
Inter-frequency load balancing non-GBR target load DL
Inactivity timer
Initial MCS in downlink
Initial MCS in uplink
Initial amount of PRBs in uplink
Presence antenna port1
Local cell resource ID
LTE cell configuration identifier
Inter-frequency load balancing PDCCH target load
Cell reselection weight factor idle mode load balancing
Percentage of UE for idle mode load balancing
Uplink improved latency reaction timer
Intra-frequency cell reselection allowed
Load balancing profile
Maximum bitrate downlink
Maximum bitrate uplink
Maximum code rate for paging
Maximum code rate for SIB
Maximum GBR-DRB Traffic Limit
Max number act DRB
Maximum number of active UEs
Cell individual offset change lower margin
Maximum code rate for random access message 4
Maximum code rate for random access message 2
Maximum number of OFDM symbols for PDCCH
Max number QCI1 DRBs (GBRs)
Maximum number RRC emergency
Maximum bitrate selector
MIMO Closed Loop configuration
Max number Carrier Aggr configured UEs double carrier
Maximum number of RRC connections
Maximum amount of users per TTI in DL
Maximum amount of users per TTI in UL
Measurement quantity for UTRA-CSFB FDD measurements
Measurement quantity used for UTRA FDD measurements
• mimoClCqiThD• mimoClCqiThU• mimoClRiThD• mimoClRiThU
CQI threshold for fallback to CL MIMO 1 CW mode
MIMO Open Loop configuration
Minimum bitrate downlink
Minimum bitrate uplink
Mobility profiles mapping list
Mobility profile ID
CQI threshold for activation of CL MIMO 2 CW mode
Rank threshold for fallback to CL MIMO 1 CW mode
Rank threshold for activation of CL MIMO 2 CW mode
• mimoOlCqiThD• mimoOlCqiThU• mimoOlRiThD• mimoOlRiThU
CQI threshold for fallback to MIMO diversity
CQI threshold for activation of OL MIMO SM
Rank threshold for fallback to MIMO diversity
Rank threshold for activation of OL MIMO SM
• moPrId• spid• spidLast
Subscriber profile ID
Last subscriber profile ID of a range
Modification period coefficient
ACK/NACK offset
PUCCH bandwidth for CQI
Intra EUTRA offset frequency
Mobility state parameters NCellChangeHigh
Mobility state parameters NCellChangeMedium
Mobility state parameters tevaluation
Mobility state parameters THystNormal
Maximum number of out-of-sync indications
Maximum number of in-sync indications
Operational state
Maximum output power
Paging nB
PDCCH LA UE default aggregation
PDCCH aggregation for RA msg4
PDCCH aggregation for paging
Nominal power for UE PUCCH TX power calculation
Nominal power for UE PUSCH TX power calculation
Pmax intra-frequency neighboring E-UTRA
Max. uplink transmission power own cell
PDCCH aggregation level for preamble assignments
PDCCH aggregation for random access response message
PDCCH allocation limit
PDCCH LA CQI shift
Periodic CQI feedback type
Periodic UE measurements
Activate measurement
Measurement type
Report amount
Report interval
PHICH duration
PDCCH aggregation for secondary system information
PDCCH and HARQ response target BLER
PDCCH LA UL DL allocation balance initial value
• activateMeas• measurementType• reportAmount• reportInterval
PHICH resource
Physical layer cell identity
PRACH cyclic shift
PRACH configuration index
PRACH frequency offset
PRACH high speed flag
Power ramping step
Preamble transmission maximum
Cell reserved for operator use
PRS bandwidth
PRS configuration index
PRS muting• prsMutingInfo• prsMutingInfoPatternLen
PRS muting info
PRS muting info pattern length
PRS Number of DL frames
PRS power boost
Q RX level min. offset
Minimum required RX level in cell
PUCCH cyclic shift for mixed formats
PUSCH decoding offset index for ACK
PUSCH decoding offset index for CQI
PUSCH decoding offset index for rank indicator
Cell reselection procedure hysteresis value
Min. required RSRQ in intra-freq neighbor cells (Rel9)
Maximum content resolution timer
Random challenge value
DL rate capping AMBR margin
Min. required RX level for intra-freq neighboring cells
Large size random access MCS in uplink
RA message power offset for group B selection
Number of random access preambles
Random access preambles group A size
Random access response window size
Small size random access MCS in uplink
Small size random access data volume in uplink
Rate capping AMBR margin in uplink
Enable rate capping in downlink
Enable rate capping in uplink
Enable reduced bandwidth DL
Rank indication reporting enable
Periodic RI reporting offset
RACH root sequence
Maximum number of PRBs assigned in downlink
• redBwMaxRbUl• redBwMinRbUl
Restricted PRB assignment in uplink configuration
Maximum number of PRBs assigned in uplink
Minimum number of PRBs assigned in uplink
Enable restricted PRB assignment in uplink
Multiplier M for periodic RI reporting period
RSRQ mobility parameters
Threshold Th2 for RSRQ mobility
Threshold Th2a for RSRQ mobility
RSRQ redirection parameters
Threshold Th4 for RSRQ
CDMA2000 1xRTT cell ID info
CDMA2000 1xRTT CSFB type
• a1ReportInterval• a2TimeToTriggerMobRsrq• hysThreshold2MobRsrq• threshold2MobRsrq• threshold2aRsrq A1 report interval for serving
becomes better than RSRP
Time to trigger A2-RSRQ to start mobility measurement
Related hysteresis of threshold Th2 for RSRQ mobility
• a2TimeToTriggerRedirectRsrq• hysThreshold4Rsrq• threshold4Rsrq
Time to trigger for A2 by RSRQ to start redirect
Related hysteresis of threshold Th4 for RSRQ
• rttPreregCellId• rttPreregMarketId• rttPreregSectorId• rttPreregSwNo
CDMA2000 1xRTT pre-registration reference cell id
CDMA2000 1xRTT pre-registration cell ID
CDMA2000 1xRTT pre-registration market ID
CDMA2000 1xRTT pre-registration sector ID
CDMA2000 1xRTT pre-registration switch number
• sIntraSearchPR9• sIntraSearchQR9
Intra-frequency measurements thresholds (Rel9)
Intra-frequency measurements power threshold (Rel9)
Intra-frequency measurements quality threshold (Rel9)
Intra-frequency measurements threshold
• sNonIntraSearchPR9• sNonIntraSearchQR9
Inter-freq and inter-RAT meas thresholds (Rel9)
Inter-freq and inter-RAT power meas threshold (Rel9)
Inter-freq and inter-RAT quality meas threshold (Rel9)
SI window length
System Information 2 Scheduling
Periodicity
Repetition
Message Mapping
System Information 3 Scheduling
Periodicity
Repetition
Message Mapping
System information scheduling list
Periodicity
Inter-frequency and inter-RAT measurements threshold
• siMessagePeriodicity• siMessageRepetition• siMessageSibType
• siMessagePeriodicity• siMessageRepetition• siMessageSibType
• siMessagePeriodicity• siMessageRepetition• siMessageSibType
Repetition
SIB type
Number cell changes high mobility
Timer TCRmax
Timer TCRmaxHyst
Scheduling weight downlink for SRB
Scheduling weight uplink for SRB
SRS Configuration
• nCellChgHigh• nCellChgMed• qHystSfHigh• qHystSfMed• tEvaluation
Speed-dependent reselection structure
Number cell changes medium mobility
Cell reselection hysteresis high mobility
Cell reselection hysteresis medium mobility
Short term inactivity factor
Timer T300
Timer T301
Timer T302
Timer T304 for interRAT
Timer T304 for interRAT GSM
Timer T304 intra-LTE
Timer T304 for eNACC to GSM
Timer T310
Timer T311
Power offset for SRS transmission power calculation
Synchronization signals transmission mode
Timer T320
Timer ExtendedWaitTime-r10
Timer paging correlation interval
Periodic BSR time
Periodic PHR timer
Prohibited PHR timer
Retransmission BSR timer
Cell reselection timer
Timer to store UE context
Time alignment maximum offset
Time alignment timer
Time alignment timer margin
Tracking area code
Threshold serving low
Threshold th1 for RSRP
Threshold th2 GERAN for RSRP
Threshold th2 interFreq for RSRP
Threshold th2 WCDMA for RSRP
Threshold th2a for RSRP
Threshold th3 for RSRP
Threshold th3a for RSRP
Threshold th4 for RSRP
Q-threshold for reselection towards lower prio RAT/freq
Threshold Th2 CDMA2000-HRPD for RSRP
Time to trigger SF high
Time to trigger SF medium
TTI bundling BLER target
TTI bundling BLER threshold
TTI bundling SINR threshold
Uplink channel bandwidth
Uplink combination mode
Uplink reference signals cyclic shift
UL AMC target BLER
Enable all TBs in UL AMC
UL AMC MCS switch period
UL ATB period
Alpha
• p0NomPuschIAw• ulpcCEBalanceIAw• ulpcMinQualIAw• ulpcMinWaitForPc• ulpcRefPwrIAw
Interference aware UL-PC configuration
Nominal PUSCH P0 for interference-aware UL-PC
Cell-center/edge balancing for interference-aware UL-PC
Minimum UL quality for interference-aware UL-PC
Minimum waiting time for next UL-PC decision
Reference UL power value for interference-aware UL-PC
Preamble initial received target power
• ulpcLowlevCch• ulpcLowqualCch• ulpcUplevCch• ulpcUpqualCch
Uplink power control PUCCH configuration
Lower RSSI threshold for PUCCH power command decision
Lower SINR threshold for PUCCH power command decision
Upper RSSI threshold for PUCCH power command decision
UL scheduler FD type
Max packet aggregation UL
Minimum UL transport block size
Upper SINR threshold for PUCCH power command decision
• ulpcLowlevSch• ulpcLowqualSch• ulpcUplevSch• ulpcUpqualSch
Uplink power control PUSCH configuration
Lower RSSI threshold for PUSCH power command decision
Lower SINR threshold for PUSCH power command decision
Upper RSSI threshold for PUSCH power command decision
Upper SINR threshold for PUSCH power command decision
TPC command in random access response
Time interval for power command decisions
Minimum PRB allocation for UEs which are power limited
PUSCH mask
Length of the PUSCH mask
Start PRB of the PUSCH mask
Unique sector electronics ID
Home eNB cell individual offset
Home eNB set identifier
• ulsPuschMaskLength• ulsPuschMaskStart
Scheduling method of the UL scheduler
• deltaFPucchF1bCSr10• deltaFPucchF3r10
Uplink power control common rel10 add-ons
UL power offset for PUCCH format 1bCS
UL power offset for PUCCH format 3
Cell individual offset change upper margin
Home eNB EUTRA carrier frequency
Home eNB first PCI
Home eNB last PCI
ARFCN value list
ARFCN frequency band indicator
NCC permitted bit map
Threshold1 GERAN for RSRP of serving cell
Threshold2 GERAN for RSSI neighbour cell
Time to trigger GERAN measurement report
Related hysteresis of thresholds B2Th1 and B2Th2 for H
Neighbor GERAN BTS cell handover identifier
Interval for periodical GERAN measurement reporting
Threshold1 CDMA2000-HRPD for RSRP of serving Cell
CDMA2000 HRPD ARFCN
CDMA2000 HRPD Band Class
Threshold2 CDMA2000 for HRPD Neighbour Cell
Time to Trigger CDMA2000-HRPD Measurement Report
• hrpdArfcn• hrpdBandClass
CDMA2000 HRPD Carrier Frequency
Relative weight of the eHRPD carrier
CDMA2000 HRPD Preregistration Allowed
CDMA2000 HRPD Search Window Size
Related Hysteresis of B2Th1 and B2Th2 for C2K-HRPD
Neighbor HRPD cell handover identifier
CDMA2000 HRPD Frequency Specific Offset
Interval for Periodical C2K-HRPD Measurement Reporting
A3 offset RSRP inter frequency
A3 offset RSRQ inter frequency
A5 report interval inter frequency
A5 time to trigger inter frequency
Eutra carrier info
A3 report interval RSRP inter frequency
A3 report interval RSRQ inter frequency
A3 time to trigger RSRP inter frequency
A3 time to trigger RSRQ inter frequency
Related hysteresis offset a3Offset RSRP inter frequency
Related hysteresis offset a3Offset RSRQ inter frequency
Related hysteresis of thresholds th3 and th3a for RSRP
Presence antenna port1
Measurement bandwidth
Inter EUTRA offset frequency
Neighbor interfrequency LTE cell handover identifier
Measurement quantity inter frequency
Threshold th3 for RSRP inter frequency
Threshold th3a for RSRP inter frequency
Inter-freq load bal threshold for RSRP target filter
Inter-freq load bal threshold for RSRQ target filter
Threshold CSFB to UTRA-WCDMA for EcN0 neighbor cell
Threshold CSFB to UTRA-WCDMA for RSCP neighbour cell
Time to trigger UTRA-CSFB measurement report
Utran offset frequency
UTRAN carrier frequency
Threshold1 UTRA for RSRP of serving cell
Threshold2 UTRA for ecNo neighbour cell
Threshold2 UTRA for RSCP neighbour cell
Time to trigger UTRA measurement report
Related hysteresis of threshold B1 for CSFB to WCDMA
Related hysteresis thresholds B2Th1, B2Th2 HO WCDMA
Neighbor WCDMA BTS cell handover identifier
Maximum number of CSFB target cells per frequency
Interval for periodical UTRA measurement reporting
CDMA2000 1xRTT neighbor cell handover identifier
CDMA2000 1XRTT ARFCN
CDMA2000 1XRTT band class
Administrative state
Primary IPv4/v6 address
• rttArfcn• rttBandClass
CDMA2000 1XRTT carrier frequency
Maximum number of e1xCSFB target cells per frequency
CDMA2000 1XRTT search Window size
CDMA2000 1xRTT strength threshold
• mcc• mnc• mncLength
Accumulated list of MME served PLMNs
MCC of PLMN ID in served PLMNs per RAT of MME
MNC of PLMN ID in served PLMNs per RAT of MME
MNC length of PLMN ID in served PLMNs per RAT of MME
Secondary IPv4/v6 address
MME name
Relative MME capacity
S1 link status
Transport network identifier
HRPD ARFCN
HRPD Band Class
HRPD PN Offset
HRPD SectorID
Neighborship identifierHRPD
PS Handover allowed
LTE mobility management entity identifier
MCC in primary PLMN identity
MNC in primary PLMN identity
Handover allowed
LTE neighbor relation identifier
Neighbor relation control
Neighbor relation status
Cell individual offsets of other neighbor cells
Cell individual offset delta for load balancing
Identity of eNB in ECGI of related neighbor cell
Identity of cell in ECGI of related neighbor cell
• mcc• mnc• mncLength
Primary PLMN ID of eNB in ECGI of related neighbor cell
MNC length in primary PLMN identity
Cell identity
ENACC allowed
Location Area Code
GERAN neighbor relation identifier
Neighbor relation control
MCC
MNC
MNC Length
• mcc• mnc• mncLength
PLMN Identity in CGI of GERAN neighbor cell
Redirect with system information allowed
Single radio voice call continuity allowed
Circuit-switched fallback with PS handover allowed
WCDMA neighbor relation identifier
Neighbor relation control
MCC
MNC
MNC length
PS handover allowed
Target RNC Id
Neighbor 1x carrier frequency
Neighbor 1x band class
• mcc• mnc• mncLength
Primary PLMN identity in CGI of UTRAN neighbor cell
Single radio voice call continuity allowed
Target cell Id in UTRAN CGI of related neighbor cell
Neighbor 1x cell ID
E1xCSFB allowed
Neighbor 1x market ID
Neighbor 1x PN offset
Neighbor 1x sector ID
Neighbor 1x switch number
LTAC identifier
TAC limit GBR emergency
TAC limit GBR handover
TAC limit GBR normal
Transport Network Identifier
CDMA2000 1xRTT neighbor relation identifier
Additional spectrum emission
E-UTRA carrier frequency
MFBI profile identifier
Active
AISG protocol version
Alarm threshold level
Antenna band list
Antenna beamwidth
Antenna operating frequency band
Antenna operation gain
Antenna bearing
Additional E-UTRA frequency band indicator
• antBeamwidth• antOperFreqBand• antOperGain
Antenna model number
Antenna serial number
Antenna line identifier
Base station ID
Connection
Gain resolution
Installation date
Installers ID
LNA number
Maximum supported gain
Mast head amplifier alarm detection
Mast head amplifier gain
Mast head amplifier identifier
Mast head amplifier type
Minimum supported gain
Product code
3GPP realese ID
Scanned antenna interface
Sector ID
Serial number
Substance
TMA subunit receive frequency band max
TMA subunit receive frequency band min
TMA subunit transmit frequency band max
TMA subunit type
WMH connector
TMA subunit transmit frequency band min
• cdmaHrpdBdCl• idleLBHrpdCelResWeight
CDMA HRPD band list for idle mode load balancing
CDMA HRPD band class for idle mode load balancing
CDMA HRPD band weight factor idle mode load balancing
• cdmaRttBdCl• idleLBRttCelResWeight
CDMA 1xRTT band list for idle mode load balancing
CDMA 1xRTT band class for idle mode load balancing
CDMA 1xRTT band weight factor idle mode load balancing
• dlCarFrqEut• idleLBEutCelResWeight
EUTRA carrier list for idle mode load balancing
EUTRA carrier frequency for idle mode load balancing
EUTRA carrier weight factor idle mode load balancing
• geranBandInd• idleLBGeranCelResWeight
GERAN band parameters for idle mode load balancing
GERAN carrier freq band for idle mode load balancing
GERAN carrier weight factor idle mode load balancing
GERAN carrier freq list for idle mode load balancing
Idle mode mobility default profile identifier
• idleLBUtraFddCelResWeight• utrFddCarFrq
UTRA FDD carrier list for idle mode load balancing
UTRA-FDD carrier weight factor idle mode load balancing
UTRA FDD carrier freq for idle mode load balancing
Auto adaptation to freq. layers of all neighbour cells
Frequency layer list for high priority CSFB to WCDMA
Frequency layer list for normal priority CSFB to WCDMA
Frequency layer list for LTE inter frequency mobility
Mobility default profile identifier
Reference ARFCN
Reference ARFCN
Frequency layer list for packet switched handover WCDMA
Frequency layer list for SRVCC to WCDMA
Percentage of UE for idle mode load balancing
• bandIndicator• referenceARFCN
Reference freq. list network assisted cell change GERAN
Band indicator applied to reference ARFCN
• bandIndicator• referenceARFCN
Reference frequency list for SRVCC to GSM
Band indicator applied to reference ARFCN
Add GSM system information to redirection message
Redirection priority for CS fallback with redirection
CDMA band
CDMA frequency
eUTRA frequency
UTRA frequency
GERAN ARFCN values list
GERAN band indicator
RAT for redirection
Redirection priority for emergency call
Mobility default profile identifier for redirection
Redirection priority for UE context release
• cdmaHrpdBdCl• idleLBHrpdCelResWeight
CDMA HRPD band list for idle mode load balancing
CDMA HRPD band class for idle mode load balancing
Idle mode mobility profile identifier
CDMA HRPD band weight factor idle mode load balancing
• cdmaRttBdCl• idleLBRttCelResWeight
CDMA 1xRTT band list for idle mode load balancing
CDMA 1xRTT band class for idle mode load balancing
CDMA 1xRTT band weight factor idle mode load balancing
• dlCarFrqEut• idleLBEutCelResWeight
EUTRA carrier list for idle mode load balancing
EUTRA carrier frequency for idle mode load balancing
EUTRA carrier weight factor idle mode load balancing
• geranBandInd• idleLBGeranCelResWeight
GERAN band parameters for idle mode load balancing
GERAN carrier freq band for idle mode load balancing
GERAN carrier weight factor idle mode load balancing
GERAN carrier freq list for idle mode load balancing
Mobility profile identifier
• idleLBUtraFddCelResWeight• utrFddCarFrq
UTRA FDD carrier list for idle mode load balancing
UTRA-FDD carrier weight factor idle mode load balancing
UTRA FDD carrier freq for idle mode load balancing
Frequency layer list for high priority CSFB to WCDMA
Frequency layer list for normal priority CSFB to WCDMA
Frequency layer list for LTE inter frequency mobility
Frequency layer list for packet switched handover WCDMA
Frequency layer list for SRVCC to WCDMA
Percentage of UE for idle mode load balancing
• bandIndicator• referenceARFCN
Reference freq. list network assisted cell change GERAN
Band indicator applied to reference ARFCN
Reference ARFCN
Reference ARFCN
CDMA band
CDMA frequency
eUTRA frequency
UTRA frequency
• bandIndicator• referenceARFCN
Reference frequency list for SRVCC to GSM
Band indicator applied to reference ARFCN
Add GSM system information to redirection message
Redirection priority for CS fallback with redirection
Redirection priority for emergency call
Mobility profile identifier for redirection
GERAN ARFCN values list
GERAN band indicator
RAT for redirection
Activate ethernet security
GPS antenna altitude
Auto connection site ID from BTS
Auto configuration blocked
Redirection priority for UE context release
Auto connection hardware ID from BTS
Configuration data synchronization check
Configuration data synchronization check period
Autoconfiguration required by multiradio flexi BTS
Configuration data revision number
GPS antenna latitude
GPS antenna longitude
Multiradio flexi BTS site identifier
Passive unit list
Comment
Name
Product code
Serial number
Version
Shared RF technologies
• comment• name• prodCode• serNum• version
Reset multiradio flexi BTS to test dedicated state
Symptom data trigger list
Time zone
Unit list
Primary connection
Product code
Secondary connection
Unit name
Unit number
Variant
Cell identifier
Cell maximum active UEs traced
Cell trace mode
• primaryConnection• prodCode• secondaryConnection• unitName• unitNumber
• cellTaTracing Cell vendor specific tracing
Cell TA tracing
E-UTRAN trace identifier
MCC
MNC
MNC length
Trace ID
Trace recording session reference
Cell trace session identifier
3rd party tool cell trace port number
Trace collection entity IP address
Trace RRC msg category
• eutranTraceIdMcc• eutranTraceIdMnc• eutranTraceIdMncLen• traceId• trcRecSessionRef
Trace RRC non UE spec msg list
Trace RRC setting
Trace RRC UE spec msg list
Trace S1 msg category
Trace S1 non UE spec msg list
Trace S1 setting
Trace S1 UE spec msg list
Trace X2 msg category
Trace X2 non UE spec msg list
Trace X2 setting
Trace X2 UE spec msg list
Maintenance association identifier
Vlan Enabled flag
Maintenance domain identifier
Level of the maintenance domain
Name of the maintenance domain
AIS enabling flag
Ethernet link reference
Continuity Check Messages transmission period
Name of the maintenance association
VLAN identifier of the maintenance association
Allow sending of CCM messages and reset CCM counters
Maintenance association endpoint identifier
• macAddr• mepId
Maintenance association endpoints list
VLAN PCP bits
MAC address of the Maintenance Association End Point
Maintenance Association End Point identifier
Link OAM operational mode at local peer
Link OAM Link Critical Event Alarm clearance delay
Errored Frame Event counting threshold
Errored Frame Event counting interval
Errored Frame Period Event counting threshold
Errored Frame Period Event counting interval
Errored Frame Seconds Summary Event counting threshold
Errored Frame Seconds Summary Event counting interval
OAM PDU message transmission rate
Link OAM event support flag
Link OAM Profile Name
Link OAM link loopback duration
Loopback Supported
Profile instance identifier
PM common administration identifier
LTE cell availability
LTE cell load
LTE cell resource
Link OAM loopback test message rate
Link OAM loopback test message frame size
Performance measurement data reporting interval
LTE cell throughput
LTE EPS bearer
LTE intersystem handover
LTE inter eNB handover
LTE intra eNB handover
LTE handover
LTE power and quality DL
LTE power and quality UL
LTE QoS
LTE Handover to eHRPD per eHRPD bandclass
LTE inter system handover to GSM per neighbour cell
LTE inter system handover to UTRAN per neighbour cell
LTE RRC
LTE radio bearer
LTE S1AP
LTE transport load
LTE UE and service differentiation
LTE UE state
LTE X2AP
LTE eNB load
LTE neighbour cell related handover
Ethernet link measurement interval
Performance management RNL identifier
Ethernet IF statistics measurement interval
IPSec measurement interval
IP filtering measurement interval
IP statistics measurement interval
PHB statistics measurement interval
TAC statistics measurement interval
L2 switch statistics measurement interval
TOP FreqSync statistics measurement interval
TOP PhaseSync statistics measurement interval
TWAMP statistics measurement interval
VLAN IP statistics measurement interval
VLAN PHB statistics measurement interval
VLAN IF statistics measurement interval
Administrative state
PDH line type
PDH interface identifier
Diff Serve Code Point value
Per Hop Behaviour
VLAN priority bits
PHB counters enabling flag
Per Hop Behaviour queue weight list
Identifier of the performance management configuration
PDH line build out (transmitter signal attenuation)
• dscp• pHB• vlanPrio
Table for mapping DSCPs to PHBs and PCP bits
• assuredForwardingClass1• assuredForwardingClass2• assuredForwardingClass3• assuredForwardingClass4• bestEffort Assured Forwarding Class 1 Weight
Value
Best Effort Weight Value
Overwrite DSCP in SSE messages
Diff Service Code Point value
Traffic type name
Assured Forwarding Class 2 Weight Value
Assured Forwarding Class 3 Weight Value
Assured Forwarding Class 4 Weight Value
Quality of Service configuration identifier
• dscp• trafficType
Table for mapping traffic types to DSCPs
Add GSM system information to redirection message
Redirection priority for CS fallback with redirection
Redirection priority for emergency call
CDMA band
CDMA frequency
eUTRA frequency
UTRA frequency
GERAN ARFCN values list
GERAN band indicator
RAT for redirection
Active
Angle
Antenna band list
Redirection priority for UE context release
Redirection target configuration identifier
• antBeamwidth• antOperFreqBand• antOperGain
Antenna beamwidth
Antenna operating frequency band
Antenna operation gain
Antenna bearing
Antenna height
Antenna location
Antenna model number
Antenna serial number
Antenna technology
Antenna type
Antenna line identifier list
Base station ID
Calibrate
Calibration done
ConfigurationFile DL needed
Configuration done
Configuration file
Connection
HW version
Installation date
Installers ID
Manufacturer
Max angle
Mechanical angle
Min angle
Product code
3GPP realese ID
RET antenna unit number
RET device type
Remote electrical tilt identifier
Scanned antenna interface
Sector ID
Serial number
SW version
Climate control profiling
Connection list• linkId• positionInChain• sModId
RP3 link id
Position in chain
System module identifier
External alarm input signal list
Cancel delay for the alarm
Description
Line ID
Polarity
Severity
Start delay for the alarm
Used in EUTRA
External control signal list
• cancelDelay• descr• id• polarity• severity
• descr• id• inUse• initState
Description
Line ID
In use
Initial state
Link speed
Module location
Product code
Radio module reference id
Serial number
SCTP association failure retransmission counter
Maximum time to wait for a new SCTP establishment
SCTP path failure retransmission counter
Maximum retransmission timeout
Minimum retransmission timeout
SCTP heartbeat message interval
SCTP configuration identifier
Climate control profiling
External alarm input signal list
Cancel delay for the alarm
Description
Line ID
In use
Polarity
Severity
• cancelDelay• descr• id• inUse• polarity
Start delay for the alarm
External control signal list
Description
Line ID
In use
Initial state
Link list
Link id
Link speed
Radio master
Module location
Product code
• descr• id• inUse• initState
• linkId• linkSpeed• radioMaster
System module id
Serial number
Synchronization master
Technology
Protocol of the clock source
Clock source priority
SSM enabling flag
SSM message timeout
• clockProtocol• interfaceNumber• priority• ssmEnabled• ssmTimeout
The synchronization sources of the BTS
Interface number of recovered clock source
Unit Number of clock source interface
Synchronisation protection group identifier
TAC identifier
Log mean synchronization value
IP address of the ToP master
Accepted Clock Quality table
Log mean synchronization value
Phase Error Compensation
Clock synchronization configuration identifier
Time over Packet common configuration identifier
Feature Activation Flag ToP with freq synchronization
Time over Packet freq sync configuration identifier
Feature Activation Flag ToP with phase synchronization
Timing over Packet Communication Mode
PTP Domain Number
• masterIpAddr
IP Address of the ToP master
Lock or unlock a TWAMP session
TWAMP session destination port
TWAMP initiator message size
Packet loss ratio alarm threshold
Round-trip-time alarm threshold
ToP over Ethernet Multicast Address
Timing over Packet masters properties table
Time over Packet phase synchronisation configuration id
TWAMP session destination IP address
DSCP value for TWAMP message transmission
TWAMP session identifier
UTRA cell reselection timer
UTRA downlink frequency value
TWAMP initiator messages source IP address
• utrResTiFHM• utrResTiFMM
Speed-dependent scaling factors t-reselection UTRAN
UTRA cell reselection timer factor high mobility
UTRA cell reselection timer factor medium mobility
Utran FDD idle mode configuration identifier
• dlCarFrqUtra• idleLBUtranFddCelResWeight• pMaxUtra• qQualMinUtra• qRxLevMinUtra
List of UTRA FDD carrier frequencies
UTRA-FDD carrier weight factor idle mode load balancing
UTRA maximum allowed transmit power
UTRA minimum needed quality parameter
UTRA inter frequency threshold high
UTRA inter frequency threshold low
Uplink CoMP Cell List
Uplink CoMP SINR Threshold
Enable RP3-01 interface
UNIT identifier
Installed hardware unit type
UTRA minimum required receive level
UTRA carrier frequency absolute priority
UTRA inter-RAT quality threshold high (Rel9)
UTRA inter-RAT quality threshold low (Rel9)
Uplink coordinated multipoint identifier
Expected hardware unit type
CDMA2000 1xRTT band class
Day light savings time indicator
FPC FCH INIT SETPT for RC11
FPC FCH INIT SETPT for RC12
FPC FCH INIT SETPT for RC3
FPC FCH INIT SETPT for RC4
FPC FCH INITSETPT for RC5
GCSNAL2Ack timer indicator
CDMA2000 1xRTT auth mode indicator
CDMA2000 1xRTT auth mode indicator included
Include day light savings time indicator
IMSI 11th and 12th digit
IMSI T supported
Leap second
Leap seconds included
Local time offset
Local time offset included
Mobile country code
1x protocol revision
GCSNA sequence context timer indicator
CDMA2000 1xRTT home registration included
CDMA2000 1xRTT max number of alt SO
CDMA2000 1xRTT minimum protocol revision
Pilot increment
Pilot increment included
Subnet mask for local IP address
PFS Diffie-Hellman group
Subnet mask for remote IP address
Preferred mobile station identifier type
CDMA2000 1xRTT mobility parameters identifier
CDMA HRPD band priority for idle mode load balancing
CDMA 1xRTT band priority for idle mode load balancing
GERAN carrier freq prio for idle mode load balancing
Identifier of the ethernet based IP interface
Link OAM remote loopback discovery enabling flag
Emergency area ID
TAC activity factor
Exclude layer 2 overhead
Carrier frequency priority for idle mode load balancing
Cell reselection priority for idle mode load balancing
Enable closed loop uplink power control
Include PUCCH measurements in CL power control
Include PUSCH measurements in CL power control
Include SRS measurements In CL power control
Average Packet Size For QCI Value 2
Average Packet Size For QCI Value 3
Average Packet Size For QCI Value 4
Used in GERAN
CDMA HRPD band class prio for idle mode load balancing
CDMA RTT band class prio for idle mode load balancing
EUTRA carrier freq prio for idle mode load balancing
GERAN carrier freq prio for idle mode load balancing
UTRA FDD carrier freq prio for idle mode load balancing
CDMA HRPD band class prio idle mode load balancing
CDMA 1xRTT band class prio for idle mode load balancing
EUTRA carrier freq prio for idle mode load balancing
GERAN carrier freq prio for idle mode load balancing
UTRA FDD carrier freq prio for idle mode load balancing
UTRA-FDD carrier freq prio for idle mode load balancing
3GPP Name Data Type Multiplicity
Number 1
Enumeration 1
Number 1
String 1
Boolean 1
Number 1
Number 1
Number 1
RSRQ Number 1
Number 1
Number 1
Number 1
Number 1
Number 6
Boolean 1
Structure 1
Enumeration 1
Enumeration 1
Enumeration 1
Number 1
Structure 256
Number 1
Number 1
Structure 1
Enumeration 1
Enumeration 1
Enumeration 1
carrierFreq Number 1
Number 1
Boolean 1
Enumeration 1
Number 1
Number 1
Number 1
Boolean 1
Enumeration 1
String 1
Number 1
Number 1
Number 1
Number 1
Boolean 1
Boolean 1
String 1
Number 1
String 1
Number 1
String 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
Structure 100
Number 1
Number 1
Number 1
Enumeration 1
Boolean 1
Number 1
String 1
Enumeration 1
Number 1
Boolean 1
Boolean 1
Boolean 1
Enumeration 1
Boolean 1
Boolean 1
Number 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Number 1
Number 1
Boolean 1
Number 1
Number 1
Structure 1
foreignNIDReg Boolean 1
foreignSIDReg Boolean 1
homeReg Boolean 1
multipleNID Boolean 1
multipleSID Boolean 1
nid Number 1
parameterReg Boolean 1
powerDownReg Boolean 1
powerUpReg Boolean 1
registrationPeriod Number 1
registrationZone Number 1
sid Number 1
totalZone Number 1
zoneTimer Enumeration 1
Structure 1
preRegistrationAllowed Boolean 1
preRegistrationZoneId Number 1
secondaryPreRegistrationZoneIdList Number 1
secondaryPreRegistrationZoneIdList Number 1
bandClassList Structure 5
bandClass Enumeration 1
cellReselectionPriority Number 1
thresX-High Number 1
thresX-Low Number 1
Number 1
neighCellList Structure 32
arfcn Number 1
bandClass Enumeration 1
PhysCellIdCDMA2000 Number 1
Enumeration 1
bandClassList Structure 5
Number 1
bandClass Enumeration 1
cellReselectionPriority Number 1
thresX-High Number 1
thresX-Low Number 1
neighCellList Structure 40
arfcn Number 1
bandClass Enumeration 1
PhysCellIdCDMA2000 Number 1
Enumeration 1
searchWindowSize Number 1
t-ReselectionCDMA2000 Number 1
t-ReselectionCDMA2000-SF Structure 1
sf-High Enumeration 1
sf-Medium Enumeration 1
t-ReselectionCDMA2000 Number 1
t-ReselectionCDMA2000-SF Structure 1
sf-High Enumeration 1
sf-Medium Enumeration 1
Structure 26
String 1
String 1
String 1
String 1
String 1
String 1
String 1
Enumeration 1
Structure 20
String 1
String 1
Structure 40
Enumeration 1
String 1
Enumeration 1
String 1
String 1
Number 1
String 1
String 1
Enumeration 1
Number 1
Number 1
String 1
Number 1
String 1
String 1
Number 1
Number 1
Number 1
Enumeration 1
Number 1
Structure 6
Number 1
Number 1
Number 1
Number 1
Structure 4
Number 1
Number 1
Number 1
Structure 1
Boolean 1
Boolean 1
Number 1
String 1
Number 1
Number 1
Structure 1
Enumeration 1
Enumeration 1
Boolean 1
Structure 1
Boolean 1
Enumeration 1
Enumeration 1
String 1
Number 1
Enumeration 1
Enumeration 1
Structure 16
Number 1
Number 1
Boolean 1
String 1
String 1
Number 1
Number 1
Enumeration 1
Number 1
String 1
String 1
String 1
String 1
Number 1
t-ReselectionGERAN Number 1
t-ReselectionGERAN-SF Structure 1
sf-High Enumeration 1
sf-Medium Enumeration 1
bandIndicator Enumeration 1
cellReselectionPriority Number 1
GERAN-ARFCN-Value Number 32
thresX-High Number 1
thresX-Low Number 1
Number 1
Number 1
ncc-Permitted Bitmask 1
p-MaxGERAN Number 1
q-RxLevMin Number 1
Number 1
N3-REQUESTS Number 1
Number 1
T3-RESPONSE Number 1
Structure 32
String 1
Number 1
Number 1
IntraFreqBlacklistedCellList Structure 16
range Enumeration 1
start Number 1
intraFreqNeighCellList Structure 16
physicalCellId Number 1
q-OffsetCell Enumeration 1
Number 1
String 1
String 1
Number 1
String 1
String 1
Number 1
Number 1
String 1
Boolean 1
Number 1
Number 1
Number 1
Number 1
Enumeration 1
Boolean 1
Number 1
Structure 10
String 1
String 1
Number 1
Structure 10
String 1
String 1
Structure 1
String 1
String 1
Number 1
String 3
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Structure 1
String 1
String 1
String 1
String 1
Number 1
Number 1
Number 1
String 1
String 1
String 1
Enumeration 1
Boolean 1
String 1
String 1
Boolean 1
Number 1
String 1
Number 1
String 1
Boolean 1
Enumeration 1
String 1
Number 1
String 1
String 1
Enumeration 1
Enumeration 1
Enumeration 1
Structure 48
String 1
Boolean 1
Boolean 1
Enumeration 1
Number 1
String 1
String 1
Number 1
Structure 32
Enumeration 1
String 1
String 1
String 1
Number 1
Number 1
Structure 128
Number 1
String 1
String 1
String 1
Number 1
Number 1
Structure 128
Number 1
String 1
Number 1
String 1
Number 1
String 1
Boolean 1
Enumeration 1
Number 1
Enumeration 1
Boolean 1
Number 1
Structure 250
Boolean 1
Enumeration 1
Number 1
Number 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
String 1
Number 1
Number 1
String 1
Number 1
Number 1
String 1
Number 1
Number 1
String 1
Number 1
dl-CarrierFreq Number 1
cellReselectionPriority Number 1
Number 1
InterFreqBlackCellList Structure 16
range Enumeration 1
start Number 1
interFreqNeighCellList Structure 16
physicalCellId Number 1
q-OffsetCell Enumeration 1
Structure 1
Number 1
Number 1
thresX-High Number 1
thresX-Low Number 1
presenceAntennaPort1 Boolean 1
t-ReselectionEUTRA Number 1
Number 1
allowedMeas Bandwidth Enumeration 1
p-Max Number 1
q-OffsetFreq Enumeration 1
Number 1
q-RxLevMin Number 1
t-ReselectionEUTRA-SF Structure 1
sf-High Enumeration 1
sf-Medium Enumeration 1
String 1
String 1
Number 1
String 1
Boolean 1
Number 1
Number 1
Number 1
Number 1
Number 1
Structure 64
Number 1
Number 1
Boolean 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Enumeration 1
Number 1
Boolean 1
Number 1
Number 1
Structure 4
Number 1
Number 1
Enumeration 1
Number 1
Number 1
String 1
Enumeration 1
GU-Group-ID Structure 32
Number 1
mME-Group-ID Number 1
Number 1
Number 1
Number 1
Structure 1
Number 1
Number 1
Number 1
Enumeration 1
arfcn Number 1
bandIndicator Enumeration 1
baseStationColourCode Number 1
Boolean 1
CI Number 1
LAC Number 1
RAC Number 1
Number 1
MCC Number 1
MNC Number 1
MNC Number 1
networkColourCode Number 1
networkControlOrder Enumeration 1
Enumeration 1
SystemInfoListGeran String 10
systemInformation Enumeration 1
pLMN-Identity Structure 6
Number 1
Number 1
Number 1
cyclicPrefixDL Enumeration 1
cyclicPrefixUL Enumeration 1
dL-Transmission-Bandwidth Enumeration 1
Number 1
Number 1
Structure 1
Number 1
Number 1
Number 1
Number 1
uL-EARFCN Number 1
Number 1
Number 1
Enumeration 1
specialSubframePatterns Enumeration 1
Number 1
transmission-Bandwidth Enumeration 1
subframeAssignment Enumeration 1
uL-Transmission-Bandwidth Enumeration 1
Number 1
Structure 1
Number 1
Number 1
Number 1
secondaryPlmnIdL Structure 5
MCC Number 1
MNC Number 1
Number 1
Enumeration 1
SRVCC HO Indication Enumeration 1
Number 1
Number 1
LAC Number 1
RAC Number 1
RNC-ID Number 1
PhysCellIdentityUTRA-FDD Number 1
CarrierFreqCDMA2000 Number 1
CarrierFreqCDMA2000 Enumeration 1
Number 1
Number 1
Number 1
PhysCellIdCDMA2000 Number 1
Number 1
Number 1
Boolean 1
Boolean 1
Boolean 1
Enumeration 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
E-RAB MODIFY REQUEST Boolean 1
Boolean 1
Enumeration 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Enumeration 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
MME selection function Boolean 1
Boolean 1
Boolean 1
Enumeration 1
Boolean 1
Enumeration 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Structure 1
pollByte Enumeration 1
ue-Category Number 1
pollByte Enumeration 1
Structure 1
pollByte Enumeration 1
ue-Category Number 1
pollByte Enumeration 1
Structure 1
pollByte Enumeration 1
ue-Category Number 1
pollByte Enumeration 1
Structure 1
pollByte Enumeration 1
ue-Category Number 1
pollByte Enumeration 1
Structure 1
pollByte Enumeration 1
ue-Category Number 1
pollByte Enumeration 1
Number 1
Boolean 1
Enumeration 1
Structure 6
Number 1
Number 1
Number 1
String 1
Number 1
Structure 1
Number 1
Number 1
Number 1
Number 1
Enumeration 1
Number 1
Number 1
Enumeration 1
Enumeration 1
eNB Name String 1
Number 1
Structure 256
Macro eNB ID Number 1
MCC Number 1
MNC Number 1
Number 1
Structure 1
Number 1
Number 1
Structure 32
Boolean 1
Boolean 1
QOS rule information: ARP Number 1
Boolean 1
MCC Number 1
MNC Number 1
Number 1
Structure 1
Number 1
Number 1
Number 1
Number 1
Number 1
Macro eNB Id Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Enumeration 1
Number 1
Boolean 1
Enumeration 1
Number 1
Structure 1
Boolean 1
Boolean 1
prioritisedBitRate Enumeration 1
Structure 200
EARFCN Number 1
Macro eNB ID Number 1
String 1
MCC Number 1
MNC Number 1
Number 1
PhysCellId Number 1
Structure 1
Number 1
Bitmask 1
discardTimer Enumeration 1
Structure 1
Number 1
maxCID Number 1
pdcp-SN-Size Enumeration 1
discardTimer Enumeration 1
Structure 1
Number 1
pdcp-SN-Size Enumeration 1
discardTimer Enumeration 1
Structure 1
Number 1
pdcp-SN-Size Enumeration 1
discardTimer Enumeration 1
Structure 1
Number 1
pdcp-SN-Size Enumeration 1
discardTimer Enumeration 1
Structure 1
Number 1
statusReportRequired Bitmask 1
discardTimer Enumeration 1
Structure 1
Number 1
statusReportRequired Bitmask 1
discardTimer Enumeration 1
Structure 1
Number 1
statusReportRequired Bitmask 1
discardTimer Enumeration 1
Structure 1
Number 1
statusReportRequired Bitmask 1
discardTimer Enumeration 1
Enumeration 1
Enumeration 1
Boolean 1
Boolean 1
Structure 1
Enumeration 1
Enumeration 1
Number 1
ttiBundling Boolean 1
logicalChannelGroup Number 1
E-RAB Guaranteed Bit Rate Number 1
E-RAB Guaranteed Bit Rate Number 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Structure 1
Enumeration 1
Enumeration 1
Number 1
ttiBundling Boolean 1
Number 1
Number 1
logicalChannelGroup Enumeration 1
E-RAB Guaranteed Bit Rate Number 1
E-RAB Guaranteed Bit Rate Number 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Structure 1
Enumeration 1
Enumeration 1
Number 1
ttiBundling Boolean 1
Number 1
Number 1
logicalChannelGroup Enumeration 1
E-RAB Guaranteed Bit Rate Number 1
E-RAB Guaranteed Bit Rate Number 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Structure 1
Enumeration 1
Enumeration 1
Number 1
ttiBundling Boolean 1
Number 1
Number 1
logicalChannelGroup Enumeration 1
E-RAB Guaranteed Bit Rate Number 1
E-RAB Guaranteed Bit Rate Number 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Structure 1
Enumeration 1
Number 1
ttiBundling Boolean 1
logicalChannelGroup Enumeration 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Enumeration 1
Number 1
Structure 1
Enumeration 1
Number 1
ttiBundling Boolean 1
logicalChannelGroup Enumeration 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Number 1
Structure 1
Enumeration 1
Number 1
ttiBundling Boolean 1
logicalChannelGroup Enumeration 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Number 1
Structure 1
Enumeration 1
Number 1
ttiBundling Boolean 1
logicalChannelGroup Enumeration 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Number 1
Structure 1
Enumeration 1
Number 1
ttiBundling Boolean 1
logicalChannelGroup Enumeration 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Number 1
Structure 21
Number 1
Enumeration 1
Enumeration 1
Number 1
ttiBundling Boolean 1
Number 1
Number 1
logicalChannelGroup Enumeration 1
E-RAB Guaranteed Bit Rate Number 1
E-RAB Guaranteed Bit Rate Number 1
Number 1
Priority Number 1
QCI Number 1
Enumeration 1
Resource Type Enumeration 1
RLC mode Enumeration 1
Number 1
bucketSizeDuration Enumeration 1
priority Number 1
Number 1
Enumeration 1
Number 1
Enumeration 1
Structure 1
t-PollPDU Enumeration 1
Number 1
t-PollRetransmit Enumeration 1
t-StatusProhibit Enumeration 1
t-Reordering Enumeration 1
Structure 1
Number 1
sn-FieldLength Enumeration 1
sn-FieldLength Enumeration 1
t-Reordering Enumeration 1
Structure 1
Number 1
sn-FieldLength Enumeration 1
sn-FieldLength Enumeration 1
t-Reordering Enumeration 1
Structure 1
Number 1
sn-FieldLength Enumeration 1
sn-FieldLength Enumeration 1
t-Reordering Enumeration 1
Structure 1
Number 1
sn-FieldLength Enumeration 1
sn-FieldLength Enumeration 1
t-Reordering Enumeration 1
Structure 1
t-PollPDU Enumeration 1
Number 1
t-PollRetransmit Enumeration 1
t-StatusProhibit Enumeration 1
t-Reordering Enumeration 1
Structure 1
t-PollPDU Enumeration 1
Number 1
t-PollRetransmit Enumeration 1
t-StatusProhibit Enumeration 1
t-Reordering Enumeration 1
Structure 1
t-PollPDU Enumeration 1
Number 1
t-PollRetransmit Enumeration 1
t-StatusProhibit Enumeration 1
t-Reordering Enumeration 1
Structure 1
t-PollPDU Enumeration 1
Number 1
t-PollRetransmit Enumeration 1
t-StatusProhibit Enumeration 1
t-Reordering Enumeration 1
Number 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Number 1
Number 1
Enumeration 1
Structure 16
physCellId-r9 Number 1
utra-BCCH-Container-r9 String 1
Number 1
Number 1
T(RIR) Number 1
TS1RELOCprep Number 1
tS1relocprep Number 1
TS1RELOCprep Number 1
Number 1
Number 1
Number 1
Boolean 1
Enumeration 1
Number 1
Enumeration 1
timeToTrigger Enumeration 1
timeToTrigger Enumeration 1
timeToTrigger Enumeration 1
TimeToTrigger Enumeration 1
TimeToTrigger Enumeration 1
TimeToTrigger Enumeration 1
Number 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
ac-BarringForCSFB-r10 Structure 1
ac-BarringForSpecialAC Bitmask 1
ac-BarringTime Enumeration 1
ac-BarringFactor Enumeration 1
ssac-BarringForMMTEL-Video-r9 Structure 1
ac-BarringForSpecialAC Bitmask 1
ac-BarringTime Enumeration 1
ac-BarringFactor Enumeration 1
ssac-BarringForMMTEL-Voice-r9 Structure 1
ac-BarringForSpecialAC Bitmask 1
ac-BarringTime Enumeration 1
ac-BarringFactor Enumeration 1
ac-BarringForMO-Data Structure 1
ac-BarringForSpecialAC Bitmask 1
ac-BarringTime Enumeration 1
ac-BarringFactor Enumeration 1
ac-BarringForMO-Signalling Structure 1
ac-BarringForSpecialAC Bitmask 1
ac-BarringTime Enumeration 1
ac-BarringFactor Enumeration 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Enumeration 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Enumeration 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Enumeration 1
Enumeration 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
additionalSpectrumEmission Number 1
Enumeration 1
RSCP Number 1
Enumeration 1
intraFreqBlackCellList Structure 502
Enumeration 1
carrierFreq Number 1
range Enumeration 1
start Number 1
Number 1
Structure 1
Number 1
Number 1
Number 1
Number 1
t-ReselectionEUTRA-SF Structure 1
sf-High Enumeration 1
sf-Medium Enumeration 1
cellBarred Enumeration 1
Cell Capacity Class Value Number 1
cellIndividualOffset Enumeration 1
String 1
cellReselectionPriority Number 1
String 1
Number 1
Enumeration 1
CellSelectionInfo-v920 Structure 1
q-QualMinOffset-r9 Number 1
q-QualMin-r9 Number 1
ISR (Tab.10.1-5) sr-ConfigIndex Enumeration 1
Cell Size Enumeration 1
Boolean 1
cqi-ReportingModeAperiodic Enumeration 1
Np Enumeration 1
K Number 1
simultaneousAckNackAndCQI Boolean 1
deltaFList-PUCCH Structure 1
deltaF-PUCCH-Format1 Enumeration 1
deltaF-PUCCH-Format1b Enumeration 1
deltaF-PUCCH-Format2 Enumeration 1
deltaF-PUCCH-Format2a Enumeration 1
deltaF-PUCCH-Format2b Enumeration 1
dsr-TransMax Enumeration 1
defaultPagingCycle Enumeration 1
Number 1
Number 1
deltaPUCCH-Shift Number 1
deltaMCS-Enabled Boolean 1
Boolean 1
Number 1
Channel bandwidth Enumeration 1
Boolean 1
Number 1
Enumeration 1
Enumeration 1
Boolean 1
DlPathlossChange Enumeration 1
Number 1
Number 1
Enumeration 1
Number 1
Number 1
Boolean 1
Number 1
Enumeration 1
Enumeration 1
Number 1
Enumeration 1
Boolean 1
DRX-Config Structure 1
Enumeration 1
Number 1
DRX-Config Structure 1
drx-InactivityTimer Enumeration 1
DRX Cycle, longDrx-Cycle Enumeration 1
onDurationTimer Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
Structure 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Number 1
Enumeration 1
DRX-Config Structure 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
DRX-Config Structure 1
drx-InactivityTimer Enumeration 1
DRX Cycle, longDrx-Cycle Enumeration 1
onDurationTimer Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
DRX-Config Structure 1
drx-InactivityTimer Enumeration 1
DRX Cycle, longDrx-Cycle Enumeration 1
onDurationTimer Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
DRX-Config Structure 1
drx-InactivityTimer Enumeration 1
DRX Cycle. longDrx-Cycle Enumeration 1
onDurationTimer Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
DRX-Config Structure 1
drx-InactivityTimer Enumeration 1
DRX Cycle, longDrx-Cycle Enumeration 1
onDurationTimer Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
DRX-Config Structure 1
drx-InactivityTimer Enumeration 1
DRX Cycle, longDrx-Cycle Enumeration 1
onDurationTimer Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
DRX Cycle, shortDrx-Cycle Enumeration 1
DRX Cycle, shortDrxCycleTimer Number 1
Number 1
DRX-Config Structure 1
drx-InactivityTimer Enumeration 1
DRX Cycle, longDrx-Cycle Enumeration 1
onDurationTimer Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
DRX Cycle, shortDrx-Cycle Enumeration 1
DRX Cycle, shortDrxCycleTimer Number 1
Number 1
DRX-Config Structure 1
drx-InactivityTimer Enumeration 1
DRX Cycle. longDrx-Cycle Enumeration 1
onDurationTimer Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
DRX Cycle, shortDrx-Cycle Enumeration 1
DRX Cycle, shortDrxCycleTimer Number 1
Number 1
DRX-Config Structure 1
drx-InactivityTimer Enumeration 1
DRX Cycle, longDrx-Cycle Enumeration 1
onDurationTimer Enumeration 1
Enumeration 1
Number 1
drx-RetransmissionTimer Enumeration 1
DRX Cycle, shortDrx-Cycle Enumeration 1
DRX Cycle, shortDrxCycleTimer Number 1
Number 1
ac-BarringForEmergency Enumeration 1
Structure 8
Number 1
CDMA2000 Sector ID String 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
EARFCN Number 1
EARFCN Number 1
Emergency Area ID Number 15
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
Boolean 1
eUTRANcellIdentifier Number 1
E-UTRANAccessPointPosition Structure 1
altitude Number 1
confidence Number 1
latitude Number 1
longitude Number 1
directionOfAltitude Enumeration 1
latitudeSign Enumeration 1
orientationOfMajorAxis Number 1
uncertaintyAltitude Number 1
uncertaintySemi-major Number 1
uncertaintySemi-minor Number 1
Number 1
Number 1
filterCoefficient Enumeration 1
filterCoefficient Enumeration 1
filterCoefficient Enumeration 1
filterCoefficient Enumeration 1
filterCoefficient Enumeration 1
filterCoefficientRSRP Enumeration 1
filterCoefficientRSRQ Enumeration 1
filterCoefficient Enumeration 1
plmn-IdentityList Structure 5
cellReservedForOperatorUse Enumeration 1
mcc Number 1
mnc Number 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
maxHARQ-Tx Number 1
maxHARQ-Tx Number 1
Enumeration 1
Structure 1
Number 1
Number 1
Number 1
HST Scenario Enumeration 1
hysteresis Number 1
hysteresis Number 1
hysteresis Number 1
hysteresis Number 1
hysteresis Number 1
hysteresis Number 1
hysteresis Number 1
hysteresis Number 1
Structure 1
Number 1
Number 1
Number 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
intraFrequencyReselection Enumeration 1
presenceAntennaPort1 Boolean 1
Number 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Enumeration 1
measQuantityUTRA-FDD Enumeration 1
measQuantityUTRA-FDD Enumeration 1
Structure 1
Number 1
Number 1
Number 1
Number 1
Structure 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Structure 128
Number 1
Number 1
Number 1
n-CellChangeHigh Number 1
n-CellChangeMedium Number 1
t-Evaluation Enumeration 1
t-HystNormal Enumeration 1
modificationPeriodCoeff Enumeration 1
n1PucchAn Number 1
n310 Enumeration 1
n311 Enumeration 1
nRB-CQI Number 1
offsetFreq Enumeration 1
Enumeration 1
P0_NOMINAL_PUCCH Number 1
P0_NOMINAL_PUSCH(j=1) Number 1
Pmax Number 1
p-Max Number 1
p-Max Number 1
nB Enumeration 1
Enumeration 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
PUCCH CQI Feedback Type Enumeration 1
Structure 1
Boolean 1
Enumeration 1
ReportAmount Enumeration 1
ReportInterval Enumeration 1
phich-Duration Enumeration 1
phich-Resource Enumeration 1
Number 1
ZeroCorrelationZoneConfig Number 1
prach-ConfigurationIndex Number 1
prach-FrequencyOffset Number 1
highSpeedFlag Boolean 1
powerRampingStep Enumeration 1
preambleTransMax Enumeration 1
cellReservedForOperatorUse Enumeration 1
prs-Bandwidth Enumeration 1
prs-ConfigurationIndex Enumeration 1
prs-MutingInfo Structure 1
prs-MutingInfo Bitmask 1
Enumeration 1
numDL-Frames Number 1
Number 1
nCS-AN Number 1
Number 1
Number 1
Number 1
q-Hyst Enumeration 1
q-QualMin-r9 Number 1
q-RxLevMinOffset Number 1
q-RxLevMin Number 1
q-RxLevMin Number 1
Contention Resolution Timer Enumeration 1
Number 1
messagePowerOffsetGroupB Enumeration 1
Enumeration 1
sizeOfRA-PreambleGroupA Enumeration 1
Enumeration 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
Boolean 1
Boolean 1
Boolean 1
Number 1
Structure 1
Number 1
Number 1
Boolean 1
Boolean 1
Enumeration 1
Number 1
Number 1
Structure 1
reportInterval Enumeration 1
timeToTrigger Enumeration 1
hysteresis Number 1
a2-Threshold Number 1
threshold-RSRQ Number 1
Structure 1
Enumeration 1
Number 1
Number 1
Number 1
Enumeration 1
Structure 1
Number 1
Number 1
Number 1
Number 1
s-IntraSearch-v920 Structure 1
s-IntraSearchP-r9 Number 1
s-IntraSearchQ-r9 Number 1
s-IntraSearch Number 1
s-NonIntraSearch-v920 Structure 1
s-NonIntraSearchP-r9 Number 1
s-NonIntraSearchQ-r9 Number 1
s-NonIntraSearch Number 1
si-WindowLength Enumeration 1
Structure 1
si-Periodicity Enumeration 1
Number 1
SIB-Type Enumeration 1
Structure 1
si-Periodicity Enumeration 1
Number 1
SIB-Type Enumeration 1
Structure 8
Enumeration 1
Number 1
Enumeration 1
speedStateReselectionPars Structure 1
n-CellChangeHigh Number 1
n-CellChangeMedium Number 1
sf-High Enumeration 1
sf-Medium Enumeration 1
t-Evaluation Enumeration 1
t-HystNormal Enumeration 1
Number 1
Number 1
Number 1
pSRS-Offset Number 1
Number 1
Enumeration 1
t300 Enumeration 1
t301 Enumeration 1
t302 Number 1
t304 Enumeration 1
T304 Enumeration 1
t304 Enumeration 1
T304 Enumeration 1
t310 Enumeration 1
t311 Enumeration 1
cellReselectionPriorityExpiryTimer Enumeration 1
extendedWaitTime Number 1
Number 1
PeriodicBsrTime Enumeration 1
PeriodicPPHRtimer Enumeration 1
ProhibitedPHRTimer Enumeration 1
Enumeration 1
t-ReselectionEUTRAN Number 1
Tstore_UE_cntxt Number 1
Number 1
timeAlignmentTimer Enumeration 1
Number 1
trackingAreaCode Number 1
threshServingLowQ-r9 Number 1
threshServingLow Number 1
s-Measure Number 1
a2-Threshold Number 1
a2-Threshold Number 1
threshold-RSRP Number 1
a2-Threshold Number 1
a1-Threshold Number 1
a5-Threshold1 Number 1
a5-Threshold2 Number 1
threshold-RSRP Number 1
timeToTrigger-SF Enumeration 1
timeToTrigger-SF Enumeration 1
Number 1
Number 1
Number 1
Channel bandwidth Enumeration 1
Enumeration 1
Number 1
Number 1
Boolean 1
Number 1
Number 1
alpha Enumeration 1
Structure 1
P0_PUSCH,c Number 1
Number 1
Number 1
Number 1
Number 1
preambleInitialReceivedTargetPower Enumeration 1
Structure 1
Number 1
Number 1
Number 1
Number 1
Structure 1
Number 1
Number 1
Number 1
Number 1
deltaMsg2 Number 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
Structure 2
Number 1
Number 1
Enumeration 1
UplinkPowerControlCommon-v1020 Structure 1
deltaF-PUCCH-Format1bCS-r10 Enumeration 1
deltaF-PUCCH-Format3-r10 Enumeration 1
Number 1
String 1
Enumeration 1
Number 1
Number 1
Number 1
Number 1
explicitListOfARFCNs Number 32
b2-Threshold1 Number 1
b2-Threshold2GERAN Number 1
timeToTrigger Enumeration 1
bandIndicator Enumeration 1
hysteresis Number 1
Number 1
ncc-Permitted Bitmask 1
reportInterval Enumeration 1
b2-Threshold1 Number 1
b2-Threshold2CDMA2000 Number 1
timeToTrigger Enumeration 1
CarrierFreqCDMA2000 Structure 1
CarrierFreqCDMA2000 Number 1
CarrierFreqCDMA2000 Enumeration 1
Number 1
preRegistrationAllowed Boolean 1
searchWindowSize Number 1
hysteresis Number 1
Number 1
offsetFreq Number 1
reportInterval Enumeration 1
a3-Offset Number 1
a3-Offset Number 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Number 1
hysteresis Number 1
hysteresis Number 1
hysteresis Number 1
presenceAntennaPort1 Boolean 1
Number 1
Enumeration 1
Enumeration 1
offsetFreq Enumeration 1
a5-Threshold1 Number 1
a5-Threshold2 Number 1
Number 1
Number 1
utra-EcN0 Number 1
utra-RSCP Number 1
timeToTrigger Enumeration 1
b2-Threshold1 Number 1
utra-EcN0 Number 1
utra-RSCP Number 1
timeToTrigger Enumeration 1
hysteresis Number 1
hysteresis Number 1
Number 1
Number 1
offsetFreq Number 1
reportInterval Enumeration 1
carrierFreq Number 1
Number 1
CarrierFreqCDMA2000 Structure 1
CarrierFreqCDMA2000 Number 1
CarrierFreqCDMA2000 Enumeration 1
Number 1
searchWindowSize Number 1
Number 1
Structure 32
Number 1
Number 1
Number 1
Enumeration 1
String 1
String 1
Number 1
MME Name String 1
Relative MME Capacity Number 1
Enumeration 1
Number 1
CarrierFreqCDMA2000 Number 1
CarrierFreqCDMA2000 Enumeration 1
PhysCellIdCDMA2000 Number 1
CDMA2000 Sector ID String 1
Number 1
Enumeration 1
cellIndividualOffset Enumeration 1
Number 1
Number 1
Number 1
Structure 1
Number 1
Number 1
Number 1
Enumeration 1
Number 1
Enumeration 1
Enumeration 1
CI Number 1
Enumeration 1
LAC Number 1
Number 1
Enumeration 1
Structure 1
Number 1
Number 1
Number 1
Enumeration 1
Enumeration 1
Enumeration 1
Number 1
Enumeration 1
Structure 1
Number 1
Number 1
Number 1
Enumeration 1
Enumeration 1
Number 1
Number 1
CarrierFreqCDMA2000 Number 1
CarrierFreqCDMA2000 Enumeration 1
Number 1
Enumeration 1
Number 1
Number 1
PhysCellIdCDMA2000 Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
FreqBandIndicator Number 1
AdditionalSpectrumEmission Number 1
Number 1
Number 1
Boolean 1
Number 1
Number 1
Structure 4
Number 1
Antenna operating band(s) Enumeration 1
Number 1
Antenna Bearing Number 1
Beamwidth in each operating band in band order
Gain in each operating band in band order
Antenna model number String 1
Antenna serial number String 1
Number 1
Base Station ID String 1
Enumeration 1
Number 1
Installation Date String 1
Installer's ID String 1
Enumeration 1
Number 1
Boolean 1
Number 1
Number 1
Enumeration 1
Number 1
String 1
Number 1
Enumeration 1
Sector ID String 1
String 1
Number 1
TMA Subunit receive frequency band Number 1
TMA Subunit receive frequency band Number 1
TMA Subunit transmit frequency band Number 1
TMA Subunit transmit frequency band Number 1
TMA Subunit type Bitmask 1
Enumeration 1
bandClassPriorityListHRPD Structure 32
bandClass Enumeration 1
Number 1
bandClassPriorityList1xRTT Structure 32
bandClass Enumeration 1
Number 1
freqPriorityListEUTRA Structure 8
carrierFreq Number 1
Number 1
Structure 1
bandIndicator Enumeration 1
Number 1
Number 32
Number 1
freqPriorityListUTRA-FDD Structure 16
Number 1
carrierFreq Number 1
Boolean 1
Number 32
Number 32
Number 32
Number 32
Number 32
Number 1
Number 1
Structure 16
Enumeration 1
Number 1
Structure 16
Enumeration 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
Number 32
Enumeration 1
Enumeration 1
Number 1
bandClassPriorityListHRPD Structure 32
bandClass Enumeration 1
Number 1
bandClassPriorityList1xRTT Structure 32
bandClass Enumeration 1
Number 1
freqPriorityListEUTRA Structure 8
carrierFreq Number 1
Number 1
Structure 1
bandIndicator Enumeration 1
Number 1
Number 32
Number 1
freqPriorityListUTRA-FDD Structure 16
Number 1
carrierFreq Number 1
Number 32
Number 32
Number 32
Number 32
Number 32
Number 1
Number 1
Structure 16
Enumeration 1
Number 1
Structure 16
Enumeration 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
Enumeration 1
Number 1
Number 1
Number 1
Number 32
Enumeration 1
Enumeration 1
Number 1
Boolean 1
Number 1
String 1
String 1
Boolean 1
String 1
Number 1
Boolean 1
Number 1
Number 1
Number 1
Number 1
Structure 100
String 1
String 1
String 1
String 1
String 1
Boolean 1
Enumeration 1
Number 20
Enumeration 1
Structure 200
Enumeration 1
String 1
Enumeration 1
String 1
Number 1
String 1
Number 1
Number 1
Boolean 1
Structure 1
Boolean 1
E-UTRAN Trace ID Structure 1
MCC Number 1
MCC Number 1
Number 1
Trace ID Number 1
Trace Recording Session Reference Number 1
Number 1
Number 1
Trace Collection Entity IP Address String 1
Enumeration 1
Number 10
Enumeration 1
Number 35
Enumeration 1
Number 30
Enumeration 1
Number 50
Enumeration 1
Number 25
Enumeration 1
Number 10
Number 1
Enumeration 1
String 1
Boolean 1
Number 1
Number 1
Number 1
String 1
Boolean 1
Boolean 1
String 1
Number 1
Structure 80
String 1
Number 1
Number 1
Boolean 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Boolean 1
String 1
Number 1
Boolean 1
Number 1
Number 1
Number 1
Number 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Number 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Enumeration 1
Number 1
Enumeration 1
Enumeration 1
Enumeration 1
String 1
Structure 64
Number 1
Enumeration 1
Number 1
Boolean 1
Structure 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Boolean 1
Structure 23
Number 1
String 1
Enumeration 1
Number 1
Number 1
bandClass Enumeration 1
arfcn Number 1
ARFCN-ValueEUTRA Number 1
ARFCN-ValueUTRA Number 1
explicitListOfARFCNs Number 32
bandIndicator Enumeration 1
RedirectedCarrierInfo Enumeration 1
Number 1
Number 1
Boolean 1
Number 1
Structure 4
Number 1
Antenna operating band(s) Enumeration 1
Number 1
Antenna Bearing Number 1
Number 1
Number 1
Antenna model number String 1
Antenna serial number String 1
Enumeration 1
Enumeration 1
Number 2
Base Station ID String 1
Beamwidth in each operating band in band order
Gain in each operating band in band order
Boolean 1
Boolean 1
Boolean 1
Boolean 1
String 1
Enumeration 1
String 1
Installation Date String 1
Installer's ID String 1
String 1
Number 1
Number 1
Number 1
String 1
Number 1
Number 1
Enumeration 1
Number 1
Enumeration 1
Sector ID String 1
String 1
String 1
Enumeration 1
Structure 2
Number 1
Number 1
Number 1
Structure 8
Number 1
String 1
Number 1
Enumeration 1
Enumeration 1
Number 1
Boolean 1
Structure 4
String 1
Number 1
Boolean 1
Enumeration 1
Enumeration 1
String 1
String 1
Number 1
String 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Enumeration 1
Structure 26
Number 1
String 1
Number 1
Boolean 1
Enumeration 1
Enumeration 1
Number 1
Structure 6
String 1
Number 1
Boolean 1
Enumeration 1
Structure 6
Number 1
Enumeration 1
Boolean 1
String 1
String 1
Number 1
String 1
Boolean 1
Enumeration 1
Structure 2
Enumeration 1
Number 1
Number 1
Boolean 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Boolean 1
Number 1
String 1
Number 1
Enumeration 5
Boolean 1
Number 1
Number 1
Enumeration 1
Number 1
Enumeration 1
Structure 1
String 1
Number 1
Enumeration 1
String 1
Number 1
Number 1
Number 1
Number 1
Number 1
String 1
Number 1
t-ReselectionUTRA Number 1
t-ReselectionUTRA-SF Structure 1
sf-High Enumeration 1
sf-Medium Enumeration 1
Number 1
carrierFreqListUTRA-FDD Structure 16
carrierFreq Number 1
Number 1
p-MaxUTRA Number 1
q-QualMin Number 1
q-RxLevMin Number 1
cellReselectionPriority Number 1
Number 1
Number 1
thresX-High Number 1
thresX-Low Number 1
Number 3
Number 1
Number 1
Boolean 1
Number 1
String 1
Enumeration 1
Number 1
Boolean 1
Enumeration 1
Boolean 1
Boolean 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Number 1
Boolean 1
Number 1
Boolean 1
Number 1
Boolean 1
Number 1
Boolean 1
Number 1
Number 1
Number 1
Number 1
Number 1
Boolean 1
Enumeration 1
Number 1
Description Range and step
1...1, step 1
1...65535, step 1
7...15 characters
0 (false), 1 (true)
0...31, step 1
-140...-44 dBm, step 1 dBm
-140...-44 dBm, step 1 dBm
-19.5...-3 dB, step 0.5 dB
1...256, step 1
This parameter identifies the account manager. The value is always 1.
This parameter holds the TLS access mode for the LDAP server(s) of the BTS. Values are "secured" (allow only secured connections) and "both" (allow both unsecured and secured connections).
TLS (0), TLS_OR_PLAIN_TEXT (1)
This parameter holds the port number of the primary LDAP server.
This parameter holds the IP address of the primary LDAP server.
Format: this is an IPv4 IP address in dotted decimal form defined in RFC 2373.Activates the profile for UE-based intra- and/or inter-frequency ANR (LTE556, LTE782) too.
If set to "true" the profile applies for any kind of ANR, that is UE-based and not UE-based. If set to "false" the profile is not applied for UE-based ANR but still applied for not UE-based ANR features (for example LTE492).
This parameter uniquely identifies an ANRPRL object.
An Automatic Neighbor Relationship Profile (ANRPRL) defines carrier-frequency-specific settings for automatic detection of LTE intra-frequency and inter-frequency neighbor cells.If RSRP of a neighbor cell included in ANR measurement "reportStrongestCells" is greater than anrThresRSRPNbCell, then a cell is accepted by eNB as a neighbor cell for which CGI is needed.
Threshold to control detection of neighbour cells via passive ANR.
If a measurement report for the mobility events A3, A4 or A5 is received, then the cell corresponding to an included PCI can be accepted as 'candidate cell for ANR' only if the PCI fulfills the condition:
The eNB will request to resolve the CGI of unknown cells only if the respective RSRQ level measured by the UE is at least equal to anrThresRSRQNbCell.
The parameter is relevant only if at least one of the features; LTE782 or LTE556, is activated, that is if actUeBasedAnrIntraFreqLte and/or actUeBasedAnrInterFreqLte is set to "true".
Once the number of LTE inter-frequency neighbor relations of the eNB cell reaches "nrLimitInterFreq", the eNB stops autonomous learning of new neighbor cells via ANR. Note: The number of inter-frequency neighbor relations can exceed this limit since new neighbor cells/new neighbor relations still can be configured via O&M and autonomous creation of neighbor relations for already available neighbor
1...256, step 1
0...65535, step 1
0...15, step 1
0...65535, step 1
0 (false), 1 (true)
Not defined
allowed (0), forbidden (1)
allowed (0), forbidden (1)
allowed (0), forbidden (1)
1...256, step 1
Not defined
0...511, step 1
Once the number of LTE intra-frequency neighbor relations of the eNB cell reaches "nrLimitIntraFreq", the eNB stops autonomous learning of new neighbor cells via ANR. Note: The number of intra-frequency neighbor relations can exceed this limit since new neighbor cells/new neighbor relations still can be configured via O&M and autonomous creation of neighbor relations for already available neighbor
The parameter identifies the EUTRA target carrier frequency for which this ANR profile applies.
The profile applies for intra- and or inter-frequency ANR dependent on the carrier frequency of the cell.This parameter uniquely identifies an ANRPRW object.
An Automatic Neighbor Relationship Profile (ANRPRW) defines carrier-frequency-specific settings for automatic detection of WCDMA neighbor cells.The parameter allows to restrict the ANR profile to certain LTE cells that are identified by their lncelId.If the parameter is omitted or the list is empty the profile is considered as default profile, which applies to all cells with no dedicated profile.The parameter enables ANR learning for the carrier frequency of the profile.
Default values for blacklisting of UTRAN mobility types in WCDMA neighbor relationship objects LNRELW.
The values are used if a new LNRELW object is created by eNB because of ANR measurements and if the profile applies for the detecting LTE cell.The parameter controls whether CSFB with PS handover to the related neighbor cell is allowed.
The parameter controls whether PS handover to the related neighbor cell is allowed.
The parameter controls whether SRVCC handover to the related neighbor cell is allowed.
The parameter allows limiting the number of UTRAN neighbor relations (LNRELW objects) per UTRAN frequency and LTE cell.
This limit applies only for ANR-created LNRELW objects but does not apply for LNRELW objects, which are manually created via plan file.
The parameter specifies a list of Primary Scrambling Codes (PSC) or code ranges that are excluded from ANR learning.
Single PSC value or first PSC value of a range that is blacklisted.
Last PSC value if a range of PSC values are blacklisted. 0...511, step 1
Not defined
left (0), right (1)
normal (0)
PS and CS (0), CS only (1)
0...16383, step 1
0...99.9 dB, step 0.1 dB
0 (false), 1 (true)
Identifies the specific antenna line. 1...108, step 1
The parameter specifies the coding of the RNC Id within the 28 Bit UTRAN Cell Identity.
The parameter defines whether the RNC-ID is aligned to the left or right side within Cell Identity.
The parameter defines the RNL Id type. Currently only type normal (12 Bit) is supported.
This parameter selects if SRVCC to a WCDMA target cell is performed as a combined PS and CS SRVCC or whether SRVCC is performed for the CS bearer only.
The value is used if a new LNADJW object is created by eNB because of ANR measurements and if the profile applies for the detecting LTE cell.
The parameter identifies the UTRA carrier frequency for which this ANR profile applies.
Additional Rx gain in decibels, is used in gain calculation to compensate an Rx gain produced by an external device e.g. the base station when two radio modules are cross-connected together via Rx diversity outputs sharing the antenna line. User will know the gain produced by the external device to apply Defines if antenna line DC power is enabled/disabled for an antenna line. The DC power is enabled by default (when the file or parameter is not available for an AL). This parameter is the most relevant for AL DC powerNote! In RF sharing case this parameter value shall be set to "false" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").
Identifies the specific antenna port in Flexi Radio Module for antenna line.
ANT1 (0), ANT2 (1), ANT3 (2), ANT4 (3), ANT5 (4), ANT6 (5)
The total delay of all the passive units of an antenna line can be entered into this parameter, which is then used as the RTT value in delay compensation in BTS.
4.5...45077.5 ns, step 0.1 ns
This parameter contains the total loss calculated from the feederLoss and passive units.
Note: The parameter is only applicable when a MHA is commissoned.
-214748364...0 dB, step 0.1 dB
0 (false), 1 (true)
Defines the product code of the unit in question. 1...80 characters
1...18, step 1
0...999 ns, step 1 ns
0 (false), 1 (true)
0 (false), 1 (true)
2...45 characters
2...10, step 1
0...40 characters
Defines if the device scan functionality is enabled/disabled for a capable 3GPP antenna line. The scan is enabled by default (when the file or parameter is not available for an AL).
Note: In RF sharing case this parameter value shall be set to the "false" if BTS is set to the Radio slave mode (SMOD - linkList - radioMaster parameter value is set to "false").
Defines the voltage level supplied to the antenna line. The values entered for this parameter depend on the MHA type. Non-AISG NSN MHAs: WMHA, WMHB: 12 WMHC: BTS1 Automatic value (Manual voltage override is allowed: possible values [0 V / +12 V/ +14.5 V/ +24V/ +28 V (+24 /+28 only for Main branch, the value depends on the radio module type)]),
Automatic (-1), 0 (0), 12 (1), 14.5 (2), 24 (3), 28 (4)
This parameter identifies the radio module associated with the antenna line.
Antenna Line Uplink Delay in nanoseconds, is used to compensate the antenna line UL delay difference between main and diversity Rx branches of the cell. This is needed to avoid gain (i.e. performance) loss due to the time difference between Rx branches data. For example, offset of 1/2 chip Defines a VSWR (voltage standing wave ratio) major alarm level.
In WCDMA - LTE RF sharing the parameter doesn't need to be configured for LTE.
1.5...3.5 VSWR, step 0.1 VSWR
Defines a VSWR (voltage standing wave ratio) minor alarm level.
In WCDMA - LTE RF sharing the parameter doesn't need to be configured for LTE.
1.5...3.5 VSWR, step 0.1 VSWR
This parameter activates or deactivates the BFD session.
Activate: if set to value "true", the transmission of BFD control packets towards the remote peer is started and, in case the BFD session fails, alarms are raised.This parameter controls the admin state of the BFD session.If set to "false", the session enters the "Down" state. Only control messages with state "Admin Down" are sent to the peer. All active alarms of the BFD session are cleared.If set to "true", the session leaves the "Down" state. It will reach the "Up" state if the remote peer is also in "Up" state. If the BFD session fails, alarms are raised for it.
This parameter specifies the destination IP address to be used in the BFD session. To be entered in dotted decimal format.
Both IP address formats can be used.Format: IPv4 address parameter in dotted decimals or IPv6 address parameter acc. to RFC 4291.The negotiated BFD control word transmission interval, multiplied by this parameter, provides the detection time for lost packets in the BFD session. Roughly speaking bfdDetectMult is the number of BFD control packets that the FTM may lose in a row, before it shall declare the BFD session to be down.This parameter indicates on the BFD group to which the BFD session belongs.The parameter is a managed object instance identifier (LMOID), referencing an instance of object class BFDGRP. The parameter may remain empty, meaning the BFD session is not bound to a BFD group.
This parameter identifies the BFD session. 1...16, step 1
2...45 characters
3784...65535, step 1
100...5000, step 100
100...5000, step 100
This parameter identifies a BFD group. 1...8, step 1
Not defined
1...100, step 1
1...86400 s, step 1 s
1...86400 s, step 1 s
This parameter specifies the source IP address to be used in BFD messages for the BFD session. This can be a network interface IP address or a virtual IP address. To be entered in dotted decimal format.
This parameter specifies the UDP source port to be used in the BFD session.Note: value range and default value depend on the BFD type. - For Multi Hop BFD, the value range is 4784, 49152...65535 and the default value = 4784. This parameter specifies the type of the BFD session: Single Hop or Multi Hop BFD.
singleHopBFD (0), multiHopBFD (1)
This parameter specifies the minimum interval, that the BTS needs when transmitting BFD control packets for the BFD session.
This parameter specifies the minimum interval between received BFD control packets that the FTM will support for the BFD session.
The alarms are suppressed based on the toggling alarm parameters. The toggling alarm parameters contain the amount of alarms in time (time and amount values ) for setting the toggling alarm condition and clearance duration time when the toggling alarm is no longer toggling (alarm either active or Toggling alarm amount defines the number of alarms limit in time (time and amount values) when the alarm is declared to be in toggling alarm condition.
Duration time when the toggling alarm is no longer toggling (alarm either active or cleared). If the alarm is active, it is set active after toggling alarm is cleared.
Duration time when the alarm is toggling (alarm either active or cleared). The toggling alarm condition time is used to determine with toggling alarm amount the toggling condition.
BTS Fault name defined in RISE. The same name can be found in the BTS alarm documentation. This parameter includes also alarming resource and fault ID. Syntax used in enums: hw_faultId_faultName. NOTE: There are some special marks indicating usually dynamic part in the fault name. Special
FT_3511_No connection to Flexi transport submodule (1003511), FT_6150_GTP-U Path Failure (1006150), FT_61028_LOF on unit U,
0 (false), 1 (true)
0...1048575, step 1
1...80 characters
LTE specific Base Station level radio parameters. 1...1, step 1
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
30m (0), 100m (1), 300m (2)
0 (false), 1 (true)
0 (false), 1 (true)
1...2000 ns, step 1 ns
Defines the toggling suppression used for this BTS fault and alarming HW resource pair.
Defines the BTS in question.
Note: This parameter cannot be changed by NetAct. Any change will be done using BTS SM.
This parameter can be used for identification of the BTS. It is used for planning purposes, i.e. to provide identification information of the site. It is not used for any Telecom purposes.
With this parameter the the synchronization mode of the eNB can be selected.LTE systems supporting MBSFN or co-operate with CDMA 2000 require a tight timing on air interface, here "PhaseSync" shall be configured.
FreqSync (0), PhaseSync (1)
Controls if in holdover mode the external 1pps output is switched on (parameter = true) or switched off (parameter = false).
In case the BTS has lost all supported reference sources for generating 1pps pulse, the BTS starts running in hold-over mode. This parameter controls if in holdover mode the external 1pps output is switched on or off.
Defines the usage of the external 2.048MHz synchronization reference.
Controls if in holdover mode the external 2.048 MHz output is switched on (parameter = true) or switched off (parameter = false).
In case the BTS lost all supported reference sources for providing the external 2.048 MHz output, the BTS starts running in hold-over mode. This parameter controls if in holdover mode the external 2.048 MHz output is switched on or
This parameter defines the cable length used between GPS receiver and eNB for official NSN cable with length of 30m, 100m or 300m . If this parameter is set, the gpsTotalAntennaLineDelay shall not be set.
Parameter gpsCtrlBlockForCoLocatedBts controls the mode of operation of the GPS/1pps synchronization input interface.
Setting gpsCtrlBlockForCoLocatedBts to value:- "false": Synchronization from external GPS receiver, the BTS is directly connected to an external GPS receiver. It controls the external GPS receiver via TSIP commands and receives TSIP response messages from the receiver.
Defines the usage of the GPS. GPS is connected to the system module
This parameter will be specified when NSN official cable (30m, 100m or 300m) is replaced with an own proprietary cable between GPS receiver and eNB. The maximum length of cable will be less than 400 meters. In this case an operator is obliged to measure the delay of cable. If this parameter is set, the value for gpsCableLength will not be set.
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
Defines the usage of the TDM synchronisation reference. 0 (false), 1 (true)
1...1, step 1
0...1, step 0.1
0 (false), 1 (true)
0...255, step 1
1...1, step 1
Not defined
0 (false), 1 (true)
0 (false), 1 (true)
This parameter determines whether System Module fan speed is optimized by oscillator temperature or noise level.
This parameter enables the RF sharing with GSM or UTRAN in LTE BTS.
Parameter is used only for automatic licence activation and in addition this parameter is used for shared RF modules IP address configuration.This parameter enables the feature "Synchronisation Hub".
If the feature activation flag is set to True, it is possible to use both the 2MHz output signal and the PDH output signal for synchronization.
This parameter is the naming attribute of the MOC CAREL.It uniquely identifies a CAREL instance.CAREL creation activates Carrier Aggregation in the related cells.CAREL is created in the LNCEL that will be P-LNCEL (primary cell for Carrier Aggregation). LNCEL contains lcrId of the S-LNCEL (secondary cell for Carrier Aggregation).
This parameter controls scheduling fairness between UEs with and without activated SCell (S-LNCEL).This parameter controls scheduling fairness in DL time and frequency domain scheduling between UEs with and without an active SCell. Value 0 means that no fairness is provided; that is UEs with an SCell activated get maximal benefits; and value 1 The parameter controls if PDCCH outer loop link adaptation is disabled in SCell for a UE with an activated SCell.
If disableSCellPDCCHOlLa is set to True, PDCCH OLLA will be disabled for a UE with an active SCell in its SCell (other UEs in this cell which do not have SCell activated/configured can use PDCCH OLLA depending on the setting of actOlLaPdcch in this
This parameter is the Local Cell Resource ID of cell to be aggregated.Aggregate cells considering the following:- NSN does not guarantee correct SCell addition in case the band combination is an NSN supported band combination but not supported by 3GPP TS 36.101This parameter is the naming attribute of the MOC CDFIM.It uniquely identifies a CDFIM instance.
Used to indicate whether or not the UE shall perform a CDMA2000 1xRTT pre-registration if the UE does not have a valid / current pre-registration.Structure including all CDMA2000 1xRTT CSFB Registration Parameters of both Release 8 and Release 9.Defines whether the CDMA2000 1x Radio Transmission Technology (1xRTT) Network Identification (NID) roamer registration indicator for Circuit Switched Fallback (CSFB) pre-registration is broadcast. Value TRUE is to enable foreign NID roamers for autonomous registration. This parameter is Defines whether the CDMA2000 1x Radio Transmission Technology (1xRTT) System Identification (SID) roamer registration indicator for Circuit Switched Fallback (CSFB) pre-registration is broadcast. Value TRUE is to enable foreign SID roamers for autonomous registration. This parameter is
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0...65535, step 1
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
29...85, step 1
0...4095, step 1
0...32767, step 1
0...7, step 1
Defines whether the CDMA2000 1x Radio Transmission Technology (1xRTT) home registration indicator for Circuit Switched Fallback (CSFB) pre-registration is broadcast. Value TRUE is to enable home (non-roaming) autonomous registration. This parameter is broadcast in the RRC: Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) multiple Network Identification (NID) storage indicator for Circuit Switched Fallback (CSFB) pre-registration. When this parameter is set to TRUE, the UE may store entries in SID_NID_LIST for each SID. This parameter is broadcast in Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) multiple System Identification (SID) storage indicator for Circuit Switched Fallback (CSFB) pre-registration. When this parameter is set to TRUE, the UE may store entries in SID_NID_LIST having different SIDs. This parameter is Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) Network Identification (NID) associated with this cell for Circuit Switched Fallback (CSFB) pre-registration. This parameter is broadcast in the RRC: SystemInformationBlockType8 (SIB8) message and is provided Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) parameter-change registration indicator for Circuit Switched Fallback (CSFB) pre-registration. When this parameter is set to TRUE, the UE should register on parameter change events. This parameter is broadcast in the RRC: Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) power down registration indicator for Circuit Switched Fallback (CSFB) pre-registration. Set this parameter to TRUE for the UE to register immediately before powering down. This parameter is broadcast in the RRC: Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) power up registration indicator for Circuit Switched Fallback (CSFB) pre-registration. Set this parameter to TRUE for the UE to register immediately after powering up. This parameter is broadcast in the RRC: Defines the time interval between timer-based registrations. This parameter is broadcast in the RRC: SystemInformationBlockType8 (SIB8) message and is provided in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) registration zone number associated with this cell for Circuit Switched Fallback (CSFB) pre-registration. This parameter is broadcast in the RRC: SystemInformationBlockType8 (SIB8) message and is provided Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) System Identification (SID) associated with this cell for Circuit Switched Fallback (CSFB) pre-registration. This parameter is broadcast in the RRC: SystemInformationBlockType8 (SIB8) message and is provided Defines the number of CDMA2000 1x Radio Transmission Technology (1xRTT) registration zones retained in the zone list by the UE for Circuit Switched Fallback (CSFB) pre-registration. This parameter is broadcast in the RRC: SystemInformationBlockType8 (SIB8) message and is provided Defines the timer for CDMA2000 1x Radio Transmission Technology (1xRTT) zone registration associated with this cell for Circuit Switched Fallback (CSFB) pre-registration. This parameter is broadcast in the RRC: SystemInformationBlockType8 (SIB8) message and is provided
1min (0), 2min (1), 5min (2), 10min (3), 20min (4), 30min (5), 45min (6), 60min (7)
Not defined
0 (false), 1 (true)
0...255, step 1
0...255, step 1
0...255, step 1
Not defined
0...7, step 1
0...31.5 dB, step 0.5 dB
0...31.5 dB, step 0.5 dB
1...100, step 1
Not defined
This structure contains parameters associated with eHRPD Pre-registration used in SIB8.
Defines whether the UE is allowed to perform pre-registration when the UE does not have a valid / current pre-registration. A value of false indicates UE is not allowed to perform preregistration in this cell.
Defines the evolved High Rate Packet Data (eHRPD) Pre-registration Information. This parameter contains the primary Color Code of the eHRPD Access Network (AN) which this Evolved Universal Terrestrial Radio Access (EUTRA) cell overlays. The UE uses this parameter to determine whether it Defines the evolved High Rate Packet Data (eHRPD) secondary pre-registration Information. This parameter contains the secondary Color Code of the eHRPD Access Network (AN) which this Evolved Universal Terrestrial Radio Access (EUTRA) cell overlays. The UE uses this parameter to Defines the evolved High Rate Packet Data (eHRPD) secondary pre-registration Information. This parameter contains the secondary Color Code of the eHRPD Access Network (AN) which this Evolved Universal Terrestrial Radio Access (EUTRA) cell overlays. The UE uses this parameter to CDMA2000 HRPD frequency bandsList of CDMA2000 HRPD frequency bands. This structure may contain up to 32 instantiated quadruples of a hrpdBdClBcl, hrpdCResPrio, hrpdFrqThrH and hrpdFrqThrL.
CDMA2000 HRPD Frequency Band (used in Band Class List).Identifies the CDMA2000 HRPD Frequency Band in which the CDMA2000 Carrier can be found.
0bc (0), 1bc (1), 2bc (2), 3bc (3), 4bc (4), 5bc (5), 6bc (6), 7bc (7), 8bc (8), 9bc (9), 10bc (10), 11bc (11), 12bc (12), 13bc (13), 14bc (14), Absolute priority of the Bandclass of CDMA2000 HRPD
Absolute priority (0 means: lowest priority).
Equal priorities between RATs are not supported according to [3GPP 36.304].High threshold towards this Bandclass of CDMA2000 HRPDThis specifies the high threshold used in reselection towards CDMA2000 HRPD
Low threshold towards this Bandclass of CDMA2000 HRPDThis specifies the low threshold used in reselection towards CDMA2000 HRPD
Weight factor of CDMA HRPD band used by round robin algorithm for idle mode load balancing.When the parameter is not defined, the corresponding carrier is not used in selecting main target for IdleModeMobilityControlInfo for load balancing. Weighted round robin algorithm shall select always one target frequency for idle CDMA2000 extended Neighbor Cell Information for HRPDStructure containes CDMA2000 Neighbor Cell Information for HRPD.This structure may contain up to 32 instantiated triples of a hrpdCellId, hrpdArfcn and hrpdBdClNcl.
0...2047, step 1
Identifies the CDMA "Physical cell identity". 0...511, step 1
Not defined
1...100, step 1
0...7, step 1
0...31.5 dB, step 0.5 dB
0...31.5 dB, step 0.5 dB
Not defined
0...2047, step 1
HRPD carrier frequency within a CDMA2000 Band.The parameter value is based on the absolute radio-frequency channel number “ARFCN”.
Identifies the CDMA2000 Frequency Band in which the CDMA2000 Carrier can be found.
0bc (0), 1bc (1), 2bc (2), 3bc (3), 4bc (4), 5bc (5), 6bc (6), 7bc (7), 8bc (8), 9bc (9), 10bc (10), 11bc (11), 12bc (12), 13bc (13), 14bc (14),
Distributes Physical Cell Ids between 3GPP-R8 List and 3GPP-R9 Extension List."R8ListPartOnly" means, the related Physical Cell Id has to be placed in the 3GPP-R8 NCL."R9ExtensionPartPossible" means, the related Physical Cell Id can be placed in the 3GPP-R8 NCL, if all Physical Cell Ids with "R8ListPartOnly" are already placed in the 3GPP-R8 NCL and there is space left (up to 16 IDs allowed). Otherwise they shall
R8ListPartOnly (0), R9ExtensionPartPossible (1)
CDMA2000 1xRTT frequency bandsList of CDMA2000 1xRTT frequency bands. This structure contains instantiated quadruples of a rttBdClBcl, rttCResPrio, rttFrqThrH and rttFrqThrL.
Weight factor of CDMA 1xRTT band used by round robin algorithm for idle mode load balancing.When the parameter is not defined, the corresponding carrier is not used in selecting main target for IdleModeMobilityControlInfo for load balancing. Weighted round robin algorithm shall select always one target frequency for idle CDMA2000 1xRTT Frequency Band (used in Band Class List).Identifies the CDMA2000 1xRTT Frequency Band in which the CDMA2000 Carrier can be found.
0bc (0), 1bc (1), 2bc (2), 3bc (3), 4bc (4), 5bc (5), 6bc (6), 7bc (7), 8bc (8), 9bc (9), 10bc (10), 11bc (11), 12bc (12), 13bc (13), 14bc (14), Absolute priority of the Bandclass of CDMA2000 1xRTT
Absolute priority (0 means: lowest priority).
Equal priorities between RATs are not supported according to [3GPP 36.304].This specifies the high threshold used in reselection towards CDMA2000 1xRTT
This specifies the low threshold used in reselection towards CDMA2000 1xRTT
CDMA2000 extended Neighbor Cell Information for 1xRTTStructure containes CDMA2000 Neighbor Cell Information for 1xRTT.This structure may contain up to 40 instantiated quadruples of a rttCellId, rttArfcn, rttBdClNcl and rttExSel1xRTT carrier frequency within a CDMA2000 Band.The parameter value is based on the absolute radio-frequency channel number “ARFCN”.
CDMA2000 1xRTT Frequency Band.
CDMA2000 1xRTT Physical Cell Identity 0...511, step 1
0...15, step 1
CDMA2000 HRPD Cell Reselection Timer 0...7 s, step 1 s
Not defined
CDMA2000 1xRTT Cell Reselection Timer 0...7 s, step 1 s
Not defined
0bc (0), 1bc (1), 2bc (2), 3bc (3), 4bc (4), 5bc (5), 6bc (6), 7bc (7), 8bc (8), 9bc (9), 10bc (10), 11bc (11), 12bc (12), 13bc (13), 14bc (14),
Distributes Physical Cell Ids between 3GPP-R8 List and 3GPP-R9 Extension List."R8ListPartOnly" means, the related Physical Cell Id has to be placed in the 3GPP-R8 NCL."R9ExtensionPartPossible" means, the related Physical Cell Id can be placed in the 3GPP-R8 NCL, if all Physical Cell Ids with "R8ListPartOnly" are already placed in the 3GPP-R8 NCL and there is space left (up to 16 IDs allowed). Otherwise they shall
R8ListPartOnly (0), R9ExtensionPartPossible (1)
The search window size is a CDMA parameter to be used to assist in searching for the neighboring pilots
Speed dependent ScalingFactors for tResHrpdParameter Speed dependent ScalingFactor for Treselection CDMA2000 HRPD in TS 36.304.
CDMA2000 HRPD Cell Reselection Timer factor if the UE is in High Mobility state.The field tResHrpd is multiplied with this factor if the UE is in High Mobility state as defined in 36.304
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
CDMA2000 HRPD Cell Reselection Timer factor if the UE is in Medium Mobility state.The field tResHrpd is multiplied with this factor if the UE is in Medium Mobility state as defined in 36.304.
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
Speed dependent ScalingFactors for tResRttParameter Speed dependent ScalingFactor for Treselection CDMA2000 1xRTT in TS 36.304.
CDMA2000 1xRTT Cell Reselection Timer factor if the UE is in High Mobility state.The field tResRtt is multiplied with this factor if the UE is in High Mobility state as defined in 36.304
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
CDMA2000 Rtt Cell Reselection Timer factor if the UE is in Medium Mobility state.The field tResRtt is multiplied with this factor if the UE is in Medium Mobility state as defined in 36.304.
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
Not defined
0...128 characters
0...1000 characters
0...1000 characters
0...40 characters
0...32 characters
0...32 characters
0...32 characters
Not defined
1...256 characters
0...256 characters
Operator Certificate installed in the BTS
Certificate FingerprintIt should be in “Hex Ascii” format with “FF:EE:DD”.
Certificate Issued By
Certificate Issued To
Certificate Serial Number
Certificate TypeThe Certificate type could be TA (Trust Anchor)/RA(Registration authority)/CA (Certificate Authority) .
Certificate Valid FromThe format is:YYYY-MM-DDTHH:MM:SS.SSS[+-]hh:mmwhere hh:mm is the offset from GMT.
Certificate Valid ToThe format is:YYYY-MM-DDTHH:MM:SS.SSS[+-]hh:mmwhere hh:mm is the offset from GMT.
Used CRL distribution point address can be selected from operator defined parameter and certificate extension
Certificate_extension (0), Configuration_parameter (1), Extension_and_parameter (2)The list of CRL distribution points
Primary URI of the operator defined CRL distribution point. Note: Primary addresses in the structure are unique, i.e. no two entries can have same primary address.
Secondary URI of the operator defined CRL distribution point.Note: Primary and secondary addresses for an entry cannot be the same.
Downloaded CRL information Not defined
URI of the defined CRL distribution point. 1...256 characters
The status of the last download of CRL Failed (0), OK (1)
0...1000 characters
0...32 characters
0...65535, step 1
0...32 characters
0...256 characters
Certificate Revocation List usage activation Disabled (0), Enabled (1)
1...4999 days, step 1 days
1...4999 days, step 1 days
Type of CRL DP:Manually configured Primary CRLDP orManually configured Secondary CRLDP orCRLDP Contained in Certificate extension
Primary_Manual (0), Secondary_Manual (1), Certificate_Extension (2)
This parameter holds the name of the issuing instance of the current certificate revocation list.
Time of next update of CRL
The format is:YYYY-MM-DDTHH:MM:SS.SSS[+-]hh:mmwhere hh:mm is the offset from GMT.The number of revoked certificates in CRL
This parameter holds the issueing date of the current certificate revocation list.
The format is:YYYY-MM-DDTHH:MM:SS.SSS[+-]hh:mmThe failure reason could be the following:List (CRL) for one of the following reasons:- CR distribution point not reachable.- No valid CRL available- CRL signature validation failed
This parameter specifies how many days before a BTS certificate expires the BTS autonomously triggers a CMP update sequence.
This parameter specifies the number of days the BTS shall raise an alarm in advance to the "BTS own Trust Anchor" and "BTS vendor certificate.
0...128 characters
1...1, step 1
1...32 characters
7...15 characters
1...65535, step 1
0...8760 h, step 1 h
This parameter uniquely identifies a CRGPR instance. 0...17, step 1
0...3, step 1
Not defined
0...999, step 1
0...999, step 1
This parameter identifies the CMP server by its subject name. It may either be detected by DHCP upon autoconnection or configured by the management system.
This parameter identifies the certificate handler configuration. The value is always 1.
This is the operator configured CMP Directory to be used for addressing the Certificate Management Protocol server.
This is the IP address of the Certificate Management Protocol server. To be entered in dotted decimal format.
This is the port number to be used for addressing the Certificate Management Protocol server.
This parameter specifies the period for executing a periodical update of the Certificate Revocation List. The value is given in hours. Value 0 means "no periodical update".
The parameter defines a thresholds above which the resource utilization within a subframe is considered efficient, in which case the subframe will be assigned to the cell resource groups in question. Otherwise, the assignment of the subframe to the cell resource group may be skipped.
0 (0), 10 (10), 20 (20), 30 (30), 40 (40), 50 (50)
Group which is used if there is no explicit assignment.
Online modification is performed if the profile is not assigned to any LNCEL or if the feature is deactivated in all assigned cells, i.e. if cellResourceSharingMode is equal to 'none'.List of PLMN groups. A dedicated share can be assigned to each PLMN group.
Online modification is performed if the profile is not assigned to any LNCEL or if the feature is deactivated in all assigned cells, i.e. if cellResourceSharingMode is equal to 'none'.Indicates the Mobile Country Code.The Mobile Country Code parameter indicates the Mobile Country Code and is part of the PLMN identifier.
Indicates the Mobile Network Code.The Mobile Network Code parameter indicates the Mobile Network Code and is part of the PLMN identifier.
2...3, step 1
The parameter assigns the PLMN Id to a PLMN group. 0...3, step 1
Not defined
0...3, step 1
20...80 %, step 1 %
1...1, step 1
Not defined
0 (false), 1 (true)
0 (false), 1 (true)
1...60, step 1
NetAct IP address 7...15 characters
1024...49392, step 1
Indicates the length of the Mobile Network Code.The Mobile Network Code length parameter indicates the length of the Mobile Network Code, either 2 or 3 digits.
List of PLMN group shares. The list parameter allows reservation of cell capacity per cell resource group on a percentage basis.
Online modification is performed if the profile is not assigned to any LNCEL or if the feature is deactivated in all assigned cells, i.e. if cellResourceSharingMode is equal to 'none'.
Specifies the PLMN group identifier as assigned in plmnGroupList.
Specifies the share of the cell resource group on a percentage basis.
This parameter is the naming attribute of the MOC CTRLTS.It uniquely identifies a Trace Control instance.
Trace reporting support to 3rd Party Tool.This indicates the support for sending trace reports to 3rd Party address.
Trace reporting support to 3rd Party Tool for Cell Trace.This indicates the support for sending trace reports to 3rd Party address for Cell Traffic Tracing.
Trace reporting support to 3rd Party Tool for Subscriber & Equipment Trace.This indicates the support for sending trace reports to 3rd Party address for Subscriber & Equipment Trace.
The maximum number of UE trace sessions allowed.This parameter indicates the maximum number of active subscriber or UE trace sessions that can be supported by eNB.
The Trace Port Number to be used while establishing trace connection (TCP) towards OMS/iOMS.
1024...49151, step 1
Not defined
Online (0), Offline (1)
Online (0), Offline (1)
0 (false), 1 (true)
Not defined
0 (false), 1 (true)
locked (0), unlocked (1)
3...3 characters
0...60 0.1%, step 1 0.1%
The Trace Port Number to be used while establishing trace connection (TCP) towards 3rd Party Tool.
Trace reporting mode to be used by OMS for sending trace reports to NetAct. This is the trace reporting mode used at OMS for sending trace reports to NetAct.
Specifies the trace reporting mode used by OMS for sending Trace Reports for Cell Trace Sessions (Cell Traffic Trace) to NetAct.
Specifies the trace reporting mode used at OMS for sending Trace Reports for User Trace Sessions (Subscriber & Equipment trace) to NetAct.
This indicates if there are any active UE trace sessions running within eNB.This parameter indicates if there are any active UE trace sessions currently running within eNB.
Support for vendor specific extension tracing (at present only RLC and MAC tracing supported)
This parameter describes whether tracing of instantaneous TA value as part of vendor specific extension tracing is enabled or not.
If the value of acceptableFrameTypes is "AdmitTagged", the device will discard untagged and Priority-tagged frames received on this interface.If the value is “AdmitAll”, tagged, untagged and Priority-tagged frames received on this interface will be accepted. Untagged and Priority-tagged frames are assigned to the VLAN defined by the portDefaultVlanId for this interface.
ADMIT_ALL (0), ADMIT_TAGGED (1)
This parameter is used to lock and unlock the ethernet link interface.Locking the interface deactivates it.
Administrative state rules for correct configurations:This parameter identifies the BTS transport Ethernet interface.
Format: "slot#-if#"
whereThis parameter specifies the maximum burst size that can be transmitted in a single burst in egress direction on this Ethernet interface of layer 2 switch. The burst size is actually calculated by < l2ShaperRate x l2BurstSize x 1sec >. Example: l2ShaperRate =100 Mb/s and l2BurstSize=1% results in a burst This parameter specifies the rate for limiting ingress traffic at the ethernet link interface. Parameter value unit = MBit/s.
The following granularities exist:1 Mbps steps up to 10 Mpbs.
RT_LINE_RATE (0), RT_1 (1), RT_2 (2), RT_3 (3), RT_4 (4), RT_5 (5), RT_6 (6), RT_7 (7), RT_8 (8), RT_9 (9), RT_10 (10),
Not defined
-1...4094, step 1
1...4094, step 1
0 (false), 1 (true)
0...40 characters
17...17 characters
0...7, step 1
1...4094, step 1
1...1, step 1
0...50 characters
This parameter specifies egress the shaping rate of the Ethernet interface. Parameter value unit is in MBit/s.
The following granularities exist:1 Mbps steps up to 10 Mbps.
RT_LINE_RATE (0), RT_1 (1), RT_2 (2), RT_3 (3), RT_4 (4), RT_5 (5), RT_6 (6), RT_7 (7), RT_8 (8), RT_9 (9), RT_10 (10), This parameter specifies the VLANs that are supported over
this ethernet interface. The parameter is a list of up to 16 entries where each entry represents either a single VLAN identifier or a range of VLAN identifiers. It is strongly recommended that VLAN identifiers of the various entries This parameter specifies the upper value of a range of VLAN identifiers.
VLAN id ‘1’ is reserved for un-tagged frames handling and should not be configured.This parameter specifies either a single VLAN identifier or the lower value of a range of VLAN identifiers.
VLAN id ‘1’ is reserved for un-tagged frames handling and should not be configured.Enables the Link OAM functionality for this ethernet link. In consequence:- the values of all statistics counters of the Link OAM feature for this interface are set to 0- the Link OAM alarms for this interface are clearedA reference to a Link OAM profile. This is a distinguished name referencing an instance of class OAMPRF.Format: "FTM-1/OAMPRF-*"
whereThis parameter shows the MAC address of the ethernet interface.
Default VLAN priority for untagged frames.
Every untagged ingress Ethernet frame at this interface gets assigned this Port Default Priority. If QoS classification mode is configured to VLAN-PCP, this priority is used for enqueing decision of the frame. If the frame egresses the switch tagged, This parameter specifies the VLAN identifier that is inserted internally by the FTM into an untagged ingress frame that enters the layer 2 switch via this Ethernet interface.In order that the frame will be transmitted via another Ethernet interface, after layer 2 switching has been performed, the same VLAN id must be configured in the VLAN identifier list of that Ethernet interface (see parameter l2VlanIdList). Else the frame
This parameter specificies if the ethernet link characteristics are autonegotiated or not.If not, the attribute contains the capacity and the duplex mode to be set forcibly. Note that 1000 MBit is available only on Gigabit Ethernet interfaces (GE).
AUTODETECT (0), 1000MBIT_FULL (1), 100MBIT_FULL (2), 10MBIT_FULL (3)
This parameter identifies BTS transport. The value is always 1.
This parameter holds the description of the geographical location of the network element. The format can be freely decided by the operator. The parameter may also be empty.
This parameter shows the SW release version of the FTM. 0...70 characters
1...80 characters
0...128 characters
1...1, step 1
GERAN cell reselection timer 0...7 s, step 1 s
Not defined
gsm1800 (0), gsm1900 (1)
0...7, step 1
Each ARFCN value explicitly listed 0...1023, step 1
0...62 dB, step 2 dB
This parameter holds the the name of the network element. The operator can freely define the value of this parameter.
This parameter holds a short description of the network element. The format can be freely decided by the operator. The parameter may also remain empty.
This parameter uniquely identifies a GFIM (GERAN frequency Idle Mode Configuration) managed object.
The parameter "Speed dependent ScalingFactor for TreselectionGERAN N" in TS 36.304. If the field is not present, the UE behaviour is specified in TS 36.304
The field t-ReselectionGERAN is multiplied with this factor if the UE is in the high mobility state as defined in 36.304
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
The field t-ReselectionGERAN is multiplied with this factor if the UE is in the medium mobility state as defined in 36.304.
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
This is an indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either GSM 1800 or GSM 1900 carriers.For ARFCN values not associated with one of those bands, the indicator is not relevant.Absolute priority of the GERAN carrier frequency
Equal priorities between RATs are not supported according to [3GPP 36.304].
This specifies the threshold used by the UE when reselecting towards a higher priority frequency X than the currently serving frequency
0...62 dB, step 2 dB
1...16, step 1
1...100, step 1
0...39 dBm, step 1 dBm
This specifies the minimum required RX level in the cell in dBm -115...-25 dBm, step 2 dBm
This parameter is the naming attribute of MOC GTPU 1...1, step 1
1...15, step 1
1...300 s, step 1 s
1...60 s, step 1 s
Not defined
2...45 characters
This specifies the threshold used in reselection towards frequency X priority from a higher priority frequency
Identifies GNFL (GERAN Neighbour Frequency List Configuration) managed object
Weight factor of GERAN carrier frequency used by round robin algorithm for idle mode load balancing.When the parameter is not defined, the corresponding carrier is not used in selecting main target for IdleModeMobilityControlInfo for load balancing. Weighted round robin algorithm shall select always one target frequency for idle This parameter restricts the permitted Network Colour Code (NCC) for idle mode mobility.Using default settings, no network is permitted.
A field encoded as a bitmap, where bit N is set to "0" if a BCCH carrier with NCC = N-1 is not permitted for monitoring, and set to "1" if the BCCH carrier with NCC = N-1 is permitted for monitoring; N = 1 to 8; bit 1 of the bitmap is the leading bit of
Bit 0: NCC 7, Bit 1: NCC 6, Bit 2: NCC 5, Bit 3: NCC 4, Bit 4: NCC 3, Bit 5: NCC 2, Bit 6: NCC 1, Bit 7: NCC 0
This is the maximum allowed transmission power for GERAN on an uplink carrier frequency.Applicable for the neighbouring GERAN cells on this carrier frequency.If pmaxGERAN is absent, the maximum power according to the UE capability is used.
This parameter holds the number of unanswered GTP-U ECHO REQUESTs (within the time defined by parameter t3Response), after which a GTP-U path failure is declared. The parameter is only relevant in case GTPU path supervision is switched ON (parameter gtpuPathSupint has a non-zero value).This parameter holds the time interval between sending GTP-U ECHO REQUESTs, used for GTP-U user data path supervision on the S1 and X2 interfaces. It defines also if data path supervision is ON or OFF.
This parameter holds the maximum waiting time for GTP-U ECHO RESPONSE messages, used for GTP-U data path supervision on the S1 and X2 interfaces. This parameter is only relevant in case GTP-U path supervision is switched ON (parameter gtpuPathSupint has a non-zero value).This parameter defines the S-GW IP-Address (to be supervised). In case feature "Transport separation for RAN sharing" is activated also the S-GW IP-Addresses for the additional transport network are also configured.
Application IPv4/v6 address of the serving SAE gateway (S-GW) for which datapath supervision is switched on.Both IP address formats can be used.Format: IPv4 address parameter in dotted decimals or IPv6 address parameter acc. to RFC 4291.
0...1, step 1
1...1, step 1
Defines the intra-frequency blacklisted cell list. Not defined
Indicates the lowest PCI in the range 0...503, step 1
Not defined
0...503, step 1
1...1, step 1
7...15 characters
7...15 characters
1...1, step 1
This parameter holds the identifier for the transport network in case "Transport Separation for RAN sharing" feature is supported.
Opertor has to take care that transportNwId has to be either mainTransportNwId or any of the transportNwIds configured in IPNO.
This parameter uniquely Identifies an IAFIM (Intra-Frequency Idle Mode configuration) managed object.
Indicates the number of PCIs in the range (including startPCI). Value n4 corresponds with 4, n12 corresponds with 12 and so on. The UE applies value 1 if the field is absent, in which case only the physical cell identity value indicated by start applies.
n4 (0), n8 (1), n12 (2), n16 (3), n24 (4), n32 (5), n48 (6), n64 (7), n84 (8), n96 (9), n128 (10), n168 (11), n252 (12), n504 (13)
Intra-frequency neighbouring cell listDefines the intra-frequency neighbouring cell list.
The Physical Cell Identifier is a unique cell identification in a neighboring cell list
The parameter defines a cell-specific offset (in dB) that is used in the cell reselection procedure.
-24 dB (0), -22 dB (1), -20 dB (2), -18 dB (3), -16 dB (4), -14 dB (5), -12 dB (6), -10 dB (7), -8 dB (8), -6 dB (9), -5 dB (10), -4 dB (11), -This parameter identifies the DNS Access configuration object.
Value is always 1.
This parameter specifies the IP address of the primary DNS server. If the parameter has a valid value (not empty, not 0.0.0.0) this server is queried first for DNS resolution.
This parameter specifies the IP address of the secondary DNS server. The secondary DNS is queried if the primary DNS is configured but not accessible.
This parameter identifies the BTS transport Ethernet-based IP interface. The value is always 1.
7...15 characters
2...45 characters
0...126, step 1
7...15 characters
0 (false), 1 (true)
This parameter holds the shaper burst size for the interface.
0 (false), 1 (true)
This is the IP address of the plain Ethernet network interface towards the external transport network. It has an associated subnet mask.
If the address is set to 0.0.0.0, the interface is taken out of use. Instead, VLAN interfaces are used (IVIF object instance).This is the IPv6 address of the plain Ethernet network interface towards the external transport network. Format: parameter with IPv6 address acc. to RFC4291.If the address is set to 0:0:0:0:0:0:0:0 in full notation or :: abbreviated, the interface is taken out of use. Instead, VLAN interfaces are used (IVIF object instance).This is the IPv6 prefix-length parameter of the plain Ethernet network interface towards the external transport network. Format: parameter acc. to RFC4291.
This is the maximum transfer unit of the Ethernet interface.
NOTE: For HW unit types FTIB/FTLB, the supported range is '576..1608 octets'. For HW unit types FSM/FTIF, the supported range is '576..1644 octets'.
576...1644 octets, step 1 octets
This is the subnet mask of the IP address of the plain Ethernet network interface.
This parameter specifies if multiple PHB queues are used over this interface or only a single one. Multiple PHB queues allow DSCP based traffic prioritization.
The plain Ethernet interface by default has the 6 PHB queue scheduler.
4000...2000000 octets, step 1 octets
The Total Shaper Burst Size ("SBS") defines the maximum burst size that is allowed to pass at the output of the WFQ aggregator.
4000...2000000 octets, step 1 octets
This parameter holds the shaper information rate for the interface.For FTLB, the actual minimum egress rate is 1.18 Mbps and on FSM-r3, the actual minimum egress rate is 1.56 Mbps due to technical limitations on Octeon.
100...1000000 kbps, step 100 kbps
This parameter holds the total Shaper Information Rate ("SIR") at the output of the WFQ aggregator.
500...1000000 kbps, step 100 kbps
This parameter decides on the type of shaping in case of VLANs. When traffic path shaping is enabled, shaping at the level of each VLAN is enabled, else shaping at the WFQ aggregator level is enabled. Shaping may also be switched off entirely.
TPS_OFF (0), TPS_WFQ (1), TPS_PATH (2)
This parameter decides if the ethernet overhead is taken into account for shaping and the Measurement based Transport Admission Control. If the flag has value "true", the bandwidth measured and used for shaping does not count the ethernet overhead and is the bandwidth on the IP layer only. If the flag
1...10000, step 1
Not defined
1...20 characters
7...15 characters
1...1, step 1
Not defined
7...15 characters
17...17 characters
Not defined
7...15 characters
7...15 characters
1...1, step 1
This is the weight value to be used in the WFQ aggregation scheduler for this interface.
This is the set of entries in the DHCP database of the BTS that is used to bind an IP address to a DHCP client that identifies itself at the BTS by a system name (by a "text string").
This is a unique string used in the DHCP server of the BTS for identifying a DHCP client that is assigned a fixed IP address. This may either be one of the predefined names "RET1" (Remote Electrical Tilt), "RET2", "BBU" and "LMU" or a user-defined name consisting of up to 20 digits [0-9] or letters [a-z] and [A-Z].This parameter specifies the fixed IP address that is to be assigned to the DHCP client if it requests a lease with the name specified in parameter dhcpClientIdentifier.The IP address must be within the public IP subnet of the BTS. However, neither the IP addresses of the BTS nor its subnet IP address must be used.This parameter identifies the unique DHCP Server object in the BTS. Its value is always 1.
This is set of entries in the DHCP database of the BTS. This set of entries is used to bind an IP address to a DHCP client that identifies itself at BTS by a hardware address (by a "MAC address").
This parameter specifies the fixed IP address that is to be assigned to the DHCP client if it requests a lease with the MAC address specified in parameter dhcpHardwareIdentifier.The IP address must be within the public IP subnet of the BTS. However, neither the IP addresses of the BTS nor its subnet IP address must be used.This is the unique hardware (MAC) address within the DHCP server of the BTS by which a DHCP client identifies itself at the BTS. The server will then assign the IP address of the parameter "DHCP Fixed IP Address" to the client.
This entry reserves an IP address range to be used for assignments for the DHCP clients.
This parameter specifies the final IP address of the DHCP IP address range.
The IP address must be within the public IP subnet of the BTS. However, neither the IP addresses of the BTS nor its subnet IP address must be used.This parameter specifies the starting IP address of the DHCP IP address range.
The IP address must be within the public IP subnet of the BTS. However, neither the IP addresses of the BTS nor its subnet IP address must be used.This parameter identifies the unique NTP configuration entity of the BTS. The value is always 1. Exactly 1 NTP configuration entity always exists on the BTS.
7...15 characters
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
Not defined
7...15 characters
2...45 characters
7...15 characters
2...45 characters
0...1, step 1
0...900, step 1
This parameter specifies the IP addresses of the NTP servers. To be entered in the dotted decimal format.Note: The NTP server configuration is mandatory in fsmr2 since this is the only time source for FTM but although its optional in fsmr3 due to GPS time availability, it’s always treated as mandatory and used as a backup if GPS time is lost. This flag enables/disables the optional feature Fast IP Rerouting.
This flag enables/disables the optional feature IP Transport Network Measurement.NOTE: The individual sessions creation and other related parameters configuration should be allowed irrespective of state of this flag.This parameter enables/disables the optional feature "IPv6 for U/C-plane" (LTE125)
This parameter activates/deactivates the feature "Transport Separation for RAN Sharing"If IPsec is enabled and additional transport network is deleted or modified, then actSeparationRanSharing should be disabled first.This parameter defines a list of IP-Addresses for one additional transport network.
This parameter holds the C-Plane IPv4 address of this eNB for the additional transport network.Format: the format of this parameter allows for an IPv4 address in the dotted decimal form.
This parameter holds the C-Plane IPv6 address of this eNB for the additional transport network.Format: parameter with IPv6 address acc. to RFC4291.
This parameter holds the U-Plane IPv4 address of this eNB for the additional transport network.Format: the format of this parameter allows for an IPv4 address in the dotted decimal form.
This parameter holds the U-Plane IPv6 address of this eNB for the additional transport network.Format: parameter with IPv6 address acc. to RFC4291.
This parameter holds the identifier for the additional transport network in case "Transport Separation for RAN sharing" feature is supported.
This parameter specifies the delay for re-installig routes as active ones after a BFD session has recovered from down to up state. Defining a delay can prevent from too heavy toggling of de-installing and re-installing routes for unstable BFD sessions.
0...1048575, step 1
17...17 characters
7...15 characters
2...45 characters
0 (false), 1 (true)
7...15 characters
7...15 characters
0 (false), 1 (true)
1...1, step 1
7...15 characters
0...1, step 1
This parameter identifies the base station in the transport network.
This parameter contains the MAC address used towards BTS subnet/LMP/SSE.
This parameter specifies the IP address to be used for control plane traffic. The IP address may collapse with a network interface IP address. If it does not collapse with a network interface IP address, it is considered to be virtual.The control plane IP address may also collapse with the uPlaneIpAddress, the mPlaneIpAddress and the sPlaneIpAddress.
This parameter holds the C-Plane IPv6 address of this eNB.Format: parameter with IPv6 address acc. to RFC4291.
Control whether to allow/disallow running FTP server on Transport module for security reasons. Valid for only FTLB and FTIB HW support.NOTE: By default, parameter is disabled (FTP_SERVER_DISABLED)
FTP_SERVER_ENABLED (0), FTP_SERVER_DISABLED (1)
Enable/disable service OAM.
NOTE: Ethernet service OAM enabling flag cannot get value true in ATM Iub transport mode.
This is the IP address for the BTS subnet. To be entered in dotted decimal format.
This is the subnet mask for the BTS subnet IP address. To be entered in dotted decimal format.
This parameter controls if the BTS should respond to ICMP and traceroute requests.
This parameter identifies the BTS transport IP node configuration. The value is always 1.
This parameter specifies the IP address to be used for management plane traffic. The IP address may collapse with a network interface IP address. If it does not collapse with a network interface IP address, it is considered to be virtual.The management plane IP address may also collapse with the uPlaneIpAddress, the sPlaneIpAddress and the cPlaneIpAddress.
This parameter holds the identifier for the "Main Transport Network"This parameter shall be configured only in case "Transport Separation for RAN sharing" feature is supported
7...15 characters
0 (false), 1 (true)
17...17 characters
7...15 characters
7...15 characters
Not defined
2...45 characters
This parameter holds the transport network IP address of the O&M system for the FTM. To be entered in dotted decimal format.
If only 1 OMS IP is configured, then BTS executes an autonomous site reset after change of that IP address so that BTS will take into use the new values.
If this parameter is set to "true", the optional TLV received in a Link Trace or Loopback message (LTM or LBM message) is sent back unchecked in the corresponding reply message (LTR, or LBR).If this parameter is set to "false", the received optional TLV is ignored and not being sent in the reply-message.This parameter specifies the usage of TLS between the eNB and the OPS system.The usage of TLS requires that valid certificates are installed to the eNB.
off (0), forced (1), probing (2)
This parameter contains the MAC address of the interface through which the U/C/M/S Plane is configured.
This parameter specifies the interval between (re-)transmissions of Neighbor Solicitation messages from the BTS.
500...10000 ms, step 100 ms
This parameter specifies the IP address to be used for synchronization plane traffic. The IP address may collapse with a network interface IP address. If it does not collapse with a network interface IP address, it is considered to be virtual.The synchronization plane IP address may also collapse with the uPlaneIpAddress, the mPlaneIpAddress and the cPlaneIpAddress.
This parameter specifies the IP address of the OMS serving in secondary role. It is used for OMS resiliency.
Value "0.0.0.0" means the parameter is not used: a secondary OMS is not defined.This parameter shows which OMS (primary or secondary) is the current serving OMS. This is a read-only parameter.
none (0), primary (1), secondary (2)
This parameter specifies the administrator preference for how the NE should select its serving OMS. Automatic selection (value "automatic") means that the NE autonomously selects its serving OMS based on availability of the configured primary or secondary OMS. The NE may also be administratively
automatic (0), primaryForced (1), secondaryForced (2)
This parameter requests an administrative switch-over from current serving OMS (primary or secondary) to the other OMS. The parameter value specifies the OMS to which the switch-over is requested.
noSwitchover (0), primaryRequested (1), secondaryRequested (2)
This structure handles the enables/disables the TWAMP reflector and UDP echo functionality for the each application and IP interface object.This can have a maximum of 10 instances as per configured addresses.This parameter specifies the IP address to be used for the application or IP interface object. Each address specified in this structure for TWAMP usage must be identical with one of the configured eNB application or interface IP addresses.Format: IPv4 address parameter in dotted decimals or IPv6 address parameter according to RFC 4291.
0 (false), 1 (true)
0 (false), 1 (true)
RATE_1 (0), RATE_10 (1)
1...65535, step 1
7...15 characters
2...45 characters
1...10000, step 1
Not defined
7...15 characters
7...15 characters
1...40 characters
This flag enables/disables the TWAMP reflector functionality for the application or IP interface object.
This flag enables/disables the UDP echo functionality for the application or IP interface object.
This parameter specifies the overall rate at which the BTS sends TWAMP initiator messages. The messages are evenly spread over the enabled TWAMP sessions at any given time.NOTE: By default, the parameter is set to 'RATE_10'
This parameter specifies the source port that is assigned to the TWAMP reflector. The sender on any measurement request packet shall use that port to reach the TWAMP reflector.
Note: UDP ports 7 (standard UDP echo port) and port range 5001..5010 (UDP ports of TWAMP sender) shall not be used for UDP reflector port.
This parameter specifies the IP address to be used for user plane traffic. The IP address may collapse with a network interface IP address. If it does not collapse with a network interface IP address, it is considered to be virtual.The user plane IP address may also collapse with the mPlaneIpAddress, the sPlaneIpAddress and the cPlaneIpAddress.
This parameter holds the U-Plane IPv6 address of this eNB.Format: parameter with IPv6 address acc. to RFC4291.
This is the weight value to be used in the WFQ aggregation scheduler for Service OAM messages.NOTE: By default, the parameter holds weight value 10
The IPRM object provides filtering services for IP packets from and to the attached site support equipment. In this concept, by default the site support equipment cannot be accessed. IPRM defines up to 32 exceptions to this rule. Each exception is defined as a destination IP address to/from which traffic is With this parameter, the user can select the way how to define source two.The possible values are: SINGLE: a single IP addressRANGE: a range of IP addresses given by an IP address and a subnet mask
SINGLE (1), RANGE (2), WILDCARD (3)
This parameter is only meaningful if parameter sourceTwoDiscr has value SINGLE or RANGE.
If sourceTwoDisc has value SINGLE, this parameter specifies the only IP address from / towards which traffic is allowed.This parameter is meaningful only if source two is defined as RANGE; in all other cases it is ignored."SourceTwoNet Mask" specifies a netmask which, when applied to "IP address for source two", yields the allowed range of IP addresses for source two.An alphanumeric string assigned by the user to identify the Restricted Mode exception.NOTE: This parameter is mandatory for exception and must be unique
1...1, step 1
1...1, step 1
This is a set of entries, each defining a static IP route. Not defined
0...16, step 1
7...15 characters
7...15 characters
7...15 characters
1...254, step 1
1...1, step 1
Not defined
0...16, step 1
Destination IPv6 Address Of The Static Route 2...45 characters
This parameter identifies the unique instance of class IPRM. The value is always 1.
This parameter identifies the IP routing table. The value is always 1.
This parameter identifies the Bidirectional Forwarding Detection (BFD) session that shall protect this route. The parameter value shall match one of the object instance identifiers of the BFD managed object class.Value 0 means the route is not protected by any BFD session.This parameter specifies the host or network address for the destination of an IP route. It needs to be in line with the network mask. To be entered in dotted decimal format.
This parameter specifies the IP address of the next IP hop via which a remote network can be reached. To be entered in dotted decimal format.
Specifies the mask of the remote network. To be entered in dotted decimal format.
This parameter specifies a cost value for this route. Lower preference means lower cost. The FTM shall use by preference routes with lower preference value.
This parameter identifies the IPv6 routing table. The value is always 1.
This is a set of entries, each defining a static IPv6 route.The management system provides at minimum the route for the default gateway of the FTM. (public).
This parameter identifies the Bidirectional Forwarding Detection (BFD) session that shall protect this route. The parameter value shall match one of the object instance identifiers of the BFD managed object class.Value 0 means the route is not protected by any BFD session.
0...128, step 1
2...45 characters
1...254, step 1
7...15 characters
0 (false), 1 (true)
exit (0)
This parameter indicates IPsec emergency bypass status
0 (false), 1 (true)
1...1, step 1
Not defined
0 (false), 1 (true)
This is the IPv6 prefix-length parameter of the destination IPv6 address.Format: parameter acc. to RFC4291.
This parameter specifies the IPv6 address of the next IP hop via which a remote network can be reached.Format: parameter with IPv6 address acc. to RFC4291.
This parameter specifies a cost value for this route. Lower preference means lower cost. The FTM shall use by preference routes with lower preference value.
This parameter configures the IP address of IPsec emergency bypass control server
This parameter is used for enabling/disabling IPsec emergency bypass
This is action parameter to exit the active IPsec emergency bypass request state.
This parameter configures the timer value for the IPsec emergency bypass ping request
5...300 seconds, step 1 seconds
Off (0), Standby (1), Probing (2), Active (3)
This parameter switches IPsec globally on (value true) or off (value false).
This parameter identifies the BTS transport IPsec configuration. The value is always 1.
This is the list of security policies of the FTM. Each entry in the list consists of several parameters.
If this flag is true,anti replay checking for the IPsec connections of this policy is enabled, else it is switched off.
DH2 (0), DH14 (1)
IKE_V1 (0), IKE_V2 (1)
2...45 characters
-1...65535, step 1
0...128, step 1
7...15 characters
This is the size of the anti replay window to be used on the security policy.
The parameter is only relevant if the parameter antiReplayEnabled has the value True.
SIZE_64 (0), SIZE_128 (1), SIZE_256 (2)
This parameter specifies the delay between the sending of two consecutive DPS INFORMATIONAL messages by the BTS. The INFORMATIONAL message indicates the BTS is still alive.For IKEv2, the BTS raises the Dead Peer Detected (DPD) alarm if the remote peer has not sent any INFORMATIONAL message to the BTS after the BTS has sent a fixed number of INFORMATIONAL messages.
10...360 seconds, step 1 seconds
This parameter specifies the time after which the BTS raises the Dead Peer Detected (DPD) alarm.The parameter dpddelay specifies the delay between the sending of two consecutive DPS INFORMATIONAL messages by the BTS. The INFORMATIONAL message indicates that the BTS is still alive.
60...3600 seconds, step 1 seconds
This parameter holds the ESP encryption algorithm to be applied to the traffic data packet for which the policy matches.
The default value for ESP encryption algorithm offers 2 values (priority list) where
ENC_NULL (0), ENC_AES_128_CBC (1), ENC_3DES_192_CBC (2), ENC_AES_128_CBC_OR_3DES_192_CBC (3)This parameter selects the DH group to be used in the
establishment and rekeying of IKE SAs
This parameter holds the encryption algorithm at the IKE layer to be applied to the traffic data packet for which the policy matches.
The default value for IKE encryption algorithm offers 2 values (priority list) where
ENC_AES_128_CBC (1), ENC_3DES_192_CBC (2), ENC_AES_128_CBC_OR_3DES_192_CBC (3)
This parameter holds the IKE protocol version of this association used for this policy.
This flag rules the basic treatment of a traffic data packet that applies to the selection criteria of this policy.The values have the following meaning:"DISCARD": the packet is discarded without any further action or notification, i.e. it is prevented from passing to its designated destination.
PROTECT (0), DISCARD (1), BYPASS (2)
This parameter holds the local IP address of the data traffic packet for this policy as seen by the FTM.
To be entered in dotted decimal format.
This is the port number of the local IP address. If value -1 is configured, the IPSec policy is valid in the same way to and from all ports of the local IP address.
The following combinations of local and remote IP addresses, local and remote port numbers and protocol are feasible:This parameter specifies the length netmask to the parameter localIpPrefixLength.Prefix length for IPV4 : 0-32Prefix length for IPV6 : 0-128
Local IPsec tunnel endpoint IPv4 address.
To be entered in dotted decimal format.
0...65535, step 1
-1...254, step 1
2...45 characters
-1...65535, step 1
0...128, step 1
7...15 characters
0...65535, step 1
0...7, step 1
1...100, step 1
Defines the inter-frequency blacklisted cell list. Not defined
This is the order number of the security policy. Only the lowest number of several equally matching policies is executed on a specific traffic data packet.
This parameter holds the protocol information of the IP packet according to RFC791 (IPv4) or RFC1883 (IPv6).If the parameter has value -1, the policy is valid for all protocols.
This parameter holds the remote IP address of the data traffic packet for this policy as seen by the FTM.
To be entered in dotted decimal format.
This is the port number of the remote IP address. If value -1 is configured, the IPSec policy is valid in the same way to and from all ports of the remote IP address.
The following combinations of local and remote IP addresses, local and remote port numbers and protocol are feasible:This parameter specifies the length netmask to the parameter remoteIpPrefixLength.Prefix length for IPV4 : 0-32Prefix length for IPV6 : 0-128
This parameter holds the remote IPsec tunnel endpoint IP address as seen by the FTM. It corresponds to the IKE association peer for which the given secret shared key is used.To be entered in dotted decimal format.
This parameter holds the maximum lifetime of an IPSEC security association. The IPSEC SA will be rekeyed at a random time between 270 and 180 seconds before the maximum lifetime expires, i.e. between (saMaxLifetime – 270 seconds) and (saMaxLifetime – 180 seconds) after establishing
300...86400 seconds, step 1 seconds
eUTRA frequency (max. value ref to 3GPP 36.331 chapter 6.4) as EARFCN value
Absolute priority of the EUTRA carrier frequency
Equal priorities between RATs are not supported according to [3GPP 36.304].
Weight factor of EUTRA carrier frequency used by round robin algorithm for idle mode load balancing.When the parameter is not defined, the corresponding carrier is not used in selecting main target for IdleModeMobilityControlInfo for load balancing. Weighted round robin algorithm shall select always one target frequency for idle
Indicates the number of PCIs in the range (including startPCI). Value n4 corresponds with 4, n12 corresponds with 12 and so on. The UE applies value 1 if the field is absent, in which case only the physical cell identity value indicated by start applies.
n4 (0), n8 (1), n12 (2), n16 (3), n24 (4), n32 (5), n48 (6), n64 (7), n84 (8), n96 (9), n128 (10), n168 (11), n252 (12), n504 (13)
Indicates the lowest PCI in the range 0...503, step 1
Not defined
0...503, step 1
Not defined
0...31 dB, step 1 dB
0...31 dB, step 1 dB
0...62 dB, step 2 dB
0...62 dB, step 2 dB
0 (false), 1 (true)
EUTRA Cell Reselection Timer 0...7 s, step 1 s
1...8, step 1
This is a list of neighbouring cells with specific values for idle mode mobility parameters
The Physical Cell Identifier is a unique cell identification in a Neighbouring Cell List. It is used to indicate the physical layer identity of the cell, as defined in TS 36.211
The parameter defines a cell-specific offset (in dB) that is used in the cell reselection procedure. This specifies the offset between two cells.
-24 dB (0), -22 dB (1), -20 dB (2), -18 dB (3), -16 dB (4), -14 dB (5), -12 dB (6), -10 dB (7), -8 dB (8), -6 dB (9), -5 dB (10), -4 dB (11), -Quality thresholds used by the UE when reselecting towards a
different priority frequency.Not recognized by UEs < Rel9.
This specifies the quality threshold used by the UE when reselecting towards a higher priority frequency than the currently serving frequency.Not recognized by UEs < Rel9.
This specifies the quality threshold used by the UE when reselecting towards a lower priority frequency than the currently serving frequency.Not recognized by UEs < Rel9.
This specifies the threshold used by the UE when reselecting towards a higher priority frequency X than the currently serving frequency
This specifies the threshold used in reselection towards frequency X priority from a higher priority frequency
The IE PresenceAntennaPort1 is used to indicate whether all the neighboring cells use Antenna Port 1. When set to TRUE, the UE may assume that at least two cell-specific antenna ports are used in all neighboring cells.
This parameter uniquely identifies an IRFIM (Inter-frequency Idle Mode configuration) managed objects.
-30...33 dBm, step 1 dBm
-34...-3 dB, step 1 dB
-140...-44 dBm, step 2 dBm
Not defined
7...15 characters
2...45 characters
0...126, step 1
7...15 characters
The IE AllowedMeasBandwidth is used to indicate the maximum allowed measurement bandwidth common for all neighbouring cells on acarrier frequency. The values mbw6, mbw15, mbw25, mbw50, mbw75, mbw100 indicate 6, 15, 25, 50, 75 and 100 resource blocks respectively.
6mbw (0), 15mbw (1), 25mbw (2), 50mbw (3), 75mbw (4), 100mbw (5)
Pmax to be used for the neighbouring E-UTRA cells on this carrier frequency. If Pmax is absent, the maximum power according to the UE capability is used.
Frequency-specific offset for equal priority E-UTRAN frequencies.
-24 dB (0), -22 dB (1), -20 dB (2), -18 dB (3), -16 dB (4), -14 dB (5), -12 dB (6), -10 dB (7), -8 dB (8), -6 dB (9), -5 dB (10), -4 dB (11), -Minimum required quality level in inter-frequency neighbor
cells.Not recognized by UEs < Rel9.
Specifies the minimum required Rx RSRP level for the neighboring EUTRA cells on this carrier frequency.
The parameter "Speed dependent ScalingFactor for TreselectionEUTRAN" in TS 36.304. If the field is not present, the UE behavior is specified in TS 36.304
The field t-ReselectionEUTRA is multiplied with this factor if the UE is in the High Mobility state as defined in 36.304
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
The field t-ReselectionEUTRA is multiplied with this factor if the UE is in Medium Mobility state as defined in 36.304.
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
This parameter holds the IP address of the BTS in the transport network for this VLAN. It is accompanied with a subnet mask.
This is the IPv6 address of the VLAN Ethernet network interface towards the external transport network. Format: parameter with IPv6 address acc. to RFC4291.
This is the IPv6 prefix-length parameter of the VLAN Ethernet network interface towards the external transport network. Format: parameter according to RFC4291.
This parameter holds the network mask for the local IP address of the BTS in the transport network for this VLAN.
0 (false), 1 (true)
0...4094, step 1
1...7, step 1
1...10000, step 1
Not defined
This parameter specifies a DSCP value. 0...63, step 1
1...6, step 1
0 (false), 1 (true)
This parameter specifies the weight for the 1st priority queue. 1...8, step 1
1...8, step 1
This parameter specifies if multiple PHB queues are used over this VLAN interface or only a single one. Multiple PHB queues allow DSCP based traffic prioritisation.
This parameter holds the shaper burst size for a specific VLAN interface.
4000...2000000 octets, step 1 octets
This parameter holds the shaper information rate for a specific VLAN interface. For FTLB, the actual minimum egress rate is 1.18 Mbps and on FSM-r3, the actual minimum egress rate is 1.56 Mbps due to technical limitations on Octeon.
100...1000000 kbps, step 100 kbps
This parameter specifies the VLAN identifier number of the VLAN network interface.
This parameter identifies the VLAN interface object. Value is 1 to 7. Up to 7 VLANs can exist on the BTS.BTS supports VLAN interfaces with only one PHB queue but two VLAN interfaces can be configured with 6 PHB queues.
This is the weight value to be used in the WFQ aggregation scheduler for this VLAN interface.
This parameter maps DSCP values to priority queues. The table contains at most 64 entries, one for each possible DSCP value (0..63).
Default values for FTIB hardware unit type:
This parameter specifies a priority queue.
FTIB hardware unit type:Priority queue values range from 1 to 4 where 4 means lowest and 1 means highest priority. The default value of the parameter = 4.This parameter enables the layer 2 switching feature.If the feature is switched off (false), the Ethernet switching between eNB and backhaul network remains operational, but all other Ethernet ports are inactive. eNBs connected to those ports are effectively disconnected from the transport network.
This parameter specifies the weight for the second priority queue.
The default value of this parameter = 1 for the FTIB hardware unit.
This parameter specifies the weight for the third priority queue. 1...8, step 1
1...8, step 1
1...8, step 1
0...7, step 1
1...4094, step 1
1...6, step 1
1...6, step 1
1...6, step 1
1...6, step 1
1...6, step 1
1...6, step 1
1...6, step 1
This parameter specifies the weight for the fourth priority queue.This parameter is only supported for the FTLB and FSMr3 hardware unit types.
This parameter specifies the weight for the fifth priority queue.This parameter is only supported for the FTLB and FSMr3 hardware unit types.
Default VLAN priority for untagged frames.
Every untagged ingress Ethernet frame at this interface gets assigned this Port Default Priority. If QoS classification mode is configured to VLAN-PCP, this priority is used for enqueing decision of the frame. If the frame egresses the switch tagged, This parameter specifies the VLAN identifier that is inserted internally by the FTM into an untagged ingress frame that enters the layer 2 switch via this Ethernet interface - if parameter discardUntagged has value "false" for the Ethernet interface.This parameter specifies which priority queue shall be used for non-IP frames. Non-IP frames examples are ARP-, Ethernet OAM- and Synchronous Ethernet messages.The value range of this parameter = 1..4 for the FTIB hardware unit.This parameter specifies which priority queue shall be used for frames with VLAN PCP bits value 0.
The value range of this parameter = 1..4 for the FTIB hardware unit.This parameter specifies which priority queue shall be used for frames with VLAN PCP bits value 1.
The value range of this parameter = 1..4 for the FTIB hardware unit.This parameter specifies which priority queue shall be used for frames with VLAN PCP bits value 2.
The value range of this parameter = 1..4 for the FTIB hardware unit.This parameter specifies which priority queue shall be used for frames with VLAN PCP bits value 3.
The value range of this parameter = 1..4 for the FTIB hardware unit.This parameter specifies which priority queue shall be used for frames with VLAN PCP bits value 4.
The value range of this parameter = 1..4 for the FTIB hardware unit.This parameter specifies which priority queue shall be used for frames with VLAN PCP bits value 5.
The value range of this parameter = 1..4 for the FTIB hardware unit.
1...6, step 1
1...6, step 1
1...6, step 1
DSCP (0), PCP (1)
1...1, step 1
0 (false), 1 (true)
0...255, step 1
0...100 us, step 1 us
Not defined
Identifies the specific antenna line. 1...72, step 1
Identifies the subsidiary cell. 1...2, step 1
TXRX (0), TX (1), RX (2)
This parameter specifies which priority queue shall be used for frames with VLAN PCP bits value 6.
The value range of this parameter = 1..4 for the FTIB hardware unit.This parameter specifies which priority queue shall be used for frames with VLAN PCP bits value 7.
The value range of this parameter = 1..4 for the FTIB hardware unit.This parameter specifies which priority queue shall be used for untagged frames.
The value range of this parameter = 1..4 for the FTIB hardware unit.This parameter specifies if the layer 2 switching is based on DSCP to PHB mapping or on PCP to PHB mapping.- In case it is DSCP to PHB mapping, the priority queue for egress traffic is taken from parameter dscpMap for IP frames and from parameter priorityQueueNonIP for non-IP frames.This parameter identifies the layer 2 switch. The value is always 1.
This parameter specifies the QOS based switching mode as follows:
If set to "true", ethernet frames tagged with a VLAN ID shall be switched between two ethernet member ports of a layer 2 bridge only, if both ports are member of the same VLAN. Else the packet shall be dropped. The handling of untagged frames
The LTE local cell resource is an object that consists of the HW required by one cell for transmission and receiving. Local cell resource identifier is used to address one particular local cell resource at the BTS. The lCelId is unique within a BTS. With the Configuration Data message, the local cell resource can be Defines the Delay Equalizer delay for cell assigned to the Repeater Interface Unit.
The resource list specifies the antenna line resources allocated for the given local cell.TX and RX resources can freely be assign to local cells. The functionality is guaranteed only for officially supported and tested configurations. There will be no error handling when unofficial configurations are used.
States the purpose of use of this antenna line which can be either for receiving and transmitting (main antenna line), just transmitting (diversity antenna line) or just receiving (diversity antenna line).
0...255, step 1
0...1048575, step 1
2...45 characters
Not defined
0...999, step 1
MME group ID included in GU group ID. 0...65535, step 1
0...999, step 1
This parameter determines the range of MNC. 2...3, step 1
0...255, step 1
Not defined
0...999, step 1
This parameter defines the spatial sector covered by the cell. Cells in the same sector must have same value for sectorId.
This is the unique ID of the neighbor eNB within PLMN, where adjEnbId and plmnId form the neighbor global eNB ID.
Both IP address formats can be used.Format: IPv4 address parameter in dotted decimals or IPv6 address parameter acc. to RFC 4291.
IPv6 support is provided when in object IPNO the parameter actIpv6 is configured to "true".The parameter determines whether the C-Plane IP address of the neighbor eNB (X2 link) is statically configured or whether eNB is allowed to update the address based on information provided by ANR procedures.oamControlled X2 link:
oamControlled (0), enbControlled (1)
This is a globally unique group identification of the MME(s) connected to the neighbor eNB. The ID is received during the X2 setup procedure for the respective X2 link from the neighboring eNB.
Mobile Country Code in PLMN identity included in GU group ID. MCC and MNC build a unique PLMN ID.
Mobile Network Code in PLMN identity included in GU group ID. MCC and MNC build a unique PLMN ID.
This is the instance identifier of the object LNADJ. This parameter appears only in the distinguished name (DN) in the plan file and is used for O&M purposes.It is highly recommended to use for object creation the lowest free lnAdjId value within all LNADJ instances of an eNB. This is to avoid rejection of plan file activation due to colliding lnAdjId values if an LNADJ instance is automatically created by eNB
This is the primary PLMN ID of the neighbor eNB. The parameter adjEnbId and plmnId form the globally unique eNB ID.
Mobile Country Code in the primary PLMN ID of neighbor eNB. MCC and MNC build the PLMN ID.
0...999, step 1
2...3, step 1
unavailable (0), available (1)
0...1023, step 1
dcs1800 (0), pcs1900 (1)
0...7, step 1
0 (false), 1 (true)
0...65535, step 1
0...65535, step 1
0...255, step 1
0...255, step 1
0...999, step 1
Mobile Network Code in the primary PLMN ID of the neighbor eNB. MCC and MNC build the PLMN ID.
The MNC length determines the range of MNC in the primary PLMN ID.
The parameter provides information whether the X2 link is successfully established.
ARFCN Value of the GERAN neighbour cell(Part of CarrierFrequency)
Bandindicator Value of the GERAN neighbour cell(Part of CarrierFrequency)The IE BandIndicatorGERAN indicates how to interpret an associated GERAN carrier ARFCN, see TS 45.005 [20]. More specifically, the IE indicates the GERAN frequency band in case the ARFCN value can concern either a DCS 1800 or a BaseStation Colour Code of GERAN neighbour cell
(Part of PhysicalCellId)
This parameter indicates whether the GERAN target cell is DTM-capable. This information is evaluated during SRVCC to GERAN when deciding whether the UE is available for PS service
Cell Identity of GERAN neighbor cell
(Part of GERAN global cell ID; CGI)
LAC of GERAN neighbour cell
(Part of GERAN global cell ID; CGI)
used as described in TS36.413 section 9.2.1.6Routing Areas Code (RAC) of GERAN neighbor cell.
Hint: The RAC value is needed for establishing a RIM association, that is no RIM association will be established if the value is omitted even if the featureGeranTarget_INDEX uniquely identifies a set of GERAN neighbour cell parameters within an eNB. Used by the operator on the cell level to associate an GERAN neighbour cell to a particular LTE cell
Mobile Country Code included in the PLMN ID of the GERAN neighbour cell
(Part of GERAN global cell ID; CGI)
0...999, step 1
2...3, step 1
0...7, step 1
4...48 characters
none (0), si (1), psi (2)
Not defined
0...999, step 1
0...999, step 1
This parameter determines the length of MNC. 2...3, step 1
normal (0), extended (1)
Mobile Network Code included in the PLMN ID of the GERAN neighbour cell
(Part of GERAN global cell ID; CGI)
Length of Mobile Network Code included in the PLMN ID of the GERAN neighbour cell
(Part of GERAN global cell ID; CGI)
Network Colour Code of GERAN neighbour cell (Part of PhysicalCellId)Please check that this NCC is allowed LNHOG-nccperm.
Network Control Order Value of the GERAN neighbor cell, where the different parameter value mean:NC0: Normal UE control NC1: UE control with measurement reports NC2: Network control
NC0 (0), NC1 (1), NC2 (2), RESET (3)
Provides the status of the RIM association to serving BSS.
Meaning of the values:
- disabled:
disabled (0), unavailable (1), available (2)
This parameter contains the GERAN Systeminformation which is used when sending a UE to GSM by eNACC or UE Context Release with redirect.
At least one list entry must be configured if SystemInformationType has the value “si” or “psi”. This parameter is set by Operator to indicate which type of GERAN Systeminformation (if any) is included in the RRC MOBILITYFROMEUTRANCOMMAND message.
The parameter is meaningless Broadcast PLMN ID of the cell served by the neighbor eNB. Up to 6 different PLMN IDs per served cell can be broadcast.
At least one entry with the primary PLMN ID of the neighbor eNB is mandatory required in the list.Mobile Country Code in broadcast PLMN ID of the cell served by the neighbor eNB. MCC and MNC build a unique PLMN ID.
Mobile Network Code in broadcast PLMN ID of the cell served by the neighbor eNB. MCC and MNC build a unique PLMN ID.
Adjacent cyclic prefix configuration in DL. The parameter is not applicable for FDD neighbor cells.
normal (0), extended (1)
0...1048575, step 1
0...255, step 1
Not defined
0...999, step 1
0...999, step 1
2...3, step 1
0...65535, step 1
0...65535, step 1
0...23, step 1
0...503, step 1
Adjacent cyclic prefix configuration in DL.The parameter is not applicable for FDD neighbor cells.
Downlink transmission bandwidth of the FDD neighbor cell.The parameter is not applicable for TDD neighbor cells.The enumerated values correspond to the number of resource blocks "NRB".
6nrb (0), 15nrb (1), 25nrb (2), 50nrb (3), 75nrb (4), 100nrb (5)
This parameter is the Macro eNB identifier which is part of the E-UTRAN Cell Global Identifier (ECGI) of the neighbor cell.
This parameter is the local cell resource ID which is part of the E-UTRAN Cell Global Identifier (ECGI) of the neighbor cell.
This parameter is the primary PLMN ID which is part of the E-UTRAN Cell Global Identifier (ECGI) of the neighbor cell.
Mobile Country Code in PLMN Identity included in ECGI of the cell served by neighbour eNB. MCC and MNC build the plmn Id of ECGI.
Mobile Network Code in PLMN Identity included in ECGI of the cell served by neighbour eNB. MCC and MNC build a plmn Id of ECGI.
MNC Length determines the length of MNC in the primary plmn id.
Downlink EARFCN of the FDD or TDD cell served by neighbor eNB.
Uplink EARFCN of the FDD neighbor cell.The parameter is not applicable for TDD neighbor cells.
This is the instance identifier of the object LNADJL. This parameter appears only in the distinguished name (DN) in the plan file and is used for O&M purposes.
It is highly recommended to use for object creation the lowest free lnAdjlId value within all LNADJL instances subordinate to an LNADJ object. This is to avoid rejection of plan file activation due to colliding lnAdjlId values if an LNADJL instance is
This is the physical cell ID of the cell served by the neighbor eNB.
OM (0), UE (1), X2 (2)
0...65535, step 1
Uniquely identifies a UTRAN neighbour cell within an eNB. 0...255, step 1
Not defined
Mobile Country Code of the primary PLMN ID. 0...999, step 1
Mobile Network Code of the primary PLMN ID. 0...999, step 1
This parameter determines the length of MNC. 2...3, step 1
Not defined
The parameter provides information whether the object creation or latest update was based on plan file (OM), X2 information (X2) or UE specific ANR measurements (UE).
Supported special subframe configuration by neighbor eNB. The parameter is not applicable for FDD neighbor cells.
ssp0 (0), ssp1 (1), ssp2 (2), ssp3 (3), ssp4 (4), ssp5 (5), ssp6 (6), ssp7 (7), ssp8 (8)
This is the tracking area code of the cell served by the neighbor eNB.
Uplink and Downlink Transmission Bandwidth Of Cell Served By Neighbor ENB. The parameter is not applicable for FDD neighbor cells.The enumerated values correspond to the number of resource blocks "NRB".
6nrb (0), 15nrb (1), 25nrb (2), 50nrb (3), 75nrb (4), 100nrb (5)
UL and DL Configuration of a subframe in a radio frame supported by neighbor eNB. The parameter is not applicable for FDD neighbor cells.
sa0 (0), sa1 (1), sa2 (2), sa3 (3), sa4 (4), sa5 (5), sa6 (6)
Uplink transmission bandwidth of the FDD neighbor cell.The parameter is not applicable for TDD neighbor cells.The enumerated values correspond to the number of resource blocks "NRB".
6nrb (0), 15nrb (1), 25nrb (2), 50nrb (3), 75nrb (4), 100nrb (5)
This parameter is the primary PLMN ID that is part of the UTRAN Cell Global Identifier (CGI) of the neighbor cell.
Identifies the secondary PLMNs to which a neighboring UTRAN cell belongs. Multiple PLMNs can be specified.
Mobile Country Code of the secondary PLMN ID. 0...999, step 1
Mobile Network Code of the secondary PLMN ID. 0...999, step 1
This parameter determines the length of MNC. 2...3, step 1
OM (0), UE (1)
PSandCS (0), CSonly (1)
0...65535, step 1
0...16383, step 1
0...65535, step 1
0...255, step 1
0...65535, step 1
0...511, step 1
0...2047, step 1
The parameter provides information whether the object creation or latest update was based on plan file (OM) or UE-specific ANR measurements (UE).
This parameter selects if SRVCC to a WCDMA target cell is performed as a combined PS and CS SRVCC or whether SRVCC is performed for the CS bearer only.This parameter must be configured individually for every WCDMA cell that is used as target for SRVCC.UTRAN Cell-ID which is part of the UTRAN Cell Global Identifier (CGI) of the related neighbor cell.It uniquely identifies a neighbouring cell within the RNC and is required (together with the RNC ID) for the Source RNC To Target RNC Transparent Container IE in the S1AP: HANDOVER REQUIRED message during handover to UTRAN.Target FrequencyTarget Frequency provides the DL Carrier Frequency of the neighbouring UTRAN cell. Received from RRM-CMC in the TCL, which together with the primary scrambling code identifies a neighboring UTRAN cellTarget Location Area CodeUtranTarget_LAC provides the Location Area Code identifying the Location Area of a neighbouring UTRAN cell. Required for the S1AP: HANDOVER REQUIRED message during handover to UTRANTarget Routing Area CodeUtranTarget_RAC provides the Routing Area Code identifying the Routing Area of a neighbouring UTRAN cell. Required for the S1AP: HANDOVER REQUIRED message during handover to UTRANUTRAN RNC identifier which is part of the UTRAN Cell Global Identifier (CGI) of the related neighbor cell.
Values in the range of 4096 .. 65535 are considered as Extended RNC-ID.Primary Scrambling Code (FDD) Of The Neighbouring UTRAN Cell UtranTarget_SC_FDD: The primary scrambling code (FDD) of the neighbouring UTRAN cell. Received from RRM-CMC in the TCL, which together with the cell frequency identifies a neighbouring UTRAN cellDefines the CDMA2000 1x Radio Transmission Technology (1xRTT) carrier frequency of this 1xRTT neighbor cell.The CDMA2000 ARFCN used to indicate the CDMA2000 carrier frequency within a CDMA2000 band, see C.S0002-A.
0...4095, step 1
0...311, step 1
0...65535, step 1
0...15, step 1
0...255, step 1
0 (false), 1 (true)
This parameter activates the support of up to 8 EPS bearers. 0 (false), 1 (true)
0 (false), 1 (true)
Disabled (0), Enabled (1)
This is a feature flag to enable or disable Cell Trace feature. 0 (false), 1 (true)
Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) band class of this 1xRTT neighbor cell.The CDMA2000 band class is used to define the CDMA2000 band in which the CDMA2000 carrier frequency can be found, as defined in C.S0057-E [table 1.5-1].
bc0 (0), bc1 (1), bc2 (2), bc3 (3), bc4 (4), bc5 (5), bc6 (6), bc7 (7), bc8 (8), bc9 (9), bc10 (10), bc11 (11), bc12 (12), bc13 (13), bc14 (14), Defines the cell number of this CDMA2000 1x Radio
Transmission Technology (1xRTT) neighbor cell
This parameter is the naming attribute Of MOC LNADJX.It uniquely identifies a LNADJX instance.
Defines the market identifier of the CBSC for this CDMA2000 1xRTT neighbor cell.
Defines the Pseudo-Random Noise (PN) offset of this CDMA2000 1x Radio Transmission Technology (1xRTT) neighbor cell.see C.S0002-A for the defnition.
0...511 64 PN chips, step 1 64 PN chips
Defines the sector number of this CDMA2000 1x Radio Transmission Technology (1xRTT) neighbor cell.
Defines the switching number of this CDMA2000 1xRTT neighbor cell.
This parameter enables the feature LTE1441 enhanced CSFB to CDMA2000 1xRTT.
Activates CMAS supportIf CMAS support is set to "true", CMAS warning messages are broadcasted (SIB12) in case of Write-Replace Warning Request incl. CMAS data is received from MME
The parameter activates the feature 'Circuit Switched Fallback to UTRAN or GSM via Redirection'.
If the feature is activated, mobile originated and mobile terminated CS calls are redirected to targets which are to be configured via REDRT objects.
0 (false), 1 (true)
This parameter enables/disables optional ciphering algorithms. 0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
This is a feature flag to enable or disable Cell Trace with IMSI feature. It will be only utilized when cell trace is activated, i.e. actCellTrace is 'true'
The parameter activates Complete Consistency Checks in Validator tool.This parameter can be used to disable the checks that could block eNB reconfiguration after SW upgrade.Only particular checks in Validator tool are disabled by this parameter.This parameter activates the support of the conversational voice bearer. The change becomes active for a cell after the next cell locking/cell unlocking sequence.
Feature enabling flag for LTE1047: C-plane overload handling feature. The feature detects overload and triggers counter measures.
This parameter activates the feature 'Circuit Switched Fallback with Packet Switched Handover to UTRA'.
The parameter activates the LTE1089: Downlink carrier aggregation and LTE1332:Downlink carrier aggregation - 40 MHz feature. The feature allows higher UE downlink peak data rates by aggregation of two cells.The parameter actDistributedSite allows usage of Distributed Site.That is, a RF unit may lie up to 20 km distance from the system module.
The eNB supports up to 6 cells dual band configurations with one system module.
The eNB will support two carriers within the same RF band for same sector (that is for one antenna line) when the value is configured to "true".Bandwidths 5MHz, 10 MHz, 15 MHz and 20 MHz are supported.Activates the feature CS fallback to CDMA 1xRTT for dual Rx UEs
This parameter activates the E-RAB Modification by the S1AP message E-RAB MODIFY REQUEST.
0 (false), 1 (true)
Disabled (0), Enabled (1)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
Activates open access home eNB mobility. 0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
This parameter enables the feature Handover from UTRAN. 0 (false), 1 (true)
0 (false), 1 (true)
Activates ETWS supportIf ETWS support is set to "true", ETWS primary and secondary notification are broadcasted (SIB10 and SIB11) in case of Write-Replace Warning Request incl. ETWS, data is received from MME.The parameter activates the feature 'Emergency Call Via Redirection'.
The feature can be only activated if at least one redirection target for UTRAN or GSM has been created before.This parameter activates support of the following featuresLTE534: ARP based Admission Control LTE497: Smart Admission Control, comprising RAC and TACLTE496: EPS bearers with QCI 2, 3 and 4Feature LTE496 introduces support of QCI 2, 3, and 4 along with higher guaranteed bit rates and related congestion detection and handling mechanisms.
Activation of more flexible base band usage by allowing more enhanced recovery in case of HW failure. If set to 'true', the size of PUCCH PRB may be limited on 10 MHz system bandwidth or lower. It need to be set to 'true' to configure more than 2 cells with FSMD, more than 3 with FSME or FSMF This parameter activates the feature "GSM redirect with system information".
This parameter activates the feature Handover from LTE to eHRPD.
This parameter enables the Handover from LTE to WCDMA feature.
This parameter enables/disables the feature "Multimedia priority services" (LTE1074)
Activation to configure more than 840 RRC connected UE.
With this parameter it is possible to support higher amount of Active UE on cell. The amount of Active UE cannot exceed maximum number of RRC_connected.
This parameter activates the support IMS Emergency sessions for Release 9 UEs.
0 (false), 1 (true)
disabled (0), enabled (1)
Activates "Idle mode mobility from LTE to CDMA/eHRPD". 0 (false), 1 (true)
Activates idle mode mobility from LTE to CDMA/1xRTT. 0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
This parameter activates the support of multiple EPS Bearers. 0 (false), 1 (true)
The parameter activates the feature Idle Mode Load BalancingThis flag activates the following functionalities:-inter-RAT IdleLB targets-Load balancing for redirection (requires also the UE context release with redirect feature "actRedirect" and CS Fallback via Redirection feature "actCSFBRedir")This parameter enables the feature Inter Frequency Handover to FDD and TDD neighbor cells.
The parameter activates Inter- frequency load balancing (iF-LB) feature.If the feature iF-LB is activated ("true"), inter-frequency load measurements are performed per cell. Dependent on the actual load situation UEs might be handovered to low loaded neighbor cells (different frequency layer).If activated, the intra-frequency load balancing algorithm continuously estimates the cell load, triggering a handover threshold negotiation with the neighbors when the cell load is above a predefined value. The handover threshold negotiation procedure is done over the X2 interface to align the handover Activates support of the LPPa OTDOA information request procedure via S1AP
This parameter enables the feature Intra LTE Inter eNodeB Handover via S1
Activation/deactivation of Location Reporting (feature 'Support of cell based location service')
This is a feature flag to enable or disable LTE953: MDT Trace feature.
This parameter activates/deactivates the feature "Multiple Frequency Band Indicator" (LTE1534)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
disabled (0), enabled (1)
0 (false), 1 (true)
disabled (0), enabled (1)
This parameter activates the S1 Overload Handling feature. 0 (false), 1 (true)
This parameter activates the support of multiple GBR EPS Bearers.
This parameter activates the Service Differentiation for non-GBR Bearers.
Activate OTN Link Loss Self-Recovery flagThis parameter specifies the behavior of Optical Network (OTN) recovery actions. When this parameter is set to true, a 1956 fault (critical BER detected on the optical connection to Radio Module) will not trigger the BTS to reset the impacted RF This parameter activates the support the establishment of EPS bearers with QCI in the range of 128…254.
This parameter activates the support of establishment of GBR EPS bearers with QCI in the range of 128…254.
Activates the optimized MME selection algorithmIf this parameter is set to “true”, the MME selection function distinguishes native and mapped GUMMEIs according to TS 23.401. If UE provides its (old) GUMMEI, the MME selection function based on GUMMEI is restricted to the corresponding This parameter activates the usage of PDCP Robust Header Compression.
The parameter activates the LTE498: RAN Information Management (RIM) for GSM feature.
This parameter enables the feature UE context release with redirect.
The parameter actRfChaining allows RF units chaining. That is, an optical fiber from the system module is chained via a RF unit to another RF unit.
This parameter indicates whether S1 Flex feature is enabled or disabled.
The parameter activates the feature 'Selective Mobility Profiles'. 0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
Not defined
This parameter enables the feature "SRVCC from LTE to GSM".
This parameter enables the SRVCC from LTE to WCDMA feature.
This is a feature flag to enable or disable Subscriber & Equipment Trace feature.
This parameter indicates if the 'Intra-LTE Inter-Frequency UE-based ANR' feature is activated by the operator.
This parameter indicates if the 'Intra-LTE Intra-Frequency UE-based ANR' feature is activated by the operator.
This parameter indicates if the UE-based ANR for Inter-RAT UTRAN feature neighbor cells is activated by the operator.
Note:The feature ''UE-based ANR for Inter-RAT UTRAN" is currently not supported, therefore actUeBasedAnrUtran must always be configured to 'false'.
Uplink coordinated multipoint (CoMP) reception activation for the eNB.
Controls optional ZUC ciphering and integrity protection algorithms.This parameter enables/disables optional ZUC ciphering algorithms.
This parameter enables the feature LTE442 Network Assisted Cell Change from LTE to GSM
AM RLC Poll Byte Table for UE Category 1.It is used to obtain the UL pollByte and DL pollByte values for UE category 1.
AM RLC Poll Byte value in DL direction for UE category 1.
Category of UE. 1...1, step 1
AM RLC Poll Byte value in UL direction for UE category 1.
Not defined
AM RLC Poll Byte value in DL direction for UE category 2.
Category of UE. 2...2, step 1
AM RLC Poll Byte value in UL direction for UE category 2.
Not defined
AM RLC Poll Byte value in DL direction for UE category 3.
Category of UE. 3...3, step 1
AM RLC Poll Byte value in UL direction for UE category 3.
Not defined
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11),
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11), AM RLC Poll Byte Table for UE Category 2.
It is used to obtain the UL pollByte and DL pollByte values for UE category 2.
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11),
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11), AM RLC Poll Byte Table for UE Category 3.
It is used to obtain the UL pollByte and DL pollByte values for UE category 3.
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11),
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11), AM RLC Poll Byte Table for UE Category 4.
It is used to obtain the UL pollByte and DL pollByte values for UE category 4.
AM RLC Poll Byte value in DL direction for UE category 4.
Category of UE. 4...4, step 1
AM RLC Poll Byte value in UL direction for UE category 4.
Not defined
AM RLC Poll Byte value in DL direction for UE category 5.
Category of UE. 5...5, step 1
AM RLC Poll Byte value in UL direction for UE category 5.
500...8000 ms, step 500 ms
0 (false), 1 (true)
Not defined
0...999, step 1
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11),
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11), AM RLC Poll Byte Table for UE Category 5.
It is used to obtain the UL pollByte and DL pollByte values for UE category 5.
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11),
25kB (0), 50kB (1), 75kB (2), 100kB (3), 125kB (4), 250kB (5), 375kB (6), 500kB (7), 750kB (8), 1000kB (9), 1250kB (10), 1500kB (11), It defines the maximum time at the eNB to wait for an LTE inter-
frequency ReportStrongestCells measurement report from a UE configured to perform such measurement
Optional feature flag for feature LTE492 ANR support for LTE with O&M extension
Specifies the level of robustness of UE-based ANR functions. For high level of robustness, the eNB attempts for a longer time period to resolve a detected unknown neighbor cell via UE-based ANR before stopping these attempts.
none (0), very low (1), low (2), middle (3), high (4), very high (5)
List of GERAN PLMN IDs which are to be blacklisted in terms of RIM.No RIM associations will be established for GERAN cells belonging to one of the blacklisted PLMN IDs.
Mobile Country Code of the PLMN ID, which is part of the GERAN Cell Global Identifier (CGI) of the related neighbor cell.
0...999, step 1
Length of MNC in digits. 2...3, step 1
1...40 characters
Not defined
0...9, step 1
0...9, step 1
0...9, step 1
0...9, step 1
1...5, step 1
104...104, step 1
Mobile Network Code (MNC) of the PLMN ID, which is part of the GERAN Cell Global Identifier (CGI) of the related neighbor cell.
Reset request for BTS. Whenever a (delta-)plan modifiying or setting this parameter is downloaded, BTS will reset automatically. This parameter is not intended for use by operator, but will be used by NetAct to perform automatic troubleshooting actions, which require a reset of the BTS. This parameter excludes those UEs from carrier aggregation, whose UE-AMBR Downlink is below the caMinDlAmbr threshold .
64...150000 kbps, step 1 kbps
A list of supported AS ciphering algorithms. The algorithm is identified by the parameter name, and the assigned value determines the algorithm preference.
Null ciphering algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm.
SNOW 3G-based algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm.
AES-based algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm.
ZUC-based algorithm preference.A lower value represents a lower preference, and 0 does not admit the algorithm.
The Parameter congWeightAlg defines a priorization behaviour in layer 2 (MAC) until either the congestion situation ends or until the congestion situation is resolved by higher layers. There are two different algorithms possible:• qciPrio: Bearers are prioritized in order of their QCI priority.
qciPrio (0), arpPrioPerVul (1)
Default Profile Index for RLC and PDCP profiles for RLC AM mode.The indicated RLC and PDCP profile is used for the configuration of a bearer that has been configured in RLC AM in the source cell of a handover, but for which no RLC and PDCP profile has been configured in the target cell.Default Profile Index for RLC and PDCP profiles for RLC UM mode.The indicated RLC and PDCP profile is used for the configuration of a bearer that has been configured in RLC UM in the source cell of a handover, but for which no RLC and PDCP profile has been configured in the target cell.
Disabled (0), Enabled (1)
Disabled (0), Enabled (1)
1...80 characters
1...600 s, step 1 s
Not defined
0...1048575, step 1
0...999, step 1
0...999, step 1
2...3, step 1
Priority level range to be regarded as high-priority Not defined
1...15, step 1
1...15, step 1
The parameter enables the feature "Automatic locking".
If the feature is enabled, objects are automatically locked and unlocked by eNB if a parameter which requires object locking is modified via delta plan file.The parameter enables the feature 'Graceful Cell Shutdown'.
If the feature is activated an additional administrative state 'shuttingdown' is supported. It allows a less service impacting cell locking.This is a human-readable name for the eNB. It corresponds to the eNB name according to 3GPP 36.413.The character set is restricted to Printable string according to 3GPP with following supported character:lower case letters 'a' through 'z', upper case letters 'A' through 'Z', the digits '0' through '9' and the characters ' = ( ) + , - . / : ? and space.
Duration during which an ETWS primary Notification is broadcasted.As the broadcast parameter delivered with Write-Replace Warning Request are not to be used for ETWS primary notification (SIB10), the broadcast duration has to be administered.This list includes the Global eNB IDs of those neighbour eNBs for which the X2-link establishment is forbidden by the operator.
Macro eNB Id of the Global eNB Id of a neighbour eNB towards which no establishment of an eNB Controlled X2-link is allowed.If ‘enbId’ is not provided then the associated ‘Global eNB Id’ is a ‘partially specified Global eNB Id’, i.e.:Mobile Country Code of the Global eNB Id of a neighbour eNB towards which no establishment of an eNB Controlled X2-link is allowed.
Mobile Network Code of the Global eNB Id of a neighbour eNB towards which no establishment of an eNB Controlled X2-link is allowed.
Length of Mobile Network Code of the Global eNB Id of a neighbour eNB towards which no establishment of an eNB Controlled X2-link is allowed.
ARP parameters with a priority level greater or equal hpsSessArpMin AND lower or equal hpsSessArpMax will be regarded as high-priority. If an ARP parameter matches both these conditions and the emergency ARP condition, it will be regarded as emergency ARP parameter.ARP parameters with a priority level greater or equal hpsSessArpMin AND lower or equal hpsSessArpMax will be regarded as high-priority. If an ARP parameter matches both these conditions and the emergency ARP condition, it will be regarded as emergency ARP parameter.
Not defined
0 (false), 1 (true)
0 (false), 1 (true)
1...8, step 1
0 (false), 1 (true)
0...999, step 1
0...999, step 1
Length of MNC of the PLMN ID supporting emergency sessions 2...3, step 1
Not defined
0...1, step 1
0...9, step 1
0...9, step 1
PLMN related configuration parameter for support of emergency sessions
ARP Pre-emption Capability used by PLMN ID for emergency Sessions.This parameter defines whether a service data flow can get resources that were already assigned to another service data flow with a lower priority level.ARP Pre-emption Vulnerablity used by PLMN ID for emergency Sessions. The pre-emption vulnerability information defines whether a service data flow can lose the resources assigned to it in order to admit a service data flow with higher priority level.
ARP priority level used by PLMN ID for emergency sessions.The range of the ARP priority level is 1 to 15 with 1 as the highest level of priority. For emergency sessions, only ARP priority levels 1-8 may be applied (cf. also to 3GPP TS23.203)
Indication if PLMN ID supporting emergency sessions also supports limited service mode
Mobile Country Code of PLMN ID supporting emergency sessions
Mobile Network Code of PLMN ID supporting emergency sessions
A list of supported AS integrity protection algorithms. The algorithm is identified by the parameter name, and the assigned value determines the algorithm preference.
Null integrity protection algorithm preference. A lower value represents a lower preference and 0 does not admit the algorithm.
SNOW 3G-based algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm.
AES-based algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm.
0...9, step 1
0...4294967295, step 1
0...1048575, step 1
0...256, step 1
1...32, step 1
0...256, step 1
0...256, step 1
Primary Mobile Country Code of eNB. 0...999, step 1
0...96 h, step 1 h
This is the primary Mobile Network Code of the eNB. 0...999, step 1
2...3, step 1
plmn (0), spid (1)
ZUC-based algorithm preference.A lower value represents a lower preference, and 0 does not admit the algorithm.
Defines a threshold for PDCP COUNT supervision. If the remaining COUNT space becomes less than this threshold, the eNB key hierarchy should be refreshed.
Instance identifier of object Macro eNB and used also as telecom parameter of the 3GPP 'Macro eNB ID', which is part of Global eNB ID. In addition it appears as distinguished name (DN) in the planning data at the Element Manager.
Configures the overall number of LNADJ instances supported by the eNB.Note:For FSMr2 HW and for FZM the value shall not exceed 128.For FSMr3 HW there is no hardware specific limitation.This parameter limits the number of pre-emptions which the admission of a set of E-RABs (for example at initial context setup, E-RAB setup, handover request) might cause. If this number gets exceeded for an E-RAB set, the admission of this set set will partly or completely fail.If the number of eNB-controlled X2-links reaches 'maxNumX2LinksIn', then the eNB shall stop accepting establishment requests for new eNB-controlled X2-links from neighbour eNBs
If the number of eNB-controlled X2-links reaches 'maxNumX2LinksOut', then the eNB shall stop the automatic establishment of new eNB-controlled X2-links
This parameter defines the minimum time interval that should elapse since the last search of possible unknown PCIs, respectively PSCs, on a UTRAN carrier frequency, before re-intiating a new search on that carrier. Via this parameter, it is possible to control the minimum frequency according which a
This parameter determines the range of the primary MNC of the eNB.
This parameter is used to configure selection method of Mobility Profile for mobility procedures. If this parameter is set to SPID, then SPID received from MME or incoming handover is used for MOPR selection.If this parameter is set to PLMN value then MOPR selection is based on MNC included in UE Serving PLMN ID.
1...5, step 1
0 (false), 1 (true)
Operational state of the eNB, the value is set by system.
1...20000 ms, step 1 ms
Container for all parameters related to BTS Overload Handling. Not defined
0 (false), 1 (true)
0 (false), 1 (true)
Not defined
0...65535, step 1
0...1048575, step 1
2...45 characters
The maximum number of attempted (re-)transmissions for a specific RAN-INFORMATION-REQUEST/Multiple Report PDU without success.
This parameter determines whether a fallback to null ciphering caused by eNB limitations should be accepted (True) or not (False).
initializing (0), commissioned (1), notCommisioned (2), configured (3), integrated to RAN (4), onAir (5), test (6)OTN Link Loss Recoverable period without RF Unit Reset
This parameter specifies the time period when an Optical Network (OTN) can be recovered after a link loss without incurring a restart.
Enabling flag for rejection of incoming HO in case of C-plane overload.
Enabling flag for the rejection of RRC connection requests in case of C-plane overload.
Prioritized Bit Rate for non-GBR bearersThis prioritized bit rate is used by UE for the UL scheduling algorithm according [36.321].
0kBps (0), 8kBps (1), 16kBps (2), 32kBps (3), 64kBps (4), 128kBps (5), 256kBps (6)
Provides the mapping from cell parameters {dlEarfcn, pci} to the {ipAdr} of the eNB serving this cell, where 'ipAdr' is the IP address required for X2-link establishment.
Downlink EARFCN of the neighbour cell included in the 'pciIpAdrMap'
Unique macro eNB ID of the neighbor eNB within the Primary PLMN serving the neighbour cell indicated in the PCI-IP Map entry.
X2 C-plane V4/V6 IP address of the eNB serving the cell included in the 'pciIpAdrMap'
0...999, step 1
0...999, step 1
2...3, step 1
0...503, step 1
Not defined
1...1, step 1
Not defined
Identity of the PDCP profile 101...101, step 1
1...16, step 1
7bit (0), 12bit (1)
Mobile Country Code included in the Primary PLMN ID of the neighbour eNB serving the cell provided in the PCI-IP Map entry
Mobile Network Code included in the Primary PLMN ID of the neighbour eNB serving the cell provided in the PCI-IP Map entry
Length of Mobile Network Code included in the Primary PLMN ID of the neighbour eNB serving the cell provided in the PCI-IP Map entry
Physical Cell Identity of the neighbour cell included in the 'pciIpAdrMap'
Profile of PDCP parameters Structure {pdcpProfileId,tDiscard,statusReportReq}.
Identity of the PDCP profile; 0 specifies an invalid dummy profile.
This parameter determines whether a PDCP status report is sent from PDCP receiver to PDCP transmitter.
The PDCP status report may be sent from eNB to UE (eNB PDCP status report) or from UE to eNB (UE PDCP status report).
Bit 0: eNB Status Report, Bit 1: UE Status Report
This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer should be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the parameter to disabled.
300ms (0), 500ms (1), 750ms (2), 1500ms (3), infinity (4)
Profile 101 of PDCP parameters for RLC UM data radio bearers
This parameter configures the maximum number of ROHC contexts used for a data radio bearer in one direction.The maximum number of ROHC contexts is also restricted by the UE capabilities.
This parameter configures the size of the SN field in the PDCP header.If UE does not support the value “7bit”, the value “12bit” will be used.
Not defined
Identity of the PDCP profile. 102...102, step 1
7bit (0), 12bit (1)
Not defined
Identity of the PDCP profile. 103...103, step 1
7bit (0), 12bit (1)
Not defined
Identity of the PDCP profile. 104...104, step 1
7bit (0), 12bit (1)
This parameter specifies the parameter discardTimer of [36.331]This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by
100ms (0), 150ms (1), 300ms (2), 500ms (3), 750ms (4), 1500ms (5), infinity (6)
Profile 102 of PDCP parameters for RLC UM data radio bearers.
This parameter configures the size of the SN field in the PDCP header.If UE does not support the value “7bit”, the value “12bit” will be used.
This parameter specifies the "discardTimer" parameter of [36.331].This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer is set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by
100ms (0), 150ms (1), 300ms (2), 500ms (3), 750ms (4), 1500ms (5), infinity (6)
Profile 103 of PDCP parameters for RLC UM data radio bearers.
This parameter configures the size of the SN field in the PDCP header.If UE does not support the value “7bit”, the value “12bit” will be used.
This parameter specifies the "discardTimer" parameter of [36.331].This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer is set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 750ms (5), 1500ms (6), infinity (7)
Profile 104 of PDCP parameters for RLC UM data radio bearers.
This parameter configures the size of the SN field in the PDCP header.If UE does not support the value “7bit”, the value “12bit” will be used.
Profile 2 of PDCP parameters for RLC AM data radio bearers Not defined
Identity of the PDCP profile 2...2, step 1
Profile 3 of PDCP parameters for RLC AM data radio bearers Not defined
Identity of the PDCP profile 3...3, step 1
Profile 4 of PDCP parameters for RLC AM data radio bearers Not defined
Identity of the PDCP profile 4...4, step 1
This parameter specifies the "discardTimer" parameter of [36.331]This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer is set so that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the
300ms (0), 500ms (1), 750ms (2), 1500ms (3), infinity (4)
This parameter determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter.The PDCP Status Report may be sent from eNB to UE (eNB PDCP Status Report) or from UE to eNB (UE PDCP Status Report).
Bit 0: eNB Status Report, Bit 1: UE Status Report
This parameter specifies the parameter discardTimer of [36.331]This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by
300ms (0), 500ms (1), 750ms (2), 1500ms (3), infinity (4)
This parameter determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter.The PDCP Status Report may be sent from eNB to UE (eNB PDCP Status Report) or from UE to eNB (UE PDCP Status Report).
Bit 0: eNB Status Report, Bit 1: UE Status Report
This parameter specifies the parameter discardTimer of [36.331]This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by
300ms (0), 500ms (1), 750ms (2), 1500ms (3), infinity (4)
This parameter determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter.The PDCP Status Report may be sent from eNB to UE (eNB PDCP Status Report) or from UE to eNB (UE PDCP Status Report).
Bit 0: eNB Status Report, Bit 1: UE Status Report
Profile 5 of PDCP parameters for RLC AM data radio bearers Not defined
Identity of the PDCP profile 5...5, step 1
0 (false), 1 (true)
0 (false), 1 (true)
Not defined
1 (1), 2 (2)
This parameter specifies the parameter discardTimer of [36.331]This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by
300ms (0), 500ms (1), 750ms (2), 1500ms (3), infinity (4)
This parameter determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter.The PDCP Status Report may be sent from eNB to UE (eNB PDCP Status Report) or from UE to eNB (UE PDCP Status Report).
Bit 0: eNB Status Report, Bit 1: UE Status Report
This parameter specifies the parameter discardTimer of [36.331]This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by
300ms (0), 500ms (1), 750ms (2), 1500ms (3), infinity (4)
This parameter is used to define priorities between the 3 topology options for intra LTE handover, which are 1) Intra eNB HO2) HO via X23) HO via S1
all equal (0), intra eNB HO prior inter eNB HO (1), intra prior X2 prior S1 (2), low prio S1 (3)
This timer is used for temporary blacklisting of a Target Cell for load-based handover. One Target Cell is blacklisted when a handover is rejected because of lack of resources.The timer is started when the cell is blacklisted.
1s (1), 2s (2), 5s (5), 10s (10), 20s (20), 50s (50), 100s (100)
This parameter can be used to generally prohibit the execution of PS-handover towards WCDMA.If this parameter is set to "true", all UE will be send to WCDMA by UE Context Release with redirect, even if the UE would be able to perform handover.Indicates if the Public Warning Systems (ETWS and/or CMAS) make use of Emergency Area IDs. If ETWS or CMAS service is activated, then provision of this parameter is mandatory.
Table to translate the S1AP parameter QCI 1 into QCI characteristics
DelayTarget is the maximum packet delay value used by the eNB MAC scheduling algorithm.
50ms (50), 60ms (60), 70ms (70), 80ms (80), 90ms (90), 100ms (100)
This parameter specifies the ID of the corresponding DRX profileIf several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority
0...63, step 1
0 (false), 1 (true)
1...1, step 1
1...256 kbps, step 1 kbps
1...256 kbps, step 1 kbps
101...101, step 1
2...2, step 1
QoS Class Identifier 1...1, step 1
DISABLE (0), ENABLE (1)
GBR (0)
RLC_UM (1)
101...101, step 1
This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to "true" for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling might be activated. Otherwise TTI bundling is not applied.Logical Channel Group Identifier for buffer status reportingThis parameter is used for configuration of the buffer status reports of UE according [36.321]
This parameter specifies the maximum value of the GBR in the downlink direction.eNB will reject those EPS bearers with QCI1 for which the GBR in downlink direction is greater than this value.
This parameter specifies the maximum value of the GBR in the uplink direction.eNB will reject those EPS bearers with QCI1 for which the GBR in uplink direction is greater than this value.
This parameter specifies the ID of the corresponding PDCP profile.
This parameter gives the priority of the EPS bearer according TS23.203.
This parameter indicates whether the given QCI is supported and enabled
The Resource Type indicates whether bearer is a GBR or NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.This parameter configures the RLC Mode of the data radio bearer
This parameter specifies the ID of the corresponding RLC profile
2...16, step 1
Not defined
1 (1), 2 (2), 3 (3)
0...63, step 1
0 (false), 1 (true)
5...50 %, step 1 %
5...50 %, step 1 %
1 (1), 2 (2)
1...2048 kbps, step 1 kbps
1...840 kbps, step 1 kbps
This parameter is used to configure the Bucket Size Duration (BSD) of the UL schedulerFor GBR bearers, schedulBSD in used by eNB and UE for the UL scheduling algorithm according [36.321].The bucket size of a logical channel is calculated by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
Logical Channel Priority for the MAC schedulerFor GBR bearers, schedulPrio in used by UE for the UL scheduling algorithm according [36.321].Increasing priority values indicate a lower priority.
Table to translate the S1AP parameter QCI 2 into QCI characteristics.
DelayTarget is the maximum packet delay value used by the eNB MAC scheduling algorithm.
50ms (50), 60ms (60), 70ms (70), 80ms (80), 90ms (90), 100ms (100), 110ms (110), 120ms (120), 130ms (130), 140ms (140), 150ms (150)This parameter specifies the ID of the corresponding DRX
profile.If several EPS bearers are established for a UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority.This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to "true" for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling might be activated. Otherwise TTI bundling is not applied.This parameter specifies the overhead factor of the downlink GBR in layer 2. eNB increases the GBR in downlink direction for radio layer 2 by the product GBR in downlink direction and L2 Overhead Factor GBR DL/100.This parameter specifies the overhead factor of the uplink GBR in layer 2. eNB increases the GBR in uplink direction for radio layer 2 by the product GBR in uplink direction and L2 Overhead Factor GBR UL/100.Logical Channel Group Identifier for buffer status reportingThis parameter is used for configuration of the buffer status reports of UE according [36.321].It is recommended that GBR and non-GBR bearers are not mapped into the same logical channel group, since in this case the data of the logical channel group are scheduled as non-GBR data and the delay budget for the GBR bearer cannot be
This parameter specifies the maximum value of the GBR in the downlink direction.eNB will reject those EPS bearers with QCI2 for which the GBR in downlink direction is greater than this value.
This parameter specifies the maximum value of the GBR in the uplink direction.eNB will reject those EPS bearers with QCI2 for which the GBR in uplink direction is greater than this value.
102...102, step 1
4...4, step 1
QoS Class Identifier 2...2, step 1
DISABLE (0), ENABLE (1)
GBR (0)
RLC_UM (1)
102...102, step 1
2...16, step 1
Not defined
1 (1), 2 (2), 3 (3)
This parameter specifies the ID of the corresponding PDCP profile.
This parameter gives the priority of the EPS bearer according TS23.203.
This parameter indicates whether the given QCI is supported and enabled.
The Resource Type indicates whether bearer is a GBR or NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.This parameter configures the RLC Mode of the data radio bearer.
This parameter specifies the ID of the corresponding RLC profile
This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler.For GBR bearers, "schedulBSD" is used by eNB and UE for the UL scheduling algorithm according [36.321].The bucket size of a logical channel is calculated by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
Logical Channel Priority for the MAC scheduler.For GBR bearers, "schedulPrio" is used by UE for the UL scheduling algorithm according [36.321].Increasing priority values indicate lower priority.
Table to translate the S1AP parameter QCI 3 into QCI characteristics.
DelayTarget is the maximum packet delay value used by the eNB MAC scheduling algorithm.
50ms (50), 60ms (60), 70ms (70), 80ms (80), 90ms (90), 100ms (100)
This parameter specifies the ID of the corresponding DRX profile.If several EPS bearers are established for a UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority.
0...63, step 1
0 (false), 1 (true)
5...50 %, step 1 %
5...50 %, step 1 %
1 (1), 2 (2)
1...2048 kbps, step 1 kbps
1...840 kbps, step 1 kbps
103...103, step 1
3...3, step 1
QoS Class Identifier. 3...3, step 1
DISABLE (0), ENABLE (1)
GBR (0)
This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to "true" for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling might be activated. Otherwise TTI bundling is not applied.This parameter specifies the overhead factor of the downlink GBR in layer 2. eNB increases the GBR in downlink direction for radio layer 2 by the product GBR in downlink direction and L2 Overhead Factor GBR DL/100.This parameter specifies the overhead factor of the uplink GBR in layer 2. eNB increases the GBR in uplink direction for radio layer 2 by the product GBR in uplink direction and L2 Overhead Factor GBR UL/100.Logical Channel Group Identifier for buffer status reporting.This parameter is used for configuration of the buffer status reports of UE according [36.321].
This parameter specifies the maximum value of the GBR in the downlink direction.eNB will reject those EPS bearers with QCI3 for which the GBR in downlink direction is greater than this value.
This parameter specifies the maximum value of the GBR in the uplink direction.eNB will reject those EPS bearers with QCI3 for which the GBR in uplink direction is greater than this value.
This parameter specifies the ID of the corresponding PDCP profile.
This parameter gives the priority of the EPS bearer according TS23.203.
This parameter indicates whether the given QCI is supported and enabled.
The Resource Type indicates whether bearer is a GBR or NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.
RLC_UM (1)
103...103, step 1
2...16, step 1
Not defined
1 (1), 2 (2), 3 (3)
0...63, step 1
0 (false), 1 (true)
5...50 %, step 1 %
5...50 %, step 1 %
2 (2), 3 (3)
This parameter configures the RLC Mode of the data radio bearer.
This parameter specifies the ID of the corresponding RLC profile.
This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler.For GBR bearers, "schedulBSD" is used by eNB and UE for the UL scheduling algorithm according [36.321].The bucket size of a logical channel is calculated by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
Logical Channel Priority for the MAC scheduler.For GBR bearers, "schedulPrio" is used by UE for the UL scheduling algorithm according [36.321].Increasing priority values indicate lower priority.
Table to translate the S1AP parameter QCI 4 into QCI characteristics.
DelayTarget is the maximum packet delay value used by the eNB MAC scheduling algorithm.
150ms (150), 200ms (200), 250ms (250), 300ms (300), 350ms (350), 400ms (400), 450ms (450), 500ms (500), 550ms (550), 600ms (600), This parameter specifies the ID of the corresponding DRX
profile.If several EPS bearers are established for a UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority.This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to true for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling may be activated. Otherwise TTI bundling is not applied.This parameter specifies the overhead factor of the downlink GBR in layer 2. eNB increases the GBR in downlink direction for radio layer 2 by the product GBR in downlink direction and L2 Overhead Factor GBR DL/100.This parameter specifies the overhead factor of the uplink GBR in layer 2. eNB increases the GBR in uplink direction for radio layer 2 by the product GBR in uplink direction and L2 Overhead Factor GBR UL/100.Logical Channel Group Identifier for buffer status reporting.This parameter is used for configuration of the buffer status reports of UE according [36.321].It is recommended that GBR and non-GBR bearers are not mapped into the same logical channel group, since in this case the data of the logical channel group are scheduled as non-GBR data and the delay budget for the GBR bearer cannot be
1...2048 kbps, step 1 kbps
1...840 kbps, step 1 kbps
1...104, step 1
5...5, step 1
QoS Class Identifier. 4...4, step 1
DISABLE (0), ENABLE (1)
GBR (0)
RLC_AM (0), RLC_UM (1)
1...104, step 1
2...16, step 1
Not defined
This parameter specifies the maximum value of the GBR in the downlink direction.eNB will reject those EPS bearers with QCI4 for which the GBR in downlink direction is greater than this value.
This parameter specifies the maximum value of the GBR in the uplink direction.eNB will reject those EPS bearers with QCI4 for which the GBR in uplink direction is greater than this value.
This parameter specifies the ID of the corresponding PDCP profile.
This parameter gives the priority of the EPS bearer according TS23.203.
This parameter indicates whether the given QCI is supported and enabled.
The Resource Type indicates whether bearer is a GBR or NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.This parameter configures the RLC Mode of the data radio bearer.
This parameter specifies the ID of the corresponding RLC profile.
This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler.For GBR bearers, "schedulBSD" is used by eNB and UE for the UL scheduling algorithm according [36.321].The bucket size of a logical channel is calculated by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
Logical Channel Priority for the MAC scheduler.For GBR bearers, "schedulPrio" is used by UE for the UL scheduling algorithm according [36.321].Increasing priority values indicate lower priority.
Table to translate the S1AP parameter QCI 5 into QCI characteristics
1 (1), 2 (2), 3 (3), 4 (4), 5 (5)
0...63, step 1
0 (false), 1 (true)
0 (0), 2 (2), 3 (3)
1...5, step 1
1...1, step 1
QoS Class Identifier 5...5, step 1
DISABLE (0), ENABLE (1)
nonGBR (1)
RLC_AM (0)
1...5, step 1
This parameter specifies the ID of the corresponding DRX profileIf several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priorityThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to "true" for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling might be activated. Otherwise TTI bundling is not applied.Logical Channel Group Identifier for buffer status reportingThis parameter is used for configuration of the buffer status reports of UE according [36.321]
This parameter specifies the ID of the corresponding PDCP profile.
This parameter gives the priority of the EPS bearer according TS23.203.
This parameter indicates whether the given QCI is supported and enabled
The Resource Type indicates whether a bearer is a GBR or a NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.This parameter configures the RLC Mode of the data radio bearer
This parameter specifies the ID of the corresponding RLC profile
This parameter is used to configure the Bucket Size Duration (BSD) of the UL schedulerThe BSD is sent to UE for the UL scheduling algorithm according to [36.321].The UE calculates the bucket size of a logical channel by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
2...16, step 1
1...100, step 1
Not defined
1 (1), 3 (3), 4 (4), 5 (5)
0...63, step 1
0 (false), 1 (true)
2 (2), 3 (3)
1...5, step 1
6...6, step 1
QoS Class Identifier 6...6, step 1
DISABLE (0), ENABLE (1)
Logical Channel Priority for the UE schedulerThis priority is sent to UE for the UL scheduling algorithm according for DRB [36.321].Increasing priority values indicate lower priority.
This parameter specifies how the EPS bearer with QCI 5 is scheduled.For the scheduling type “SIGNALLING” the bearer is handled like SRBs. The MAC LCGID shall be set to 0 and schedulPrio is used for UL and DL scheduling.
SIGNALLING (0), NON-GBR (1)
This parameter specifies the scheduling weight for eNB schedulersThe scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DLTable to translate the S1AP parameter QCI 6 into QCI characteristics
This parameter specifies the ID of the corresponding DRX profileIf several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with the highest priorityThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to "true" for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling might be activated. Otherwise TTI bundling is not applied.Logical Channel Group Identifier for buffer status reportingThis parameter is used for configuration of the buffer status reports of UE according [36.321]
This parameter specifies the ID of the corresponding PDCP profile.
This parameter gives the priority of the EPS bearer according TS23.203.
This parameter indicates whether the given QCI is supported and enabled
nonGBR (1)
RLC_AM (0)
1...5, step 1
9...16, step 1
1...100, step 1
Not defined
1 (1), 3 (3), 4 (4), 5 (5)
0...63, step 1
0 (false), 1 (true)
2 (2), 3 (3)
1...5, step 1
The Resource Type indicates whether a bearer is a GBR or NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.This parameter configures the RLC Mode of the data radio bearer
This parameter specifies the ID of the corresponding RLC profile
This parameter is used to configure the Bucket Size Duration (BSD) of the UL schedulerThe BSD is sent to UE for the UL scheduling algorithm according to [36.321].The UE calculates the bucket size of a logical channel by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
Logical Channel Priority for the UE schedulerThis priority is sent to the UE for the UL scheduling algorithm according to DRB [36.321].Increasing priority values indicate a lower priority.
This parameter specifies the scheduling weight for eNB schedulersThe scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DLTable to translate the S1AP parameter QCI 7 into QCI characteristics
This parameter specifies the ID of the corresponding DRX profileIf several EPS bearers are established for a UE, the eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with the highest priorityThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to "true" for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling might be activated. Otherwise TTI bundling is not applied.Logical Channel Group Identifier for buffer status reportingThis parameter is used for the configuration of the buffer status reports of the UE according to [36.321]
This parameter specifies the ID of the corresponding PDCP profile.
7...7, step 1
QoS Class Identifier 7...7, step 1
DISABLE (0), ENABLE (1)
nonGBR (1)
RLC_AM (0)
1...5, step 1
9...16, step 1
1...100, step 1
Not defined
1 (1), 3 (3), 4 (4), 5 (5)
0...63, step 1
This parameter gives the priority of the EPS bearer according TS23.203.
This parameter indicates whether the given QCI is supported and enabled
The Resource Type indicates whether bearer is a GBR or NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.This parameter configures the RLC Mode of the data radio bearer
This parameter specifies the ID of the corresponding RLC profile
This parameter is used to configure the Bucket Size Duration (BSD) of the UL schedulerThe BSD is sent to UE for the UL scheduling algorithm according [36.321].The UE calculates the bucket size of a logical channel by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
Logical Channel Priority for the UE schedulerThis priority is sent to the UE for the UL scheduling algorithm according to DRB [36.321].Increasing priority values indicate a lower priority.
This parameter specifies the scheduling weight for eNB schedulersThe scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DLTable to translate the S1AP parameter QCI 8 into QCI characteristics
This parameter specifies the ID of the corresponding DRX profileIf several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priorityThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
0 (false), 1 (true)
2 (2), 3 (3)
1...5, step 1
8...8, step 1
QoS Class Identifier 8...8, step 1
DISABLE (0), ENABLE (1)
nonGBR (1)
RLC_AM (0)
1...5, step 1
9...16, step 1
1...100, step 1
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to "true" for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling might be activated. Otherwise TTI bundling is not applied.Logical Channel Group Identifier for buffer status reportingThis parameter is used for configuration of the buffer status reports of the UE according to [36.321]
This parameter specifies the ID of the corresponding PDCP profile.
This parameter gives the priority of the EPS bearer according to TS23.203.
This parameter indicates whether the given QCI is supported and enabled
The Resource Type indicates whether bearer is a GBR or NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.This parameter configures the RLC Mode of the data radio bearer
This parameter specifies the ID of the corresponding RLC profile
This parameter is used to configure the Bucket Size Duration (BSD) of the UL schedulerThe BSD is sent to the UE for the UL scheduling algorithm according to [36.321].The UE calculates the bucket size of a logical channel by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
Logical Channel Priority for the UE schedulerThis priority is sent to the UE for the UL scheduling algorithm according to DRB [36.321].Increasing priority values indicate a lower priority.
This parameter specifies the scheduling weight for eNB schedulersThe scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DL
Not defined
1 (1), 3 (3), 4 (4), 5 (5)
0...63, step 1
0 (false), 1 (true)
2 (2), 3 (3)
1...5, step 1
9...9, step 1
QoS Class Identifier 9...9, step 1
DISABLE (0), ENABLE (1)
nonGBR (1)
RLC_AM (0)
1...5, step 1
Table to translate the S1AP parameter QCI 9 into QCI characteristics
This parameter specifies the ID of the corresponding DRX profileIf several EPS bearers are established for a UE, the eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with the highest priorityThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to "true" for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling might be activated. Otherwise TTI bundling is not applied.Logical Channel Group Identifier for buffer status reportingThis parameter is used for the configuration of the buffer status reports of the UE according to [36.321]
This parameter specifies the ID of the corresponding PDCP profile.
This parameter gives the priority of the EPS bearer according TS23.203.
This parameter indicates whether the given QCI is supported and enabled
The Resource Type indicates whether bearer is a GBR or NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.This parameter configures the RLC Mode of the data radio bearer
This parameter specifies the ID of the corresponding RLC profile
9...16, step 1
1...100, step 1
Not defined
1...6, step 1
1 (1), 2 (2), 3 (3), 4 (4), 5 (5)
0...63, step 1
0 (false), 1 (true)
5...50 %, step 1 %
5...50 %, step 1 %
1 (1), 2 (2), 3 (3)
This parameter is used to configure the Bucket Size Duration (BSD) of the UL schedulerThe BSD is sent to the UE for the UL scheduling algorithm according to [36.321].The UE calculates the bucket size of a logical channel by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
Logical Channel Priority for the UE schedulerThis priority is sent to UE for the UL scheduling algorithm according to DRB [36.321].Increasing priority values indicate a lower priority.
This parameter specifies the scheduling weight for eNB schedulersThe scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DLTable to translate the S1AP parameter QCI into QCI characteristics for operator-specific QCIs
This parameter indicates the counter group to which the QCI belongs
Delay target is the maximum packet delay value used by the eNB MAC scheduling algorithm for GBR bearers.eNB ignores this parameter for nonGBR Operator QCIs.
50ms (50), 60ms (60), 70ms (70), 80ms (80), 90ms (90), 100ms (100), 110ms (110), 120ms (120), 130ms (130), 140ms (140), 150ms (150), This parameter specifies the ID of the corresponding DRX
profileIf several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priorityThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI.The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.
This parameter enables TTI bundling if the QCI is present in the current bearer combination.If this parameter is set to "true" for any bearer of the current bearer combination, the measurements for TTI bundling are activated and TTI bundling might be activated. Otherwise TTI bundling is not applied.This parameter specifies the overhead factor of the downlink GBR in layer 2. eNB increases the GBR in downlink direction for radio layer 2 by the product GBR in downlink direction and L2 Overhead Factor GBR DL/100. eNB ignores this parameter for nonGBR Operator QCIs.This parameter specifies the overhead factor of the uplink GBR in layer 2. eNB increases the GBR in uplink direction for radio layer 2 by the product GBR in uplink direction and L2 Overhead Factor GBR UL/100. eNB ignores this parameter for nonGBR Operator QCIs.Logical Channel Group Identifier for buffer status reportingThis parameter is used for configuration of the buffer status reports of UE according to [36.321]
1...2048 kbps, step 1 kbps
1...512 kbps, step 1 kbps
1...104, step 1
2...5, step 1
QoS Class Identifier 128...254, step 1
DISABLE (0), ENABLE (1)
GBR (0), nonGBR (1)
RLC_AM (0), RLC_UM (1)
1...104, step 1
2...16, step 1
1...100, step 1
This parameter specifies the maximum value of the GBR in the downlink direction.eNB will reject those EPS bearers with QCI3 for which the GBR in downlink direction is greater than this value. eNB ignores this parameter for nonGBR Operator QCIs.This parameter specifies the maximum value of the GBR in the uplink direction.eNB will reject those EPS bearers with QCI3 for which the GBR in uplink direction is greater than this value. eNB ignores this parameter for nonGBR Operator QCIs.This parameter specifies the ID of the corresponding PDCP profile.If the RLC mode is set to "RLC_AM", this parameter has to set in the range {1, 2, 3, 4, 5}.If the RLC mode is set to "RLC_UM", this parameter has to be set in range {102, 103, 104}.This parameter gives the priority of the EPS bearer according TS23.203.This parameter is used for GBR congestion handling and is ignored for nonGBR bearers.
This parameter indicates whether the given QCI is supported and enabled
The Resource Type indicates whether bearer is a GBR or NON-GBR bearer.The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.This parameter configures the RLC Mode of the data radio bearer
This parameter specifies the ID of the corresponding RLC profile
This parameter is used to configure the Bucket Size Duration (BSD) of the UL schedulerThe BSD is sent to the UE for the UL scheduling algorithm according to [36.321].The UE calculates the bucket size of a logical channel by PBR * BSD.
50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 1000ms (5)
Logical Channel Priority for the UE schedulerThis priority is sent to UE for the UL scheduling algorithm according to DRB [36.321].Increasing priority values indicate a lower priority.
This parameter specifies the scheduling weight for eNB schedulersThe scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DL
0...1200 s, step 1 s
Profile 1 of RLC parameters for DRBs in RLC AM mode Not defined
Identity of the RLC profile 1...1, step 1
Profile 101 of RLC parameters for DRBs in RLC UM mode Not defined
Identity of the RLC profile 101...101, step 1
5bit (0), 10bit (1)
This parameter selects whether Target eNodeB shall provide and reserve a dedicated RACH preamble for HO from UTRAN. In case no dedicated RACH preamble is provided UE will perform contention based RACH access.If a dedicated RACH preamble is provided UE will perform non-contention based RACH access as for intra LTE handover.
contentionBased (0), nonContentionBased (1)
Defines the minimal number of seconds after which a recovery reset can be triggered.
Note: When setting the parameter value to 10000 (unlimited delay), the recovery reset will be performed after all snapshot information is collected. This setting must be used with care.BTS detects automatically when the RF sharing is in use and report this in the rfSharingState parameter in the topology.This parameter has important informative value in the user interfaces in NetAct (for example for troubleshooting).
off (0), rfMaster (1), rfShared (2)
This parameter specifies the parameter pollPDU of [36.331]The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set.
4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 (5), 256 (6), infinity (7)
This parameter specifies the parameter t-pollRetransmit of [36.331]This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll.The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.
5ms (0), 10ms (1), 15ms (2), 20ms (3), 25ms (4), 30ms (5), 35ms (6), 40ms (7), 45ms (8), 50ms (9), 55ms (10), 60ms (11), 65ms This parameter specifies the parameter t-StatusProhibit of
[36.331]This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDU
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12), This parameter specifies the parameter t-Reordering of
[36.331]This timer is used by the receiving side of an AM RLC entity for reordering, PDU loss detection and delay of STATUS PDU transmission. This timer depends on HARQ RTT and number of HARQ retransmissions.
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12),
This parameter configures the length of the SN field for RLC UM procedures in downlink direction.If UE does not support the value “5bit”, the value “10bit” is used.
5bit (0), 10bit (1)
Profile 2 of RLC parameters for DRBs in RLC UM mode. Not defined
Identity of the RLC profile. 102...102, step 1
5bit (0), 10bit (1)
5bit (0), 10bit (1)
Profile 3 of RLC paremeters for DRBs in RLC UM mode. Not defined
Identity of the RLC profile. 103...103, step 1
5bit (0), 10bit (1)
5bit (0), 10bit (1)
This parameter configures the length of the SN field for RLC UM procedures in uplink direction.If UE does not support the value “5bit”, the value “10bit” is used.
This parameter specifies the parameter t-Reordering of [36.331]This timer is used by the receiving side of an UM RLC entity for reordering and PDU loss detection. This timer depends on HARQ RTT and number of HARQ retransmissions.
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12),
This parameter configures the length of the SN field for RLC UM procedures in downlink direction.If UE does not support the value “5bit”, the value “10bit” is used.
This parameter configures the length of the SN field for RLC UM procedures in uplink direction.If UE does not support the value “5bit”, the value “10bit” is used.
This parameter specifies the parameter t-Reordering of [36.331]This timer is used by the receiving side of an UM RLC entity for reordering and PDU loss detection. This timer depends on HARQ RTT and number of HARQ retransmissions.
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12),
This parameter configures the length of the SN field for RLC UM procedures in downlink direction.If UE does not support the value “5bit”, the value “10bit” is used.
This parameter configures the length of the SN field for RLC UM procedures in uplink direction.If UE does not support the value “5bit”, the value “10bit” is used.
This parameter specifies the parameter t-Reordering of [36.331]This timer is used by the receiving side of an UM RLC entity for reordering and PDU loss detection. This timer depends on HARQ RTT and number of HARQ retransmissions.
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12),
Profile 4 of RLC paremeters for DRBs in RLC UM mode. Not defined
Identity of the RLC profile. 104...104, step 1
5bit (0), 10bit (1)
5bit (0), 10bit (1)
Profile 2 of RLC parameters for DRBs in RLC AM mode Not defined
Identity of the RLC profile 2...2, step 1
Profile 3 of RLC parameters for DRBs in RLC AM mode Not defined
This parameter configures the length of the SN field for RLC UM procedures in downlink direction.If UE does not support the value “5bit”, the value “10bit” is used.
This parameter configures the length of the SN field for RLC UM procedures in uplink direction.If UE does not support the value “5bit”, the value “10bit” is used.
This parameter specifies the parameter t-Reordering of [36.331]This timer is used by the receiving side of an UM RLC entity for reordering and PDU loss detection. This timer depends on HARQ RTT and number of HARQ retransmissions.
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12),
This parameter specifies the parameter pollPDU of [36.331]The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set.
4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 (5), 256 (6), infinity (7)
This parameter specifies the parameter t-pollRetransmit of [36.331]This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll.The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.
5ms (0), 10ms (1), 15ms (2), 20ms (3), 25ms (4), 30ms (5), 35ms (6), 40ms (7), 45ms (8), 50ms (9), 55ms (10), 60ms (11), 65ms This parameter specifies the parameter t-StatusProhibit of
[36.331]This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDU
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12), This parameter specifies the parameter t-Reordering of
[36.331]This timer is used by the receiving side of an AM RLC entity for reordering, PDU loss detection and delay of STATUS PDU transmission. This timer depends on HARQ RTT and number of HARQ retransmissions.
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12),
Identity of the RLC profile 3...3, step 1
Profile 4 of RLC parameters for DRBs in RLC AM mode Not defined
Identity of the RLC profile 4...4, step 1
Profile 5 of RLC parameters for DRBs in RLC AM mode Not defined
This parameter specifies the parameter pollPDU of [36.331]The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set.
4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 (5), 256 (6), infinity (7)
This parameter specifies the parameter t-pollRetransmit of [36.331]This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll.The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.
5ms (0), 10ms (1), 15ms (2), 20ms (3), 25ms (4), 30ms (5), 35ms (6), 40ms (7), 45ms (8), 50ms (9), 55ms (10), 60ms (11), 65ms This parameter specifies the parameter t-StatusProhibit of
[36.331]This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDU
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12), This parameter specifies the parameter t-Reordering of
[36.331]This timer is used by the receiving side of an AM RLC entity for reordering, PDU loss detection and delay of STATUS PDU transmission. This timer depends on HARQ RTT and number of HARQ retransmissions.
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12),
This parameter specifies the parameter pollPDU of [36.331]The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set.
4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 (5), 256 (6), infinity (7)
This parameter specifies the parameter t-pollRetransmit of [36.331]This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll.The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.
5ms (0), 10ms (1), 15ms (2), 20ms (3), 25ms (4), 30ms (5), 35ms (6), 40ms (7), 45ms (8), 50ms (9), 55ms (10), 60ms (11), 65ms This parameter specifies the parameter t-StatusProhibit of
[36.331]This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDU
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12), This parameter specifies the parameter t-Reordering of
[36.331]This timer is used by the receiving side of an AM RLC entity for reordering, PDU loss detection and delay of STATUS PDU transmission. This timer depends on HARQ RTT and number of HARQ retransmissions.
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12),
Identity of the RLC profile 5...5, step 1
1...1800 s, step 1 s
Number of Steps for Graceful Cell Shutdown 1...16, step 1
6...180, step 6
This parameter specifies the parameter pollPDU of [36.331]The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set.
4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 (5), 256 (6), infinity (7)
This parameter specifies the parameter t-pollRetransmit of [36.331]This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll.The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.
5ms (0), 10ms (1), 15ms (2), 20ms (3), 25ms (4), 30ms (5), 35ms (6), 40ms (7), 45ms (8), 50ms (9), 55ms (10), 60ms (11), 65ms This parameter specifies the parameter t-StatusProhibit of
[36.331]This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDU
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12), This parameter specifies the parameter t-Reordering of
[36.331]This timer is used by the receiving side of an AM RLC entity for reordering, PDU loss detection and delay of STATUS PDU transmission. This timer depends on HARQ RTT and number of HARQ retransmissions.
0ms (0), 5ms (1), 10ms (2), 15ms (3), 20ms (4), 25ms (5), 30ms (6), 35ms (7), 40ms (8), 45ms (9), 50ms (10), 55ms (11), 60ms (12), If for an eNB cell all configured PLMN IDs are unavailable on
S1 interface for the duration given by "s1InducedCellDeactDelayTime", the eNB cell is deactivated.
This parameter defines the period of the SCell Activation cycle.The parameter value is in seconds.This parameter is not used when "sCellActivationMethod" is set to "blind".
0.5s (0), 1s (1), 2s (2), 4s (3), 8s (4), 16s (5)
This parameter defines the Method to be used for SCell Activation."blind" means that SCell is blindly activated and it is never re-activated after "sCellDeactivationTimereNB" expiration."nonGBRBufferBased" means that SCell activation is triggered depending on the non-GBR data in buffer. Period of the SCell Activation cycle is configured in "sCellActivationCyclePeriod".
nonGBRBufferBased (0), blind (1)
This timer controls the deactivation of Secondary Cell for Carrier Aggregation configured UEs.
The timer behaves in the same way as the SCell deactivation timer defined in TS 36.321, but result is explicit SCell deactivation by MAC CE instead of implicit SCell deactivation in order to avoid eNB - UE misalignment due to ambiguous HARQ
rf2 (0), rf4 (1), rf8 (2), rf16 (3), rf32 (4), rf64 (5), rf128 (6), infinity (7)
The parameter selects how the ambiguous HARQ feedback of UE with an active SCell related to DL transmission is interpreted for the purpose of controlling DRX Inactivity Timer.
If set to conservative, the ambiguous HARQ feedback is interpreted as DTX for the purpose of controlling the timer. If set to aggressive, the ambiguous HARQ feedback is interpreted as NACK for the purpose of controlling the timer. It
conservative (0), aggressive (1)
Time Interval for Stepwise Output Power Reduction for Graceful Cell Shutdown
128 (128), 256 (256)
Not defined
Physical cell identifier for which the system information applies. 0...511, step 1
4...2050 characters
15...250 min, step 1 min
5...250 min, step 1 min
1...15 s, step 1 s
50...5000 ms, step 50 ms
50...2000 ms, step 50 ms
50...5000 ms, step 50 ms
0...1000 ms, step 1 ms
0...1000 ms, step 1 ms
Defines the number of system supported LNADJ instances (enbControlled + oamControlled).
The configured WCDMA system information is sent to the UE with the RRC Connection Release message in all kinds of redirection to WCDMA. The setting applies for all LTE cells of the eNB.
WCDMA system information which is included in the RRC Connection Release message.
The parameter must be added as character string in hexadecimal notation with leading '0x', where for each octet two character must be configured, with a minimum length of one octet.
This timer is started when eNB receives a valid RAN-INFORMATION/Initial Multiple Report PDU.This timer is restarted when eNB receives subsequent RAN-INFORMATION/Multiple Report PDU.When the timer expires the eNB re-sends the RAN-INFORMATION-REQUEST/Multiple Report PDU.This timer is started when RIM procedure for a GERAN neighbor cell fails or ends.When the timer expires the eNB re-starts RAN-INFORMATION-REQUEST/Multiple Report procedure for the GERAN neighbor cell. This timer is started when eNB sends out a RAN-INFORMATION-REQUEST/Mutiple Report message. When the timer expires the eNB re-sends the RIM message up to nRimRirG(see [CCPM.9031]) times.
Guard against failure of the MME to respond in preparation phase of S1 handover to GSMTimer TS1RELOCprep_InterRAT is used to guard against failure of the MME to respond preparation phase of S1 handover to another 3GPP RAT. It is started in the source eNB when the S1AP: HANDOVER REQUIRED message is sent to Guard against failure of the MME to respond in preparation phase of intra LTE S1 handover Timer TS1RELOCprep_LTE is used to guard against failure of the MME to respond preparation phase of intra LTE S1 handover. It is started in the source eNB when the S1AP: HANDOVER REQUIRED message is sent to the MME and is Guard against failure of the MME to respond in preparation phase of S1 handover to another 3GPP RATTimer tS1relprepIrat is used to guard against failure of the MME to respond preparation phase of S1 handover to another 3GPP RAT. It is started in the source eNB when the S1AP: HANDOVER REQUIRED message is sent to the MME and is The maximum bound for tag timer calculation valid for RLC-AM DRBs.
The maximum bound for tag timer calculation valid for RLC-UM DRBs.
0...500 ms, step 10 ms
0 (false), 1 (true)
-90...-60 dBm, step 5 dBm
-15...15 dB, step 0.5 dB
This timer delays the continuation of the admission control for pre-empted bearers.If eNB sends the S1AP message E-RAB RELEASE INDICATION for pre-empted bearers to MME, the MME needs time to release the indicated bearers in the EPC. Until the release of a bearer S-GW might still send downlink data This parameter determines whether TTI bundling can be started via intra-cell handover while inter-frequency or inter-RAT measurements are ongoing.
Controls the handling of TX path failures.
If set to "keepCellInService" a cell remains enabled as as long as at least one TX path carrying PSS/SSS is operating.
keepCellInService (0), disableCell (1)
Sets an upper limit for RSSI received from a UE. If exceeded, the next power command indicates -1 dB UL power change even if the current UL power is insufficient for reaching Target SINR.
If voiceSuppMatchInd is set to 'supported' (respectively 'notSupported'), then eNB shall set the 'Voice Support Match Indicator' IE in a S1AP: UE RADIO CAPABILITY MATCH RESPONSE message to 'Supported' (respectively to 'Not Supported')
errorIndication (1), supported (2), notSupported (3)
Time to trigger deactivation of all measurementsDuration for which the event A1 must be valid, such that Inter-Frequency/Inter-RAT measurements are deactivated
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Time to trigger activation of GERAN measurements
Duration for which the event A2 must be valid, such that GSM measurements are activated
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Time during which specific RSRP criteria for the event A2
needs to be met in order to trigger a measurement report0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Duration for which the event A2 must be valid, such that
additional InterFrequency measurements are activated0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Time to trigger activation of WCDMA measuremenrts
Duration for which the event A2 must be valid, such that WCDMA measurements are activated
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Duration for which the event A2 must be valid, such that
redirect is raised0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Handover margin for better cell HO. Used in measurement
event type A3 where the event is triggered when the neighbor cell becomes better than the serving cell by the value of the A3 offset.
Not defined
Not defined
This parameter defines the interval with which measurement reports are repeatedly sent as long as the specific criteria for the measurement event A3 are met. Value definitions as stated in 3GPP TS36.331: value MS120 corresponds to 120 ms, MS240 to 240 ms and so on, while value MIN1 corresponds to
120ms (0), 240ms (1), 480ms (2), 640ms (3), 1024ms (4), 2048ms (5), 5120ms (6), 10240ms (7), 1min (8), 6min (9), 12min Time for which the specific criteria for the measurement event
A3 must be met in order to trigger a measurement report. Value definitions as stated in 3GPP TS36.331: value MS0 corresponds to 0 ms, MS40 to 40 ms and so on.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Defines the interval with which measurement reports are
repeatedly sent as long as the specific criteria for the measurement event A5 are met. Value definitions as stated in 3GPP TS36.331: value MS120 corresponds to 120 ms, MS240 to 240 ms and so on, while value MIN1 corresponds to 1 min,
120ms (0), 240ms (1), 480ms (2), 640ms (3), 1024ms (4), 2048ms (5), 5120ms (6), 10240ms (7), 1min (8), 6min (9), 12min Time for which the specific criteria for the measurement event
A5 must be met in order to trigger a measurement report. Value definitions as stated in 3GPP TS36.331: value MS0 corresponds to 0 ms, MS40 to 40 ms and so on.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Access class barring for mobile originating CS fallback.
Set of Access class barring Parameter for mobile originating CS fallback.
Access class barring list (5 bit) for originating calls.Access class barring list (5 bit) for originating calls for AC 11-15 (leftmost bit is for AC 11, the second bit in the list is for AC 12, and so on...).The default is no access class barred.
Bit 0: AC 11, Bit 1: AC 12, Bit 2: AC 13, Bit 3: AC 14, Bit 4: AC 15
Defines the access class barring time.The access class barring time defines the time that the access barring check remains unsuccessful while the UE is not performing an emergency call. In this case, the UE starts timer T303 using this parameter. Timer value in minutes.
4s (0), 8s (1), 16s (2), 32s (3), 64s (4), 128s (5), 256s (6), 512s (7)
Defines the probability for a UE to establish an RRC connection.The access probability factor defines the probability for a UE to establish an RRC connection.The UE draws a random number (0 = rand < 1). If rand is higher than the value indicated by the access probability factor, the UE considers the access barring check to be unsuccessful.
0% (0), 5% (1), 10% (2), 15% (3), 20% (4), 25% (5), 30% (6), 40% (7), 50% (8), 60% (9), 70% (10), 75% (11), 80% (12), 85% (13), Access class barring for MMTEL video originating calls.
Set of Access Class Parameter for MMTEL video originating calls.
Access class barring list (5 bit) for originating calls.Access class barring list (5 bit) for originating calls for AC 11-15 (leftmost bit is for AC 11, the second bit in the list is for AC 12, and so on...).The default is no access class barred.
Bit 0: AC 11, Bit 1: AC 12, Bit 2: AC 13, Bit 3: AC 14, Bit 4: AC 15
Defines the access class barring time.The access class barring time defines the time that the access barring check remains unsuccessful while the UE is not performing an emergency call. In this case, the UE starts timer T303 using this parameter. Timer value in minutes.
4s (0), 8s (1), 16s (2), 32s (3), 64s (4), 128s (5), 256s (6), 512s (7)
Defines the probability for a UE to establish an RRC connection.The access probability factor defines the probability for a UE to establish an RRC connection.The UE draws a random number (0 = rand < 1). If rand is higher than the value indicated by the access probability factor, the UE considers the access barring check to be unsuccessful.
0% (0), 5% (1), 10% (2), 15% (3), 20% (4), 25% (5), 30% (6), 40% (7), 50% (8), 60% (9), 70% (10), 75% (11), 80% (12), 85% (13),
Not defined
Access class barring for originating calls. Not defined
Access barring for signaling. Not defined
Access class barring for MMTEL voice originating calls.Set of Access Class Parameter for MMTEL voice originating calls.
Access class barring list (5 bit) for originating calls.Access class barring list (5 bit) for originating calls for AC 11-15 (leftmost bit is for AC 11, the second bit in the list is for AC 12, and so on...).The default is no access class barred.
Bit 0: AC 11, Bit 1: AC 12, Bit 2: AC 13, Bit 3: AC 14, Bit 4: AC 15
Defines the access class barring time.The access class barring time defines the time that the access barring check remains unsuccessful while the UE is not performing an emergency call. In this case, the UE starts timer T303 using this parameter. Timer value in minutes.
4s (0), 8s (1), 16s (2), 32s (3), 64s (4), 128s (5), 256s (6), 512s (7)
Defines the probability for a UE to establish an RRC connection.The access probability factor defines the probability for a UE to establish an RRC connection.The UE draws a random number (0 = rand < 1). If rand is higher than the value indicated by the access probability factor, the UE considers the access barring check to be unsuccessful.
0% (0), 5% (1), 10% (2), 15% (3), 20% (4), 25% (5), 30% (6), 40% (7), 50% (8), 60% (9), 70% (10), 75% (11), 80% (12), 85% (13),
Access class barring list (5 bit) for originating calls for AC 11-15 (leftmost bit is for AC 11, the second bit in the list is for AC 12, and so on...).The default is no access class barred.
Bit 0: AC 11, Bit 1: AC 12, Bit 2: AC 13, Bit 3: AC 14, Bit 4: AC 15
The access class barring time defines the time that the access barring check remains unsuccessful while the UE is not performing an emergency call. In this case, the UE starts timer T303 using this parameter. Timer value in minutes.
4s (0), 8s (1), 16s (2), 32s (3), 64s (4), 128s (5), 256s (6), 512s (7)
The access probability factor defines the probability for a UE to establish an RRC connection.The UE draws a random number (0 = rand < 1). If rand is higher than the value indicated by the access probability factor, the UE considers the access barring check to be unsuccessful.
0% (0), 5% (1), 10% (2), 15% (3), 20% (4), 25% (5), 30% (6), 40% (7), 50% (8), 60% (9), 70% (10), 75% (11), 80% (12), 85% (13),
Access class barring list (5 bit) for signaling for AC 11-15 (leftmost bit is for AC 11, the second bit in the list is for AC 12, and so on...).The default is no access class barred.
Bit 0: AC 11, Bit 1: AC 12, Bit 2: AC 13, Bit 3: AC 14, Bit 4: AC 15
The access class barring time defines the time that the access barring check remains unsuccessful while the UE is not performing an emergency call. In this case, the UE starts timer T303 using this parameter. Timer value in minutes.
4s (0), 8s (1), 16s (2), 32s (3), 64s (4), 128s (5), 256s (6), 512s (7)
The access probability factor defines the probability for a UE to establish an RRC connection.The UE draws a random number (0 = rand < 1). If rand is higher than the value indicated by the access probability factor, the UE considers the access barring check to be unsuccessful.
0% (0), 5% (1), 10% (2), 15% (3), 20% (4), 25% (5), 30% (6), 40% (7), 50% (8), 60% (9), 70% (10), 75% (11), 80% (12), 85% (13),
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
Activates PUSCH masking 0 (false), 1 (true)
Switch to activate/deactivate Outer Loop Delay Target Control (OLDTC) for voice in downlink time domain scheduling.OLDTC algorithm measures an actual scheduling delay of voice bearer in DL and compares it to a targeted delay. Then, if the measured delay is more than the target, UE priority is increased and in case the measured delay is below the target, Switch to activate/deactivate voice packet aggregation in downlink scheduler.
Parameter to activate or deactivate the DRX feature in a cell.
Note for the case where periodic subband CQI reporting (periodicCqiFeedbackType) is enabled together with DRX functionality:Enables "Fast Adaptive MIMO Switching" for Closed Loop MIMO modes based on PMI/RI reports sent by UEs if actFastMimoSwitch is set to TRUE.Enables "Dynamic MIMO Switching" if actFastMimoSwitch is set to FALSE.Activate or deactivate the load adaptive number of PDCCH symbols in a cellThe actual OFDM symbol amount used for PDCCH in a TTI is selected from values between the minimum reasonable amount of symbols for the selected DL bandwidth and maximum allowed number of PDCCH symbols (maxNrSymPdcch).This parameter switch on/off the differnt Ul modulation schemes.When set to "16QAMHighMCS" MCS21-MCS24 are enabled and the UL AMC proposes to the UL scheduler to use the higher 16-QAM MCS, if radio conditions allow.
QPSK (0), 16QAM (1), 16QAMHighMCS (2)
For interfrequency load balancing neighbour frequencies within the same frequency band as the frequency of the own cell shall be excluded
Activate / Deactivate Outer loop Link Adaptation for PDCCHO&M switch for activating / deactivating an additional Outer Loop Link Adaptation for PDCCH. This additional PDCCH Outer Loop Link Adaptation controls the PDCCH link adaptation CQI shift such that the PDCCH and HARQ Activates the transmission of PRS signals according to the PRS configuration.
If Tx Diversity is enabled for PRS transmission, then precoding vector switching will be used and therefore all configured Tx antennas will be used for the transmission of the PRS signal. If Tx diversity is disabled then the PRS signal will just be transmitted on a single antenna (the physical antenna
Defines mode of the the radio module or RIU unit.
The "actRepeaterMode" parameter value Coupled needs to be used for coupled mode cells (R type configuration), value Dedicated for dedicated mode cells (cell have resources only from RIU unit) and value None for all other cells (cells do not
none (0), Dedicated (1), Coupled (2)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
Activates uplink group hopping in PUSCH and PUCCH. 0 (false), 1 (true)
0...1200, step 1
0...1200, step 1
0...840, step 1
0...30 %, step 5 %
0...30 %, step 5 %
The parameter allow to extend the number of interfrequency measurements from 3 to 6
Parameter to activate/deactivate the Smart DRX feature in a cell.
Activates the transmission of duplicated data streams via different RRHs in downlink, and the combination of uplink signals received from different RRHs.The super cell configurations can just be applied in 10 MHz or 20MHz cell bandwidth configurations, that is LNCEL "dlChBw" and "ulChBw" parameters are configured accordingly.Parameter to activate or deactivate the TTI Bundling feature in a cell.
Activates Uplink Link Adaptation and defines Link Adaptation modeWhen set to "off" no Uplink link Adaptation function is active at all.When set to "eUlLa" the extended Uplink Link Adaptation function is activated.
off (0), slowAmcOllaATB (4), eUlLa (5), fUlLa (6)
Selects a working mode for UL power control. Offers various combinations between open-loop and closed-loop control for PUCCH and PUSCH/SRS power.values: PuschOLPucchOL: PUSCH open loop, PUCCH open loop;
PuschOLPucchOL (0), PuschOLPucchCL (1), PuschCLPucchOL (2), PuschCLPucchCL (3), PuschCLSrsPucchOL (4), Additional margin for the maximum number of active UEs in the
cell accessing the cell via hand over with HO-cause: "HO desirable for radio reasons".This additional margin is used also for UEs accessing the cell via hand over with HO-cause: “Reduce load in serving cell” but only when Composite Available Capacity (CAC) in the Cell is bigger than 0. If CAC in the Cell is zero, the HO for “Reduce
Additional margin for the maximum number of active UEs in the cell accessing the cell via hand over with HO-cause: "Time Critical HO". This margin is added to the threshold maxNumActUe.The maximum margin depends on the bandwidth of the cell. The following values are allowed:Additional margin for Emergency Sessions.This margin increases the thresholds for active UEs, active DRBs and active QCI1-DRBs in the cell. Please note that active QCI1-DRBs thresholds are not considered when actEnhAcAndGbrServices is true.Additional margin on the threshold "maxGbrTrafficLimit" in case of handover for radio reasons.The amount of radio resources (PRBs) is calculated in % of the available PRBs depending on the system.For 5 MHz system 25 PRBs*,Additional margin on the threshold "maxGbrTrafficLimit " in case of handover for time critical reasons. The amount of radio resources (PRBs) is calculated in % of the available PRBs depending on the system.For 5 MHz system 25 PRBs*,
0...3600, step 1
0...3600, step 1
0...600, step 1
0...600, step 1
1...32, step 1
Administrative state of the cell, the value is set by the operator.
-120...-24 dBm, step 1 dBm
Not defined
allEqual (0), onlyX2 (1)
0...65535, step 1
Additional margin for the maximum number of active DRBs in the cell accessing the cell via HO with HO-cause: "HO desirable for radio reasons".This margin is added to the threshold maxNumActDrb.This additional margin is used also for UEs accessing the cell via hand over with HO-cause: “Reduce load in serving cell” but only when Composite Available Capacity (CAC) in the Cell is bigger than 0. If CAC in the Cell is zero, the HOs due to
Additional margin for the maximum number of active DRBs in the cell accessing the cell via HO with HO-cause: "Time Critical HO". This margin is added to the threshold maxNumActDrb.Hand over traffic shall have some preference against new upcoming traffic in the cell.Additional margin for the maximum number of active GBRs in the cell accessing the cell via hand over with HO-cause: "HO desirable for radio reasons".This additional margin is used also for UEs accessing the cell via hand over with HO-cause: “Reduce load in serving cell” but only when Composite Available Capacity (CAC) in the Cell is bigger than 0. If CAC in the Cell is zero, the HOs due to
Additional margin for the maximum number of active GBRs in the cell accessing the cell via hand over with HO-cause: "Time Critical HO". This margin is added to the threshold maxNumQci1Drb.The parameter is only relevant if "actEnhAcAndGbrServices" is set to False and ignored otherwise.The additional spectrum emission mask parameter is broadcast into a cell to indicate that the UE should meet an additional requirement.
unlocked (1), shutting down (2), locked (3)
It defines the minimum power level that a UE should report from a measured UTRA cell for considering the corresponding PCI, respectively PSC, as a possible UTRA neighbor cell candidate. (Mapping between the UE measured RSCP and the SFS values is according to 3GPP TS 25.133/25.123)Determines which UEs shall be actively sent to UL out-of-sync state provided that bearer combination and applied DRX profile allows for this.extendedDrxOnly: only UEs being configured with extended settings for the long DRX cycle, i.e. long DRX cycle durations larger than 80ms
extendedDrxOnly (0), allDrx (1), allUEs (2)
This is a list of blacklisted intra-frequency neighbouring cells for active mode mobility. Cells are identified by their PCI.
This parameter is introduced to allow blacklisting for X2-Handover only other HO variants are still allowed If set to "all" the respective entry in blacklistHoL is valid for all kinds of Handover Topology. If set to "onlyX2", handover to the respective entry in blacklistHoL shall only be excluded as targets for X2-based handover but may still be used as target This parameter must be configured for an inter-frequency cell. It will be taken as an intra-frequency cell if this parameter is set to ownCarrierFreq
Indicates the number of PCIs in the range (including startPCI). If Parameter rangePCI is only one, PCI (startPCI) is specified.
n4 (0), n8 (1), n12 (2), n16 (3), n24 (4), n32 (5), n48 (6), n64 (7), n84 (8), n96 (9), n128 (10), n168 (11), n252 (12), n504 (13),
Indicates the lowest PCI in the range 0...503, step 1
0...60, step 2
Not defined
100...9000 ms, step 100 ms
100...9000 ms, step 100 ms
100...9000 ms, step 100 ms
100...9000 ms, step 100 ms
Intra-frequency reselection timer EUTRA. Not defined
barred (0), notBarred (1)
1...100, step 1
Defines the pointer to PRB from where the CQI-allocation starts to leave some PRBs free and therefore avoid interference with neighbor bands. When set to 0 the Flexible UL Bandwidth feature is deactivated.
Defines the timers used to control mobility to CDMA2000 procedure.
Defines the amount of time the eNodeB waits for a measurement report for 1x Circuit Switched Fallback (CSFB) to be received from the UE.
Defines the amount of time the eNodeB waits for the Downlink CDMA2000 Tunneling message after sending the Uplink Handover Preparation Transfer message (received from the UE) to the MME.
Defines the amount of time the eNodeB waits to release the UE context after sending the Mobility From Evolved Universal Terrestrial Radio Access (EUTRA) Command message to the UE.
Defines the amount of time the eNodeB waits to receive an Uplink (UL) Handover Preparation Transfer message from the UE after sending a Handover From EUTRA Preparation Request message to the UE.
The cell reselection timer (t-ReselectionEUTRAN) is multiplied by this factor if the UE is in the medium high mobility state.
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
The cell reselection timer (t-ReselectionEUTRAN) is multiplied by this factor if the UE is in the medium mobility state.
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
The cell barred flag indicates if the cell status is barred or not. A barred cell is a cell that a UE is not allowed to camp on, not even for emergency calls. If a cell on which a UE is currently camped becomes barred, a cell reselection is triggered.
This parameter indicates the value that classifies the cell capacity with regards to the other cells of the eUTRAN. The Cell Capacity Class Value only indicates resources that are configured for traffic purposes.
1...80 characters
0...7, step 1
15...15 characters
0...17, step 1
Not defined
1...8 dB, step 1 dB
-34...-3 dB, step 1 dB
0 (false), 1 (true)
Cell Individual Offset (CIO) of own served cell for insertion into the CIO Cell List of EUTRA Serving Carrier Measurement ObjectOnly if CIO is different from zero, will the eNB consider it for Measurement Configuration.
-24dB (0), -22dB (1), -20dB (2), -18dB (3), -16dB (4), -14dB (5), -12dB (6), -10dB (7), -8dB (8), -6dB (9), -5dB (10), -4dB (11), -3dB (12), -This parameter allows the operator to give a cell a unique
name.
The cell reselection priority parameter defines the absolute priority of the serving layer. 0 means the lowest priority.
Equal priorities between RATs are not supported according to [3GPP 36.304].Reset request for CellWill be downloaded with current timestamp to indicated reset request, new request will receive new timestamp and therfeore cause parameter change.Cell reset will be exceuted automatically, since parameter change requires cell lock/unlock.Identifier of the cell resource group profile (CRGPR) instance which shall apply for the cell
The parameter activates the feature LTE1382 'Cell resource groups' and selects the resource sharing mode.The feature allows pre-reservation of cell resources in admission control per PLMN group.
none (0), DLonly (1), DLandUL (2)
Minimum required quality level and quality level offset in the cell.Not recognized by UEs < Rel9.
Offset to the signaled qQualMinR9 taken into account in the Squal evaluation as a result of a periodic search for a higher priority PLMN while camped normally in a VPLMN.Not recognized by UEs < Rel9.
Minimum required quality level in the cell.Not recognized by UEs < Rel9.
Define the admitted Scheduling Request periodicity in the cell, once the scheduling request reporting has been set to enableThis parameter is part of sr-ConfigIndexParameter . See TS 36.213 [23,10.1].
5ms (0), 10ms (1), 20ms (2), 40ms (3), 80ms (4)
This parameter allows the operator to specify the size of an LTE cell. It will be considered if the LTE1140: Intra-frequency load balancing feature is activated for deriving the corresponding CellBeta coeffcient .
very_small (0), small (1), medium (2), large (3)
O&M switch for enabling / disabling aperiodic CQI / RI / PMI reporting on PUSCH.
FBT1 (0), FBT2 (1)
1...4, step 1
0 (false), 1 (true)
dFListPucch: SEQUENCE (see values below) Not defined
-2 (0), 0 (1), 2 (2)
1 (0), 3 (1), 5 (2)
-2 (0), 0 (1), 1 (2), 2 (3)
-2 (0), 0 (1), 2 (2)
-2 (0), 0 (1), 2 (2)
Corresponds to cqi-ReportingModeAperiodic of 3GPP-36.213. CQI format indicator for aperiodic reporting on PUSCH. The operator can choose one of the 2 family modes available, the MIMO algorithm embedded in RRM chooses the effective mode based on the UE capabilities and the family mode chosen by Sets the CQI Reporting Periodicity Np for CQI reporting.Range is now extended up to include the 80ms periodicity option.
For each UE, the RRC algorithm calculate and add to this parameter a specific NOffset,CQI, depending on the UE offset allocation within the chosen periodicity determining the iCQI/PMI index value to be sent to UE.
2ms (2), 5ms (5), 10ms (10), 20ms (20), 40ms (40), 80ms (80)
Periodic subband CQI cycles KBetween consecutive periodic wideband CQI reporting occurrences each subband CQI report might be transmitted as many times as the parameter shows.
O&M switch for enabling / disabling simultaneous transmission of periodic CQI / RI / PMI feedback and HARQ ACK/NACK on PUCCH.
The parameter defines the transport format dependent offset in power control for PUCCH format 1.
The parameter defines the transport format dependent offset in power control for PUCCH format 1b.
The parameter defines the transport format dependent offset in power control for PUCCH format 2.
The parameter defines the transport format dependent offset in power control for PUCCH format 2a.
The parameter defines the transport format dependent offset in power control for PUCCH format 2b.
This is the maximum number of the allowed dedicated Scheduling Requests. Once this limit is exceeded, UE releases all PUCCH resources. The value 4n corresponds to 4 transmissions, 8n corresponds to 8 transmissions and so on.
4n (0), 8n (1), 16n (2), 32n (3), 64n (4)
The default paging cycle defines the cell-specific paging DRX cycle duration. It also determines the maximum paging DRX duration applicable in the cell. Referred to as ' T ' in TS 36.304. Value rf32 corresponds to 32 radio frames, rf64 corresponds to 64 radio frames and so on.
32rf (0), 64rf (1), 128rf (2), 256rf (3)
-8...8 dB, step 1 dB
-1...6, step 1
1...3, step 1
0 (false), 1 (true)
0 (false), 1 (true)
0...20 dB, step 0.1 dB
0 (false), 1 (true)
0...100 %, step 1 %
0 (false), 1 (true)
This parameter defines the minimum signal difference between the target and the source cell required for triggering an intra-frequency HO because of load imbalance.
Used for the calculation of P0_NOMINAL_PUSCH(j=2) for PUSCH (re)transmission corresponding to the random access response grant.
This is a delta cyclic shift for PUCCH formats 1/1a/1b. The shift is the cyclic shift difference between two adjacent ACK/NACK/Scheduling Request resources using the same orthogonal cover sequence and can be decided considering multipath delay spreads for the given cell deployment.Enabling/disabling of the transport format dependent offset on a per UE basis. If this parameter is "true", PUSCH power calculation in UE uplink power control equation (P1) takes the Transport Block size in account during the power calculation.
Enables/disables downlink 64 QAM modulation for link adaptation use in PDSCH.
Sets the power reduction from the antenna maximum TX power.
Downlink channel bandwidth defines the DL bandwidth for the eNode-B transmission in a cell, and also defines the number of available Physical Resource Blocks.The downlink channel bandwidth mapping to number of Physical Resource Blocks is:
1.4 MHz (14), 3 MHz (30), 5 MHz (50), 10 MHz (100), 15 MHz (150), 20 MHz (200)
The parameter dlInterferenceEnable is used for enabling and disabling interference generation in downlink.
The dlInterferenceLevel parameter defines percentage of physical resource blocks (PRB) that are used for downlink data and interference transmission.
The dlInterferenceModulation parameter defines modulation scheme to be used for generated downlink interference. That is, for a non-existing UE the downlink interference is transmitted.
QPSK (0), 16QAM (1), 64QAM (2)
Cell specific downlink transmission/mimo modeThe used DL mimo mode for each physical channel is the following:
SingleTx: Single Stream Downlink: All downlink physical channels are transmitted using this mode;
SingleTX (0), TXDiv (10), 4-way TXDiv (11), Dynamic Open Loop MIMO (30), Closed Loop Mimo (40), Closed Loop MIMO (4x2) O&M switch for enabling / disabling downlink Outer loop Link
Quality Control which is acting based on the 1st transmission HARQ result, that is, 1st transmission BLER.
0...6 dB, step 0.1 dB
0...6 dB, step 0.1 dB
0.1...99.9 %, step 0.1 %
0...15, step 1
0 (false), 1 (true)
0...10 dB, step 0.01 dB
DCI format 1C (0)
TTA (0), PFsch (1)
0.9...0.99, step 0.01
This is a trigger condition for power headroom submission due to pathloss change; named ULATB_DLPL_CHANGE in RRM SFS.
1 db (0), 3 db (1), 6 db (2), infinite (3)
Transmission power of the Physical Control Format Indicator Channel is boosted by set value
Transmission power of the Physical Hybrid ARQ Indicator Channel is boosted by set value
Transmission power of the downlink reference signals in a cell is boosted by set value compared to PDSCH
0dB (0), 1.77dB (1), 3dB (2), 4.77dB (3), 6dB (4)
Defines target Block Error Ratio (BLER) for downlink Link Adaptation in percents. Used with downlink Outer loop Link Quality Control (OLQC) functionality.
Defines the default Channel Quality Indicator (CQI) value for downlink Link Adaptation use. Default CQI is used when there is no valid CQI available, that is, a CQI report is not received or it is too old.
O&M switch for enabling / disabling downlink Adaptive Modulation and Coding.
Sets the compensation in 'TXDiv', '4-way TXDiv', 2x2 MIMO SM and 4x2 MIMO SM case into the DL power control.
Compensation of MIMO Coverage effects for MIMO Spatial Multiplexing and MIMO DiversityParameter to configure whether common channel signalling (SI, paging RACH ) use DCI format 1A or 1C on PDCCH.
Currently only DCI format 1C on PDCCH is supported.
Parameter to choose between different available algorithms for frequency domain scheduling.Available algorithms areTTA: fair allocation property based on ratio of relative to wideband channel qualityTarget value for Outer Loop Delay Target Control.This parameter defines a probability of packets exceeding a set delay target.
Determines whether PRBs partly allocated for transmission of Primary (PSS) and Secondary synchronization Signals (SSS) and Physical Broadcasting Channel (BPCH) should be used in dynamic scheduling.
not used (0), PRBs with PSS or SSS used (1), PRBs with PSS or SSS and PBCH used (2)
0 (false), 1 (true)
Not defined
1 (1)
0...50, step 1
Not defined
6 (6), 8 (8), 10 (10), 20 (20)
101 (101)
0...50, step 1
4 (4), 6 (6), 8 (8), 16 (16)
Not defined
This parameter determines whether the device type "noBenFromBatConsumpOpt" of the UE shall be considered for DRX configuration.Such an UE does not foresee to particularly benefit from NW-based battery consumption optimisation.Profile 1 of DRX configuration parameters.Profile for disabling DRX.
DRX profile index.Uniquely identifies a DRX profile.
DRX profile priority.
Applied to identify the DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Profile 101 of DRX configuration parameters.Profile for LTE intra-frequency ANR measurements
Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 200 (200)
Configures the long DRX cycle. It is recommended to use carefully the 40 ms value, as so far tested UEs are not able to do ReportCGI measurement with this cycle size. The long DRX cycle determines the periodic repetition of the DRX On Duration.
40ms (40), 80ms (80), 160ms (160)
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
DRX profile index.Uniquely identifies a DRX profile.
DRX profile priority.
Applied to identify the DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
Configuration parameters for Profile 102This Profile is used for UE-based UTRAN ANR measurements.
102 (102)
0...50, step 1
Not defined
103 (103)
0...50, step 1
Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
750 (750), 1280 (1280), 1920 (1920), 2560 (2560)
Configures the long DRX Cycle.The long DRX cycle determines the periodic repetition of the DRX On Duration.
320ms (320), 640ms (640), 1280ms (1280), 2560ms (2560)
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100), 200 (200)
DRX profile indexUniquely identifies a DRX profile.
DRX profile priority.
Applied to identify the DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33)
Configuration parameters for Profile 103Profile for LTE inter-frequency ANR measurements
Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission
10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 200 (200), 300 (300), 500 (500), 750 (750)
Configures the long DRX cycle. It is recommended to carefully use the 40?? ms value, as so far tested UEs are not able to do ReportCGI measurement with this cycle size.The long DRX cycle determines the periodic repetition of the DRX On Duration.
40ms (40), 80ms (80), 160ms (160), 320ms (320), 640ms (640)
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH
6 (6), 10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100)
DRX profile indexUniquely identifies a DRX profile.
DRX profile priority.
Applied to identify the DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.
Not defined
20ms (20), 40ms (40)
2 (2)
0...50, step 1
Not defined
40ms (40), 80ms (80)
Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33)
Profile 2 of DRX configuration parameters.Profile enables a voice optimized setting of DRX parameters.
Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10)
Configures the long DRX cycle. The long DRX cycle determines the periodic repetition of the DRX On Duration.
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10)
DRX profile index.Uniquely identifies a DRX profile.
DRX profile priority.
Applied to identify the DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
1 (1), 2 (2), 4 (4), 6 (6), 8 (8), 16 (16)
Profile 3 of DRX configuration parameters.Profile for non-GBR bearers that allows short settings of the long DRX cycle.
Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80)
Configures the long DRX cycle. The long DRX cycle determines the periodic repetition of the DRX On Duration.
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10)
3 (3)
0...50, step 1
Not defined
160ms (160), 320ms (320)
4 (4)
0...50, step 1
Not defined
DRX profile index.Uniquely identifies a DRX profile.
DRX profile priority.
Applied to identify the DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
1 (1), 2 (2), 4 (4), 6 (6), 8 (8), 16 (16)
Profile 4 of DRX configuration parameters.Profile for non-GBR bearers that allows medium settings of the long DRX cycle.Profile fits latency requirements of the corresponding traffic of up to 500ms; could be used, e.g., for IMS signalling.Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
200 (200), 300 (300), 500 (500), 750 (750), 1280 (1280), 1920 (1920), 2560 (2560)
Configures the long DRX cycle. The long DRX cycle determines the periodic repetition of the DRX On Duration.
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100)
DRX profile index.Uniquely identifies a DRX profile.
DRX profile priority.
Applied to identify the DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes for which the UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33)
Profile 5 of DRX configuration parameters.Profile for non-GBR bearers that allows long settings of the long DRX cycle.Profile fits corresponding traffic with no specific latency requirements; could be used, e.g., for Web browsing.Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
750 (750), 1280 (1280), 1920 (1920), 2560 (2560)
5 (5)
0...50, step 1
Not defined
20ms (20), 40ms (40)
2 (2)
0...50, step 1
Configures the long DRX cycle. The long DRX cycle determines the periodic repetition of the DRX On Duration.
640ms (640), 1280ms (1280), 2560ms (2560)
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100), 200 (200)
DRX profile index.Uniquely identifies a DRX profile.
DRX profile priority.
Applied to identify the DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes for which a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33)
Profile 2 of Smart DRX configuration parameters.Profile allows for an voice optimized setting of DRX parameters.
Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10)
Configures the long DRX cycle. The long DRX cycle determines the periodic repetition of the DRX On Duration.
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10)
Smart DRX profile index.Uniquely identifies a DRX profile.
Smart DRX profile priority.
Applied to identify the Smart DRX profile to be used if a UE has multiple bearers established.Note: Modification of Smart DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
1 (1), 2 (2), 4 (4), 6 (6), 8 (8), 16 (16)
1...16, step 1
2...124, step 2
Not defined
40ms (40), 80ms (80)
3 (3)
0...50, step 1
20ms (20), 40ms (40)
1...16, step 1
Configures the short DRX cycle. It is recommended to set this parameter equal to the drxLongCycle in order to optimize battery consumption during VoLTE calls.
10ms (10), 20ms (20), 40ms (40)
Configures the short DRX cycle timer. Integer value multiplied with drxShortCycle to determine the run time of short DRX cycle.
Factor is used for the calculation of the Short Term Inactivity Timer (STIS) when Smart DRX is used.smartStInactFactor is multiplied to the short DRX cycle duration to provide STIT value for smart DRX profile.
Profile 3 of Smart DRX configuration parameters.Smart DRX Profile for both GBR and non-GBR bearers.
Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80)
Configures the long DRX cycle. The long DRX cycle determines the periodic repetition of the DRX On Duration.
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10)
Smart DRX profile index.Uniquely identifies a DRX profile.
Smart DRX profile priority.
Applied to identify the Smart DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
1 (1), 2 (2), 4 (4), 6 (6), 8 (8), 16 (16)
Configures the short DRX cycle. It is recommended to set this parameter to smaller value than drxLongCycle.
Configures the short DRX cycle timer. Integer value multiplied with drxShortCycle to determine the run time of short DRX cycle. In case the parameter drxShortCycle is set to '20', then it is recommended to set drxShortCycleTimer to '16'.
2...124, step 2
Not defined
160ms (160), 320ms (320)
4 (4)
0...50, step 1
1...16, step 1
2...124, step 2
Not defined
Factor is used for the calculation of the Short Term Inactivity Timer (STIS) when Smart DRX is used.smartStInactFactor is multiplied to the short DRX cycle duration to provide STIT value for smart DRX profile.
Profile 4 of Smart DRX configuration parameters.Profile for non-GBR bearers that allows for medium settings of the long DRX cycle.Profile fits for latency requirements of the corresponding traffic of up to 500ms; could be used, for example for IMS signaling.Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100), 200 (200), 300 (300), Configures the long DRX cycle.
The long DRX cycle determines the periodic repetition of the DRX On Duration.
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100)
Smart DRX profile index.Uniquely identifies a DRX profile.
Smart DRX profile priority.
Applied to identify the Smart DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33)
Configures the short DRX cycle. It is recommended to set this parameter to smaller value than drxLongCycle.
10ms (10), 20ms (20), 40ms (40), 80ms (80), 160ms (160)
Configures the short DRX cycle timer. Integer value multiplied with drxShortCycle to determine the run time of short DRX cycle. In case the parameter drxShortCycle is set <= '20', then it is recommended to set drxShortCycleTimer to '16'.Factor is used for the calculation of the Short Term Inactivity Timer (STIS) when Smart DRX is used.smartStInactFactor is multiplied to the short DRX cycle duration to provide STIT value for smart DRX profile.
Profile 5 of Smart DRX configuration parameters.Profile for non-GBR bearers that allows for long settings of the long DRX cycle.Profile fits for corresponding traffic with no specific latency requirements; could be used, for example for Web browsing.
5 (5)
0...50, step 1
1...16, step 1
2...124, step 2
barred (1), Not barred (2)
Not defined
0...255, step 1
Configures the Inactivity Timer for DRX.The Inactivity Timer determines the number of consecutive PDCCH-subframes for which the UE monitors the PDCCH after decoding an UL or DL resource assignment on PDCCH for an initial data transmission.
1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100), 200 (200), 300 (300), Configures the long DRX cycle.
The long DRX cycle determines the periodic repetition of the DRX On Duration.
640ms (640), 1280ms (1280), 2560ms (2560)
Configures the On Duration Timer for DRX.The On Duration determines the number of consecutive PDCCH-subframes at the beginning of a DRX cycle during which the UE monitors the PDCCH.
10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100), 200 (200)
Smart DRX profile index.Uniquely identifies a DRX profile.
Smart DRX profile priority.
Applied to identify the Smart DRX profile to be used if a UE has multiple bearers established.Note: Modification of DRX profile priority is not recommended; preparation for future use.Configures the Retransmission Timer for DRX.The Retransmission Timer determines the maximum number of PDCCH-subframes a UE monitors the PDCCH as soon as a retransmission in DL is expected by the UE.
4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33)
Configures the short DRX cycle. It is recommended to set this parameter to smaller value than drxLongCycle.
10ms (10), 20ms (20), 40ms (40), 80ms (80), 160ms (160), 320ms (320), 640ms (640)
Configures the short DRX cycle timer. Integer value multiplied with drxShortCycle to determine the run time of short DRX cycle. In case the parameter drxShortCycle is set <= '40', then it is recommended to set drxShortCycleTimer to '16'. Factor is used for the calculation of the Short Term Inactivity Timer (STIS) when Smart DRX is usedsmartStInactFactor is multiplied to the short DRX cycle duration to provide STIT value for smart DRX profile
Access Class barring for AC 10.The access barred for emergency calls flag indicates that access is barred for emergency calls in this cell.
This Structure contains a list of eHRPD Sector-IDs which shall be used to address eHRPD-AN when tunneling cdma2000 HRPD PDU for Pre-Registration with eHRPD.Each Sector-ID is associated with a loadbalancing factor to allow loadbalancing between multiple eHRPD-ANEach eHRPD sector-ID which is configured for preregistration is associated with this loadbalancing factor to allow for loadbalancing according to a weighted round robin mechanism when selecting the sector-ID of the eHRPD-AN for Pre-Registration
2...45 characters
10...50, step 5
20...50, step 5
1...6, step 1
1...4, step 1
1...5, step 1
0.5...0.9, step 0.05
0...65535, step 1
0...65535, step 1
0...16777215, step 1
0 (false), 1 (true)
Flag if better cell HO is enabled. 0 (false), 1 (true)
This Parameter contains the HRPD Sector ID as specified in 3GPP2 C.S0024-A.
It is used to populate the CDMA2000 sector ID (128 bits) using hexadecimal characters.When not externally triggered by Outer Loop Link Adaptation (OLLA), the Adaptive Transmission Bandwidth (ATB) algorithm will be activated when the amount of TTI events here defined has been reached.
Averaging window for BLER in E-ULA.It is expressed in number of TTI when UE has been actively scheduled
Defines how many MCS indexes above the minimal MCS index are required before ATB may increase the amount of allocable PRBs
Defines the lowest possible MCS index before Adaptive Transmission Bandwith (ATB) algorithm may act and decrease the amount of allocable PRBs.
Defines the lowest possible amount of allocable PRBsThis shall be always bigger than or equal to redBwMinRbUl
Incremental and decremental factor for the Adaptive Transmission Bandwidth's calculation of allocable PRBsMultiplying the amount of PRBs by this factor the total amount of allocable PRBs is decreasing. Dividing the amount of PRBs by this factor, then the number of allocable PRB is increasingE-UTRA Absolute Radio Frequency Channel Number in downlink.Supported Bands and related downlink EARFCNs are the following:Band 1 (2110-2170 MHz): 0 - 599E-UTRA Absolute Radio Frequency Channel Number in uplink.Supported Bands and related uplink EARFCNs are the following:Band 1 (1920-1980 MHz): 18000 - 18599Band 2 (1850-1910 MHz): 18600 - 19199 An element of the emAreaIdList identifies an Emergency Area ID (emAreaId) of the eNB cell.Multiple emAreaId's may be configured for the eNB cell.
An 'emAreaId' ID may be used in signalling messages received via S1-i/f to indicate the set of cells with emergency impact (e.g. which have to broadcast the warning message).
The parameter defines the switch for enable/disable Channel Quality Indicator (CQI) based Adaptive Modulation and Coding (AMC) for PDCCH link adaptation. If the parameter is disabled, default aggregation is used implicitly.
Flag if coverage HO is enabled. 0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0...268435455, step 1
Not defined
0...32767, step 1
0...100 %, step 1 %
0...8388607, step 1
-8388608...8388607, step 1
height (1), depth (2)
Distinguishes between north and south latitude north (1), south (2)
The parameter defines if downlink Link Adaptation is allowed to select the 16QAM modulation for PDSCH.
The parameter determines the enabling/disabling switch for automatic selection of lower aggregation during PDCCH scheduling. This means that a required aggregation level which is defined from UE's Channel Quality Indicator (CQI) reports may be downgraded by one step without any other particular The parameter defines the switch for enabling / disabling power control on PDCCH. If the parameter is disabled, a flat downlink Power Spectral Density (PSD) is used.
The E-UTRAN cell identifier is unique within one PLMN and has a length of 28 bits. The leftmost 20 bits of the value correspond to the value of the eNB ID (parameter lnBtsId) and the 8 rightmost bits correspond to the value of the local cell resource ID (lcrId). This parameter cannot be set by operator, it Identifies the geographical position of the transmit antenna for positioning purposes.It is expressed as ellipsoid point with altitude and uncertainty ellipsoid according to TS 23.032The position is reported within the LPPa OTDOA Information Exchange procedure if requested by E-SMLC.Altitude in meters (coded value)Relation between coded Altitude N and range of absolute altitudes a (a >= 0 meters) it encodes is the following:
for 0 <= N <= 2^15-2:Confidence by which the position is known to be within the shape description expressed as a percentageConfidence = 0 means no information available
Latitude in degrees (coded value)Relation between coded Degrees of latitude N and range of absolute latitudes X (0° <= X <= 90°) it encodes is the following:
Longitude in degrees(coded value)Relation between coded Degrees of longitude N and range of absolute longitudes X (-180° <= X < +180°) it encodes is the following:Represents height above resp. depth below WGS84 ellipsoid surface
0...127, step 1
0...127, step 1
0...127, step 1
-10...0, step 1
0...3000000 kHz, step 1 kHz
Orientation of major axis of uncertainty ellipsoid measured clockwise from north
0...179 degree, step 1 degree
Uncertainty of altitudeRelation between coded Uncertainty altitude K and absolute uncertainty of altitude h (0 <= h <= 990.5 metres) it encodes is the following:
Semi-major of uncertainty ellipsoidRelation between coded Uncertainty semi-major K and absolute semi-major uncertainty r (0 <= r <= 1800 metres) it encodes is the following:
Semi-minor of uncertainty ellipsoidRelation between coded Uncertainty semi-minor K and absolute semi-minor uncertainty r (0 <= r <= 1800 metres) it encodes is the following:
The parameter defines the threshold under which the OLLA DCM triggers an earlier ATB calculation.It has always values <=0.
This parameter defines absolute TX frequency in kHz for overriding normal filter center frequency tuning.
This parameter can be used to override normal filter tuning to minimize noise to neighboring frequency band. If the parameter value is not defined, TX filter frequency is evaluated as an average of the configured center frequencies.
Filter coefficient for RSRP measurements used to calculate path loss as specified in [3GPP-36.213. 5.1.1.1]. Value fc0 corresponds to k = 0, fc1 corresponds to k = 1, and so on.
fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), fc13 (11), fc15 (12), fc17 (13), fc19 (14)Specifies the filtering coefficient used for UTRA-WCDMA CSFB
Cpich-Ecn0Specifies the filtering coefficient used for Cpich-Ecn0 within the measurement quantity configuration of UTRA-WCDMA
fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), fc13 (11), fc15 (12), fc17 (13), fc19 (14)Specifies the filtering coefficient used for UTRA-WCDMA CSFB
Cpich-RSCPSpecifies the filtering coefficient used for Cpich-RSCP within the measurement quantity configuration of UTRA-WCDMA
fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), fc13 (11), fc15 (12), fc17 (13), fc19 (14)Specifies the filtering coefficient used for UTRA Cpich-EcNo
Specifies the filtering coefficient used for Cpich-EcNo within the measurement quantity configuration of UTRA.
filterCoefficientCpichEcNo within quantity configuration of UTRA is an optional IE
fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), fc13 (11), fc15 (12), fc17 (13), fc19 (14)Specifies the filtering coefficient used for UTRA Cpich-RSCP
Specifies the filtering coefficient used for Cpich-RSCP within the measurement quantity configuration of UTRA
filterCoefficientCpichRscp within quantity configuration of UTRA is an optional IE
fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), fc13 (11), fc15 (12), fc17 (13), fc19 (14)Specifies the filtering coefficient used for RSRP (to be set in
QuantityConfigEUTRA)fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), fc13 (11), fc15 (12), fc17 (13), fc19 (14)
Not defined
0...999, step 1
0...999, step 1
2...3, step 1
The parameter defines the assigned PUSCH group. 0...29, step 1
1...8, step 1
1...16, step 1
1...7, step 1
Specifies the filtering coefficient used for RSRQ (to be set in QuantityConfigEUTRA)
fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), fc13 (11), fc15 (12), fc17 (13), fc19 (14)Specifies the filtering coefficient used for RSSI
Specifies the filtering coefficient used for RSSI within the measurement quantity configuration of GERAN
fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), fc13 (11), fc15 (12), fc17 (13), fc19 (14)These are further PLMN IDs of the cell. The parameter
indicates which operators' (PLMNID) networks are available from the cell. These PLMN identities have a cell scope.The primary PLMN ID has to be provided separately for the eNB.Indicates if the cell/PLMN combination is reserved for operator use.Cells reserved for operator use are treated as barred by 'normal' UEs without a USIM with AC 11 or 15 inserted. UEs with AC 11 or 15 USIM inserted are specific operator UEs and thus allowed to camp on and access such cells. The default
Not Reserved (0), Reserved (1)
The Mobile Country Code parameter indicates the Mobile Country Code and is part of the PLMN identifier.
The Mobile Network Code parameter indicates the Mobile Network Code and is part of the PLMN identifier.
The Mobile Network Code length parameter indicates the length of the Mobile Network Code, either 2 or 3 digits.
Determines if and on which layer congestion handling is applied if congestion is detected by layer 2.It is highly recommended to configure the value '"l2andl3" if 'Enhanced AC and GBR services' are activated, that is if "actEnhAcandGbrServices" equals True.
none (0), l2only (1), l2andl3 (2)
Indicates the maximum number of HARQ transmissions used for message 3 of the contention-based random access procedure.
Indicates the maximum number of HARQ transmissions in DL that is configured for each UE at initial access to a specific cell.
Indicates the maximum number of HARQ transmissions in UL that is configured for each UE at initial access to a specific cell.
4...28, step 4
interSubFrame (0)
Not defined
scenario1 (1), scenario 3 (3)
0...15 dB, step 0.5 dB
0...15 dB, step 0.5 dB
0...15 dB, step 0.5 dB
0...15 dB, step 0.5 dB
0...15 dB, step 0.5 dB
Indicates the maximum number of transmissions that is configured for a UE in TTI bundling operation.
This parameter defines if hopping is only inter-subframe or both inter- and intra-subframe.
Defines the timers used to control mobility to CDMA2000 HRPD
This timer value is used for eNodeB internally to estimate the time the UE may spend to access the target HRPD system after receiving RRC:MOBILITY FROM EUTRAN COMMAND before starting RRC Re-Establishment. eNodeB internally use this value to calculate the supervision timer for the eHRPD
100...15500 ms, step 100 ms
This timer value defines the amount of time the eNodeB waits for the Downlink CDMA2000 Tunneling message from MME after forwarding the dedicatedInfoCDMA2000-HRPD PDU in UplinkHandoverPreparationTransfer message (received from UE) to MME.
100...10000 ms, step 100 ms
The timer value defines the amount of time the eNodeB waits to receive an UlHandoverPreparationTransfer message from UE after sending a HandoverFromEUTRAPreparationRequest message to the UE.
100...15500 ms, step 100 ms
Defines highspeed scenario for a cell. Scenario 1 (open space scenario) and scenario 3 (tunnel scenario).
Scenarios are described in 36.141 Annex B.3:Related Hysteresis of Handover Margin for Better Cell Handover of Intra-FrequencyParameter is used within the entry and leave condition of the A3 triggered reporting condition. The IE value is multiplied by 2.
Related Hysteresis of Threshold for RSRP of serving cell for start of GERAN measurementsParameter is used within the entry and leave condition of the A2 triggered reporting condition. The IE value is multiplied by 2.
Related hysteresis of threshold for RSRP of serving cell for start of CDMA2000-eHRPD measurements
Parameter is used within the entry and leave condition of the A2 triggered reporting condition. The IE value is multiplied by 2.Related Hysteresis of Threshold for RSRP of serving cell for start of inter frequency measurementsParameter is used within the entry and leave condition of the A2 triggered reporting condition. The IE value is multiplied by 2.
Related Hysteresis of Threshold for RSRP of serving cell for start of WCDMA measurementsParameter is used within the entry and leave condition of the A2 triggered reporting condition. The IE value is multiplied by 2.
0...15 dB, step 0.5 dB
0...15 dB, step 0.5 dB
0...15 dB, step 0.5 dB
Not defined
1...30 s, step 1 s
0...100 %, step 1 %
0...100 %, step 1 %
0...100 %, step 1 %
10...300 s, step 5 s
0...100 %, step 1 %
0...100 %, step 1 %
Related Hysteresis of Threshold for RSRP of serving cell for stopping of Inter-RAT (InterFreq) MeasurementsParameter is used within the entry and leave condition of the A1 triggered reporting condition. The IE value is multiplied by 2.
Related Hysteresis of Handover Margin for Coverage Handover of Intra-FrequencyParameter is used within the entry and leave condition of the A5 triggered reporting condition. The IE value is multiplied by 2.
Related Hysteresis of Threshold for RSRP of serving cell for redirection triggerParameter is used within the entry and leave condition of the A2 triggered reporting condition. The IE value is multiplied by 2.
List of Target Load and High Load Thresholds for Inter Frequency Load BalancingTarget Load represents the operating point = load at which the cell should work according to its dimensioning and the traffic model. High Load is the treshold that controls the Inter Frequency Load Balancing.Timer is started when S1AP sends back Initial Context Setup Response. After Timer expiration it is checked whether or not the UE has a QCI1 bearer.
The value 31 indicates that QCI1 (VOIP) bearer are not excluded from the Inter Frequency Load Balancing. Note that when QCI1 check is not performed, there is 1s wait timer before start Load Balancing.
High Load for usage of GBR Uu I/F resources in DL direction.High Load is the treshold that controls the Inter Frequency Load Balancing.
If iFLBHighLoadGBRDL and iFLBHighLoadNonGBRDL and iFLBHighLoadPdcch are set to 100%, the cell will never enter active Inter Frequency Load Balancing state.
High Load for usage of nonGBR Uu I/F resources in DL direction.High Load is the treshold that controls the Inter Frequency Load Balancing.
High Load for usage of PDCCH Uu I/F resourcesHigh Load is the treshold that controls the Inter Frequency Load Balancing.
If iFLBHighLoadGBRDL and iFLBHighLoadNonGBRDL and iFLBHighLoadPdcch are set to 100%, the cell will never enter active Inter Frequency Load Balancing state.
Defines the nominal number of PRBs which would be assigned to a nonGBR bearer with QCI weight 1.
0.001 (1), 0.002 (2), 0.005 (5), 0.01 (10), 0.02 (20), 0.05 (50), 0.1 (100), 0.2 (200), 0.5 (500), 1 (1000), 2 (2000), 5 (5000), 10 (10000)This timer is assigned to all active UEs to trigger a cyclical re-
check if they can be iF-LB candidatesThe basic value given by the operator is dynamically adapted depending on number of active UEs in the cell to restrict the timer expiry rateTarget Load for usage of GBR Uu I/F resources in DL direction.Target Load represents the operating point = load at which the cell should work according to its dimensioning and the traffic model.If iFLBTargetLoadGBRDL or iFLBTargetLoadNonGBRDL or iFLBTargetLoadPdcch are set to 0%, the cell will never offer any available capacity for Inter Frequency Load Balancing to its neighbor cells.
Target Load for usage of nonGBR Uu I/F resources in DL direction.Target Load represents the operating point = load at which the cell should work according to its dimensioning and the traffic model.
0...100 %, step 1 %
1...100, step 1
Percentage of UE to be selected for Idle Mode Load Balancing. 0...100 %, step 10 %
0...2000 ms, step 5 ms
5...65535 s, step 1 s
0...28, step 1
0...20, step 1
Defines the initial amount of maximum PRBs in uplink. 1...100, step 1
allowed (0), notAllowed (1)
0 (false), 1 (true)
0...255, step 1
0...65535, step 1
Target Load for usage of PDCCH Uu I/F resourcesTarget Load represents the operating point = load at which the cell should work according to its dimensioning and the traffic model.If iFLBTargetLoadGBRDL or iFLBTargetLoadNonGBRDL or iFTargetLoadPdcch are set to 0%, the cell will never offer any available capacity for Inter Frequency Load Balancing to its neighbor cells.
Weight factor of the serving cell frequency layer used by round robin algorithm for idle mode load balancing.When the parameter is not defined, the corresponding carrier is not used in selecting main target for IdleModeMobilityControlInfo for load balancing. Weighted round robin algorithm shall select always one target frequency for idle
Improved latency reaction timer in uplink defines the time in which the UE has to send useful data after either the initial dummy grant or a previous reception of useful data. If the timer expires the, UE will not get dummy grant anymore.Additionally, the dummy grants are triggered by SRB traffic in DL when ilReacTimerUl modulo 100 is equal to 5. This means that the Candidate Set 3 is extended by UEs with active SRB in DL in case ilReacTimerUl is equal to 5, 105, 205, and so on.
The parameter defines the time period for the indication of the UE inactivity in both DL and UL directions.
The parameter defines an initial Modulation and Coding Scheme (MCS) to be used on PDSCH for other use than BCCH, PCH or random access messages.
iniMcsDl is applicable for PDSCH LA only if both dlOlqcEnable and dlamcEnable are set to 'false' where it determines the static target code rate for PDSCH user data transmissions. Otherwise, UE reported CQI or default CQI (dlamcCqiDef) with
The parameter defines an initial Modulation and Coding Scheme (MCS) to be used on PUSCH for other use than random access message 3.
Used to control cell reselection on intra-frequency cells when the highest ranked cell is barred, or is considered as barred by the UE, as specified in TS 36.304.
Indicates whether all the neighboring cells use Antenna Port 1.When set to TRUE, the UE may assume that at least two cell-specific antenna ports are used in all neighboring cells.
ID of the Local Cell Resource. The value for each cell shall be unique in the eNB.
Instance identifier of the object LNCEL. This parameter is used only for O&M purposes.
Important Note:If the lnCelId shall be modified it is recommended to use BTSSM. The BTSSM will automatically perform a full commissioning instead of a delta commissioning. Otherwise 2 plan file operations are required because LNCEL as well as the
-10...0 dB, step 1 dB
Maximum bit rate that shall not be exceeded in UL TTI.
0.05...0.5, step 0.01
0.05...0.5, step 0.01
0.05...0.5, step 0.01
0.05...0.5, step 0.01
30...90 %, step 5 %
1...4, step 1
0...3600, step 1
0...1200, step 1
This parameter selects the cell load balancing profile. From the profile parameters controlling the cell load condition will be derived.
slow (0), medium (1), fast (2)
This parameter defines the minimum value that a CIO can assume, when changed autonomously by the eNB during for example the intra-frequency load balancing function.
Maximum Bit Rate that shall not be exceeded in DL (configured value is limitation on TTI base, i.e. a calculation on maximum bitrate per TTI is done)This parameter is not used any longer for UEs having carrier aggregation activated. In case CA-UEs are treated the limitations are taken from the 3 GPP-standard TS 36.306 considering the UE's category.
1000...300000 kbps, step 500 kbps
1000...75000 kbps, step 500 kbps
The parameter defines the maximum code rate for paging. This maximum code rate is taken into account during PDSCH scheduling.
Note:The parameter defines the maximum code rate for random access procedure messages 4 (SRB0 message). This maximum code rate is taken into account during PDSCH scheduling.
The parameter defines the maximum code rate for random access procedure messages 2 (RA response). This maximum code rate is taken into account during PDSCH scheduling.
Note:The parameter defines the maximum code rate for System Information Broadcast. This maximum coderate is taken into account during PDSCH scheduling.
Recommendation:Maximum radio resource consumption (PRBs) for GBR traffic in UL and DLThe amount of radio resources (PRBs) is calculated in % of the available PRBs depending on the system.For 5 MHz system 25 PRBs*The parameter defines how many OFDM symbols can be used for PDCCH channel transmission. eNB selects based on usage the actual value for each TTI, which and value is signaled to the UEs in PCFICH.
Threshold for the maximum number of established DRBs in the cell. The maximum number of established DRBs depends on the bandwidth of the cell. The following values are allowed:
Threshold for the maximum number of active UEs in the cell. Active UEs are UEs with at least one DRB.The maximum margin depends on the bandwidth of the cell. The following values are allowed:
0...50, step 1
0...600, step 1
0...1200, step 1
0...1200, step 1
1...20, step 1
1...20, step 1
ueCapability (0), OaM (1)
Not defined
0...16, step 0.1
Threshold to limit the maximum number of carrier aggregation configured UEs in a cell PCell (P-LNCEL); Dc (Double carrier) indicates that these UEs have 1 PCell (P-LNCEL) and only 1 SCell (S-LNCEL).Carrier aggregated UEs with 1 SCell need double amount of UL resources compared with single carrier UEs as long as UL signalling is done only via PCell. That's why the information Dc is relevant.
Threshold for the maximum number of established QCI1-GBR-DRBs in the cell.The parameter is only relevant if "actEnhAcAndGbrServices" is set to 'false' and ignored otherwise.QCI1-DRBs are additional data radio bearers in the cell and are also checked against the threshold maxNumActDrb. Threshold for the maximum number of UEs in the cell which may establish a RRC connection.This threshold includes resource usage of UEs using this cell as SCell in case of Carrier Aggregation.
Threshold for the maximum number of UEs in the cell which may establish a RRC connection, used to admit RRC connections for emergency calls.In order to give emergency sessions more chance to be established than normal traffic maxNumRrcEmergency should be greater than maxNumRrc + max(addAUeRrHo, addAUeTcHo)
This is the maximum number of simultaneous users scheduled in a TTI in downlink.
The following values are allowed:
This is the maximum number of simultaneous users scheduled in a TTI in uplink.
The following values are allowed:
1.4 MHz bandwidth 1.. 73 MHz bandwidth: 1..75 MHz bandwidth 1 .. 710 MHz bandwidth 1 .. 1415 MHz bandwidth 1 .. 1720 MHz bandwidth 1 .. 20Selects whether the UE Capability or O&M parameters limits the Maximum Bitrate UL and Maximum Bitrate DLif UE capabilities respectively the UE categories are used the limit is per UE; if the O&M parameters are used the limit is for all UEs in the cell.Defines which quantity to use for Event B1 measurements towards this frequency set in QuantityConfigUTRA-FDD.The quantities used to evaluate the triggering condition for the event.cpich-RSCP corresponds to CPICH_RSCP in TS 25.133 for FDD, and P-CCPCH_RSCP in TS 25.123 for TDD.
cpichRSCP (0), cpichEcN0 (1)
Defines which quantity to use for Event B2 measurements towards this frequency set in QuantityConfigUTRA
The quantities used to evaluate the triggering condition for the event.
cpichRSCP (0), cpichEcN0 (1)
Closed Loop MIMO parameter configuration. Those parameter need to be configured only if dlMimoMode is configured to "Closed Loop Mimo" or "Closed Loop MIMO (4x2)".
CQI Threshold for fallback to closed loop MIMO single codeword transmission (in CQI) (not applicable if actFastMimoSwitch set to 'true')
0...16, step 0.1
1...2, step 0.05
1...2, step 0.05
Not defined
0...16, step 0.1
0...16, step 0.1
Rank threshold for fallback to Open Loop MIMO diversity. 1...2, step 0.05
1...2, step 0.05
Minimum bit rate that shall be granted in DL TTI.
Minimum bit rate that shall be granted in UL TTI. 5...75000 kbps, step 5 kbps
Not defined
1...16, step 1
CQI Threshold for activation of closed loop MIMO dual codeword transmission (in CQI) (not applicable if actFastMimoSwitch set to 'true')
Rank Threshold for fallback to closed loop MIMO single codeword transmission (not applicable if actFastMimoSwitch set to 'true')
Rank Threshold for activation of closed loop MIMO dual codeword transmission (not applicable if actFastMimoSwitch set to 'true')
Open Loop MIMO parameter configuration. Those parameter need to be configured only if dlMimoMode is configured to "Dynamic Open Loop MIMO".
CQI threshold for fallback to Open Loop MIMO diversity (in CQI).
CQI threshold for activation of Open Loop MIMO Spatial Multiplexing (in CQI).
Rank threshold for activation of Open Loop MIMO Spatial Multiplexing.
5...300000 kbps, step 5 kbps
The parameter maps Subscriber Profile Identifiers (SPID) to mobility profiles. Several SPIDs or a range of SPIDs can be mapped to a common Mobility Profile.
Identifier of the Mobility Profile, which is mapped to one or more SPIDs.
1...256, step 1
2...256, step 1
1...16, step 1
1...16, step 1
2 (0), 4 (1), 8 (2), 16 (3)
10...2047, step 1
1...98, step 1
Single SPID value or first SPID value of a range which shall be mapped to a Mobility Profile.3GPP 36.300 defines the following SPID range:Values 1-128 are Operator specific SPIDs
Last SPID value if a range of SPID values shall be mapped to a Mobility Profile.3GPP 36.300 defines the following SPID range:Values 1-128 are Operator specific SPIDs
The number of cell changes to enter the high mobility state. Corresponds to NCR_H in TS 36.304.
The number of cell changes to enter the medium mobility state. Corresponds to NCR_M in TS 36.304.
The duration for evaluating criteria to enter mobility states. Corresponds to TCRmax in TS 36.304. Value in seconds, s30 corresponds to 30 s and so on.
30s (0), 60s (1), 120s (2), 180s (3), 240s (4), spare3 (5), spare2 (6), spare1 (7)
The additional duration for evaluating criteria to enter the normal mobility state. Corresponds to TCRmaxHyst in TS 36.304. Value in seconds, s30 corresponds to 30 s and so on.
30s (0), 60s (1), 120s (2), 180s (3), 240s (4), spare3 (5), spare2 (6), spare1 (7)
The parameter defines the length of the modification period.Modification period = modificationPeriodCoeff * defaultPagingCycle / 10 ms.Modification period is equal or lower than 1024.(n2 corresponds to value 2, n4 corresponds to value 4 and n8 corresponds to value 8.)Offset used to calculate ACK/NACK resource from PDCCH CCE.This is the AckNack index offset relative to the lowest CCE index of the associated DL scheduling PDCCH.
This is the maximum number of consecutive "out of sync" indications received from lower layers.n1 corresponds to 1 and so on.
n1 (0), n2 (1), n3 (2), n4 (3), n6 (4), n8 (5), n10 (6), n20 (7)
Maximum number of consecutive "in-sync" indications received from lower layers.n1 corresponds to 1 and so on.
n1 (0), n2 (1), n3 (2), n4 (3), n5 (4), n6 (5), n8 (6), n10 (7)
The parameter nCqiRb is the number of Physical Resource Blocks that are reserved for PUCCH formats 2/2a/2b.
It is part of the set which defines the maximum PUCCH allocation called MaxPucchResourceSize. All other parameters are related to each other according to this formula:Offset value applicable to the EUTRA serving carrier frequency.The IE Q-OffsetRange is used to indicate a cell or frequency specific offset to be applied when evaluating candidates for cell re-selection or when evaluating triggering conditions for measurement reporting.
-24dB (0), -22dB (1), -20dB (2), -18dB (3), -16dB (4), -14dB (5), -12dB (6), -10dB (7), -8dB (8), -6dB (9), -5dB (10), -4dB (11), -3dB (12), -
disabled (0), enabled (1)
-127...-96 dBm, step 1 dBm
-126...24 dBm, step 1 dBm
10...49 dBm, step 0.1 dBm
-30...33 dBm, step 1 dBm
-30...33 dBm, step 1 dBm
1 (0), 2 (1), 4 (2), 8 (3)
4...8, step 4
4...8, step 4
4...8, step 4
4...8, step 4
This is the operational state of the cell, the value is set by the system.
This parameter defines the cell specific nominal power to be used for PUCCH power calculation in UE uplink power control equation (P2), for controlling mean received SNR for control data.
This parameter defines the cell specific nominal power for the PUSCH. Used for P0_PUSCH calculation in UE uplink power control equation (P1) for controlling the mean received SNR for user data during (re)transmission corresponding to a received PDCCH with DCI format 0 associated with a new packet This parameter defines the maximum output power of the cell per antenna carrier in dBm. The maximum output power is the maximum value for the linear sum of the power of all downlink physical channels that is allowed to be used in a cell. The reference point is the antenna connector.Pmax to be used for the intra-frequency neighboring EUTRA cells. If pmax is absent, the maximum power according to the UE capability is used.
The IE P-Max is used to limit the UE's uplink transmission power on a carrier frequency; it is also used to calculate the parameter P-compensation defined in TS 36.304 .Corresponds to parameter PEMAX in TS 36.101.The UE transmit power should not exceed the minimum of this value (in dBm), if provided, and the maximum UE power for the UE power class, PUMAX, as specified in TS 36.101.
Paging nB defines the number of possible paging occasions per radio frame, i.e. the density of paging occasions. This parameter is used to calculate the number of paging occasions within one paging DRX duration, which in turn is used to calculate the paging occasion.
oneT (2), halfT (3), quarterT (4), oneEighthT (5), oneSixteenthT (6), oneThirtySecondT (7)
The parameter defines default aggregation for UE to be used in PDCCH Link Adaptation when enableAmcPdcch has been disabled or when enableAmcPdcch has been enabled and there is no valid Channel Quality Indicator (CQI) available due to an expiry of the timer determining CQI remembering.The parameter defines the reserved number of Control Channel Elements (CCEs) for dedicated Random Access Message 4 assignment on PDCCH.
PDCCH aggregation for paging defines how many CCEs shall be used for one PDCCH.
The parameter defines the aggregation level by means of control channel elements (CCEs) for preamble assignments on PDCCH. The preamble assignment is message 0 sent during the non-contention based Random Access procedure if DL data arrives during UL out-of-sync.PDCCH aggregation for Random Access response message defines how many CCEs are used for one PDCCH.
4...8, step 4
0.5...2, step 0.05
-10...10, step 0.1
0.1...3 %, step 0.1 %
0.1...0.9, step 0.05
Not defined
Activates the periodic measurement type 0 (false), 1 (true)
periodicIntraFreq (0)
Normal (0), Extended (1)
PDCCH aggregation for secondary system information defines how many CCEs should be used for one PDCCH.
The parameter defines the limit for PDCCH allocations. PDCCH UE-specific search space capacity is multiplied by this factor.
The parameter will be ignored if dlChBw is set to '1.4 MHz'.
The fine-tuning parameter for adjustment of measured and averaged CQI towards lower or higher aggregation in PDCCH Link Adaptation.
The parameter gives the initial starting point for PDCCH shift dynamic control in case actOlLaPdcch is true.BLER target for PDCCH outer loop link adaptation in percent.Defines target Block Error Ratio (BLER) of PDCCH and UL HARQ response for initial downlink transmissions for PDCCH Outer Loop Link Adaptation in percents.If PDCCH OLLA is additionally based on PUSCH TX/DTX detection, the parameter defines target Block Error Ratio (BLER) of PDCCH and PUSCH missed detection for initial uplink transmissions for PDCCH Outer Loop Link Adaptation in
PDCCH allocation balance initial between UL and DL for load adaptive PDCCH
The parameter determines initial value the PDCCH allocation balance constant between uplink and downlink. The Load Adaptive PDCCH algorithm optimizes the value depending on the actual load distribution between DL and UL
Parameter determines if Wideband CQI or UE_selected subband CQI report mode for periodic CQI reporting on PUCCH or PUSCH should be used.If periodicCqiFeedbackType is set to UE_selected subband CQI this means that UEs supporting subband CQI (prooved via check of FGI) use it and UEs which do not support subband CQI will use wideband CQI.
wideband (0), UE_selected (1)
With this parameter it is possible to configure periodic UE measurements.
Specifies the measurement type , which shall be periodically performed by the UE
Number of periodic ReportStrongestCells measurement reports configured at the UE
1 (1), 2 (2), 4 (4), 8 (8), 16 (16), 32 (32), 64 (64), infinity (65)
Time interval between two consecutive periodic ReportStrongestCells measurement reports configured at the UE
120ms (1), 240ms (2), 480ms (3), 640ms (4), 1024ms (5), 2048ms (6), 5120ms (7), 10240ms (8), 1min (9), 6min (10), 12min Indicates the duration of PHICH. When phichDur is set to value
(Normal), PHICH is transmitted in the first OFDMA symbol, and when phichDur is set to value (Extended), PHICH is transmitted in first three OFDMA symbols.
0...503, step 1
0...15, step 1
3...24, step 1
0...94, step 1
0 (false), 1 (true)
PRS Bandwidth in terms of PRBs
Not defined
The Physical Hybrid ARQ Indicatior Channel (PHICH) carries the hybrid-ARQ ACK/NAK. Multiple PHICHs mapped to the same set of resource elements constitute a PHICH group and the PHICH resource parameter defines the number of PHICH groups.
N = 1/6 (0), N = 1/2 (1), N = 1 (2), N = 2 (3)
Physical layer cell identity defines a cell uniquely. It consists of two parts; physical layer cell identity group and physical layer identity, and is calculated with the following formula:physical layer cell identity = 3 x physical layer cell identity group + physical layer identity.Preamble cyclic shift defines the configuration which is used for preamble generation. The configuration determines how many cyclic shifts are needed to generate preamble. Unrestricted set is supported. Configuration also defines the zero correlation zone and respective maximum cell range.Defines allowed system frame and subframe numbers for random access attempts, and the preamble format.
For a cell with bandwidth 1.4 MHz the following prachConfIndex values are recommended dependent on the physical cell id (PCI):Defines the location in frequency for the PRACH transmissions.For UL scheduling its recommended that PRACH is located next to PUCCH either on the lower or upper edge of the bandwidth because UL PRB allocation for UE consist of consecutive PRBs. If there is a small gap between PUCCH and High speed flag for PRACH preamble generation determines whether an unrestricted or a restricted set has to be used by the UE.false = Unrestricted; true = Restricted
The power ramping step size parameter defines the power increment step size for Random Access preamble transmission.
0dB (0), 2dB (1), 4dB (2), 6dB (3)
The preamble transmission maximum defines the maximum number of Random Access transmissions. Note: The values n50, n100 and n200 should not be used.
3 (0), 4 (1), 5 (2), 6 (3), 7 (4), 8 (5), 10 (6), 20 (7), 50 (8), 100 (9), 200 (10)
Indicates if the cell/PLMN combination is reserved for operator use.Cells reserved for operator use are treated as barred by 'normal' UEs without a USIM with AC 11 or 15 inserted. UEs with AC 11 or 15 USIM inserted are specific operator UEs and thus allowed to camp on and access such cells. The default
Not Reserved (0), Reserved (1)
6 PRB (6), 15 PRB (15), 25 PRB (25), 50 PRB (50), 75 PRB (75), 100 PRB (100)
Determines the periodicity and offset of the PRS occasions for FDD
151-157: 160ms period471-477: 320ms period
151 (151), 152 (152), 153 (153), 156 (156), 157 (157), 471 (471), 472 (472), 473 (473), 476 (476), 477 (477), 1111 (1111), 1112 (1112), Defines the PRS Muting pattern that is applied.
Muting will be deactivated if the parameter is omitted
1...2, step 1
-12...7.78 dB, step 0.01 dB
0...0, step 1
0...10, step 1
2...15, step 1
0...12, step 1
-34...-3 dB, step 1 dB
Affects the minimum required RX level in the cell. 2...16 dB, step 2 dB
-140...-44 dBm, step 2 dBm
The prsMutingInfo is a bit string consisting of 16 bit. Only the first prsMutingInfoPatternLen bits will be taken into account starting from prsMutingInfoBit1.This means the first prsMutingInfoPatternLen bits of the prsMutingInfo bit string will determine the PRS Muting Info pattern with a given periodicity. Details of the description can be found in TS36.355.
Bit 0: prsMutingInfoBit16, Bit 1: prsMutingInfoBit15, Bit 2: prsMutingInfoBit14, Bit 3: prsMutingInfoBit13, Bit 4: prsMutingInfoBit12, Bit 5: The prsMutingInfoPatternLen determines how many PRS
Muting Info Bits are used to describe PRS muting sequence. The sequence starts from the prsMutingInfoBit1 and it corresponds to the first positioning occasion, prsMutingInfoBit2 corresponds to second positioning occasion and so on.
2 bits (2), 4 bits (4), 8 bits (8), 16 bits (16)
Number of DL Frames that are used for PRS per PRS occasion for FDD. With this PRS transmission can be repeated within a PRS occasion in order to increase the hearability of PRS
Power Boosting for PRS increases hearability and allows for a more flexible use of the DL Tx power.
With de-boosting it is possible to lower PRS power in interference sensitive areas.Number of cyclic shifts for PUCCH formats 1/1a/1b in a resource block used for a mix of formats 1/1a/b and 2/2a/2b.
The parameter defines the delta offset index for the decoding of the HARQ ACK / NACK information on PUSCH channel.
The parameter defines the delta offset index for the decoding of the Channel Quality Indicator (CQI) / precoding matrix indicator information on PUSCH channel.
The parameter defines the delta offset index for the decoding of the Rank Indicator information on the PUSCH channel.
The Qhyst parameter provides the hysteresis value in dB for ranking criteria in the cell reselection procedure. The parameter is used to minimize pingpong.
0dB (0), 1dB (1), 2dB (2), 3dB (3), 4dB (4), 5dB (5), 6dB (6), 8dB (7), 10dB (8), 12dB (9), 14dB (10), 16dB (11), 18dB (12), 20dB (13), Minimum required quality level in intra-frequency neighbor cells
Not recognized by UEs < Rel9
Specifies the minimum required RX RSRP level in the cell.(Qrxlevmin in 36.304)
-140...-44 dBm, step 2 dBm
0...15, step 1
Defines the size of the Random Access preambles Group A.
0...15, step 1
0...4294967295, step 1
1...1.5, step 0.01
1...1.5, step 0.01
Specifies the minimum required RX RSRP level for the intra-frequency neighbouring E-UTRA cells.(Qrxlevmin in 36.304)
The maximum content resolution timer parameter defines the maximum amount of time allowed for contention resolution.
8ms (0), 16ms (1), 24ms (2), 32ms (3), 40ms (4), 48ms (5), 56ms (6), 64ms (7)
Defines the Modulation and Coding Scheme (MCS) to be used for large size random access message 3 in case of initial access or handover.
The size of the large size Random Access Msg3 may be restricted depending on the setting of raLargeMcsUl.Path loss threshold in dB required for selecting one of the two groups of Random Access preambles.The UE will only use preambles from group B if it needs to send a large Msg3 AND its measured path loss is less than Pmax - PREAMBLE_INITIAL_RECEIVED_TARGET_POWER - DELTA_PREAMBLE_MSG3 - messagePowerOffsetGroupB
-infinity (0), 0 dB (1), 5 dB (2), 8 dB (3), 10 dB (4), 12 dB (5), 15 dB (6), 18 dB (7)
This parameter determines the total number of non-dedicated RA preambles that a UE can select from (i.e. for contention based RA). The minimum cannot be zero.
4 (0), 8 (1), 12 (2), 16 (3), 20 (4), 24 (5), 28 (6), 32 (7), 36 (8), 40 (9), 44 (10), 48 (11), 52 (12), 56 (13), 60 (14), 64 (15)4 (0), 8 (1), 12 (2), 16 (3), 20 (4), 24 (5), 28 (6), 32 (7), 36 (8), 40 (9), 44 (10), 48 (11), 52 (12), 56 (13), 60 (14)Random Access Response Window Size parameter defines the
window size for the random access response in TTIs.2 (0), 3 (1), 4 (2), 5 (3), 6 (4), 7 (5), 8 (6), 10 (7)
Defines the Modulation and Coding Scheme (MCS) to be used for the small size random access message 3 in case of UL or DL data arrival.
Defines the data volume to be used for small size Random Access message 3 in case of UL or DL data arrival.
56 bits (0), 144 bits (1), 208 bits (2), 256 bits (3)
Defines the random challenge value.This parameter is sent in the RRC CSFBParametersResponseCDMA2000 messages during CDMA2000 1xRTT pre-registration procedure; and it is also sent in the RRC HandoverFromEUTRAPreparationRequest The parameter determines the multiplier for non-GBR (non-Guaranteed Bit Rate) radio bearers AMBR (Aggregated Maximum Bit Rate) in order to consider overhead caused by PDCP and RLC layers.
Margin factor for the comparison of the measured AMBR and the UE AMBR in uplink.
0 (false), 1 (true)
Enabling/disabling of rate capping in uplink. 0 (false), 1 (true)
0 (false), 1 (true)
1...100 PRB, step 1 PRB
Not defined
1...100 PRB, step 1 PRB
1...100 PRB, step 1 PRB
0 (false), 1 (true)
Determines whether RI reporting is enabled (true) or not (false). 0 (false), 1 (true)
1 (0), 2 (1)
-1...0, step 1
0...837, step 1
The parameter switches the rate capping functionality on/off in downlink direction. Rate capping functionality in downlink restricts non-GBR (non-Guaranteed Bit Rate) radio bearers bitrate to AMBR (Aggregated Maximum Bit Rate).
The parameter switches Restricted RB Assignment functionality on/off in the downlink direction. When the functionality is enabled, the UE-specific PRB assignment is restricted to a limit defined in the redBwMaxRbDl parameter.
This parameter defines the maximum UE-specific PRB assingment per TTI in downlink. Note that this value will be rounded up in the RRM algorithm to fit the system bandwidth dependent RGB granularity.
Defines the maximum and minimum number of PRBs which may be assigned to a UE scheduled in UL when restricted PRB assignment in uplink is enabled.
Defines the maximum number of PRBs which may be assigned to a UE scheduled in UL when restricted PRB assignment in uplink is enabled.Note that the actual amount of PRBs in UL allocation must be of the form 2^i*3^j*5^k where i, j and k are non-negative integers, so effectively the value will be rounded down to the next value complying with the rule.
Defines the minimum number of PRBs which may be assigned to a UE scheduled in UL when restricted PRB assignment in uplink is enabled. However, a lower number of PRBs is allowed if the transport block size with this number of PRBs and the MCS selected by AMC would exceed the UE capabilities. Enabling/disabling the restricted PRB assignment functionality in uplink.
Multiplier M for defining periodic RI feedback reporting period. It defines the multiplier for the cqiPerNp which results in the periodicity for RI periodic reports. RI periodicity = cqiPerNp * riPerM. When riPerM is equal to 0 (M=1) the parameter riPerOffset must be set to -1 (CQI and Ri are adjiacent) while The parameter defines the offset for periodic Rank Indicator reporting instance. The offset tells the time shift for the periodic CQI/PMI reporting instance. The range of the offset depends on the periodicity (cqiPerNp) of periodic CQI/PMI reporting.
The premable generation is started from the Root Sequence which is pointed by the logical root sequence number. 64 preambles can be transmitted in the PRACH frame. If one root is not enough to generate all the 64 preambles, then the consecutive number is selected until the full set is generated.
Not defined
0...15 dB, step 0.5 dB
-20...-3 dB, step 0.5 dB
-20...-3 dB, step 0.5 dB
Structure containing the RSRQ parameters for redirection. Not defined
0...15 dB, step 0.5 dB
-20...-3 dB, step 0.5 dB
0...1, step 1
Structure containing the RSRQ parameters for mobility triggers
It is recommended that parameters of parent structure "RSRQ redirection parameters" are also set.
For the RSRP based A1 event of serving cell for stopping of Inter-RAT (InterFreq) Measurements the UE performs periodical reporting with this indicated interval
The UE is configured to report this A1 event in an infinite way when this parameter is set, otherwise A1 event will be only reported once.
120ms (0), 240ms (1), 480ms (2), 640ms (3), 1024ms (4), 2048ms (5), 5120ms (6), 10240ms (7), 1min (8), 6min (9), 12min Time to trigger for A2-RSRQ.
Duration for which the event A2-RSRQ must be valid, such that mobility measurements with measurement gaps are activated.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Related Hysteresis of Threshold for RSRQ of serving cell for
mobility measurements activation.Parameter is used within the entry and leave condition of the A2-RSRQ triggered reporting condition. The dB values are mapped to 3GPP IE values according to TS 36.331: IE value = value [dB] * 2Threshold for RSRQ of serving cell. If RSRQ of serving value < threshold2MobRsrq then mobility measurements with measurement gaps are activated.The dB values are mapped to 3GPP IE values according to TS 36.133:Threshold for RSRQ of serving cell for stopping of Inter-RAT (Inter-Freq) measurements.The RSRP based A1 event reports also the RSRQ value which is compared with this threshold in eNB.When RSRP of serving cell becomes better than threshold2a the UE sends the A1 event. If the reported RSRQ of that A1 event of serving cell is also better than this configured threshold2aRsrq in eNB then InterFreq and InterRAT
Time to trigger for A2-RSRQ.Duration for which the event A2-RSRQ must be valid, such that redirect is raised.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Related Hysteresis of Threshold for RSRQ of serving cell for
redirection trigger.Parameter is used within the entry and leave condition of the A2-RSRQ triggered reporting condition.The IE value is multiplied by 2.Threshold for RSRQ of intra-frequency serving cell. If RSRQ of serving value < Th4Rsrq then re-direct is triggered.
The dB values are mapped to 3GPP IE values according to TS 36.133:This parameter indicates whether 1x cell Identifier shall be used by this cell to build IE “CDMA2000 1xRTT Pilot List” when sending UPLINK S1 CDMA2000 TUNNELING message to the MME during e1xCSFB preparation procedure.Value 0 means "000": A Cell Identifier field is not included for this pilot. The pilot is an actual 1x pilot.Defines the 1xCSFB type which shall be used in the cell. If set to forbidden, 1xCSFB is not allowed; if set to R81xCsfbEnforced, R8 1xCSFB with redirection shall be enforced; if set to R9e1xCsfb, R9 enhanced 1x Circuit Switched Fallback (e1xCSFB) will be attempted.
forbidden (1), R81xCsfbEnforced (2), R9e1xCsfb (3)
Not defined
0...4095, step 1
0...65535, step 1
0...15, step 1
0...255, step 1
Not defined
0...62 dB, step 2 dB
0...31 dB, step 1 dB
0...62 dB, step 2 dB
Not defined
0...62 dB, step 2 dB
0...31 dB, step 1 dB
The parameter defines the CDMA2000 Reference Cell ID used by this cell when sending the UE CDMA2000 1x Radio Transmission Technology (1xRTT) registration information to the MME.
Defines the cell ID used by this cell to build the reference cell ID when sending the UE CDMA2000 1x Radio Transmission Technology (1xRTT) registration information to the MME.
Defines the Market ID used by this cell to build the reference cell ID when sending the UE CDMA2000 1x Radio Transmission Technology (1xRTT) registration information to the MME.
Defines the sector ID used by this cell to build the reference cell ID when sending the UE CDMA2000 1x Radio Transmission Technology (1xRTT) registration information to the MME.
Defines the switch number used by this cell to build the reference cell ID when sending the UE CDMA2000 1x Radio Transmission Technology (1xRTT) registration information to the MME.
Defines the thresholds for intra-frequency measurements.Not recognized by UEs < Rel9.The UE can omit measurements of intra-frequency neighbor cells if the serving cell is above a certain threshold.
Power thresholdNot recognized by UEs < Rel9
Quality thresholdNot recognized by UEs < Rel9
The Sintrasearch parameter defines the threshold (in dB) for intra-frequency measurements. The UE can omit measurements of intra-frequency neighbor cells if the serving cell is above a certain threshold.
Defines the thresholds for inter-frequency and inter-RAT measurements.Not recognized by UEs < Rel9
Power thresholdNot recognized by UEs < Rel9
Quality tresholdNot recognized by UEs < Rel9
0...62 dB, step 2 dB
Scheduling information for mandatory SIB 2 Not defined
1...4, step 1
SIB2 (0)
Scheduling information for mandatory SIB 3 Not defined
1...4, step 1
SIB3 (1)
Not defined
The sNonintrsearch parameter defines the threshold (in dB) for inter-RAT and inter-frequency measurements.
Defines the common System Information scheduling window.The parameter SI Window Length defines the common System Information scheduling window for all SIs.
1ms (0), 2ms (1), 5ms (2), 10ms (3), 15ms (4), 20ms (5), 40ms (6)
Indicates the periodicity of the SI-2 message.The parameter System Information 2 Periodicity indicates the repetition period of the SI-2 message.
80ms (0), 160ms (1), 320ms (2), 640ms (3), 1280ms (4), 2560ms (5), 5120ms (6)
Indicates the repetition of the SI-2 message within the SI window.
Indicates which System Information Block is contained in the SI-2 message.The parameter System Information 2 Mapping Information indicates which System Information Blocks is contained in the SI-2 message.
Indicates the repetition period of the SI-3 message.The parameter System Information 3 Periodicity indicates the repetition period of the SI-3 message.
80ms (0), 160ms (1), 320ms (2), 640ms (3), 1280ms (4), 2560ms (5), 5120ms (6)
Indicates the repetition of the SI-3 message within the SI window.The parameter System Information 3 Repetition indicates the repetition of the SI-3 message within the SI window.
Indicates which System Information Block is contained in the SI-3 message.The parameter System Information 3 Mapping Information indicates which System Information Block is contained in the SI-3 message.List of scheduled SI-Messages containing optional SIBsList of SI-Messages containing optional SIBs (SIB4 ... SIB12). This list is broadcasted in SIB1.
Periodicity of this SI-Message. For SI-message containing SIB10/11/12 (warning notifications) a small value, for example 80ms should be used.This SI-Message is broadcasted with the administered periodicity.
80ms (0), 160ms (1), 320ms (2), 640ms (3), 1280ms (4), 2560ms (5), 5120ms (6)
1...4, step 1
Not defined
1...16, step 1
1...16, step 1
1...1000, step 1
1...100, step 1
1...8, step 1
Number of SI-Message RepetitionsThis SI-Message should be broadcasted "Repetition" times in each of its related SI-Message broadcast windows. The repetitions can be used by UE for enhanced decoding in case of bad radio conditions. If the SI-Message contains a warning Indicates which SIB is contained in the SI-MessageThis SIB Information Element is contained in the SI-Message scheduled in the System Information Scheduling List
SIB4 (2), SIB5 (3), SIB6 (4), SIB7 (5), SIB8 (6), SIB10 (7), SIB11 (8), SIB12 (9)
Parameters to determine mobility state and related scaling parameters.
The parameter defines the number of cell changes to enter the high mobility state. For the idle mode, it corresponds to NCR_H in TS 36.304.
The parameter defines the number of cell changes to enter the medium mobility state. For idle mode, it corresponds to NCR_M in TS 36.304.
The parameter defines an additional hysteresis value to be applied in the high mobility state to the cell reselection procedure hysteresis value (q-Hyst).Value db-6 corresponds to -6dB, db-4 corresponds to -4dB and so on.
-6 dB (0), -4 dB (1), -2 dB (2), 0 dB (3)
The parameter defines an additional hysteresis value to be applied in the medium mobility state to the cell reselection procedure hysteresis value (q-Hyst).Value db-6 corresponds to -6dB, db-4 corresponds to -4dB and so on.
-6 dB (0), -4 dB (1), -2 dB (2), 0 dB (3)
Timer TCRmax defines the duration for evaluating the criteria to enter mobility states. For idle mode, it corresponds to TCRmax in TS 36.304.
30s (0), 60s (1), 120s (2), 180s (3), 240s (4)
Timer TCRmaxHyst defines the additional duration for evaluating the criteria to enter normal mobility state. For idle mode, it corresponds to TCRmaxHyst in TS 36.304.
30s (0), 60s (1), 120s (2), 180s (3), 240s (4)
Downlink scheduling weight for Signalling Radio Bearer 1 and 2 for the uplink scheduler in MAC.
Uplink scheduling weight for Signalling Radio Bearer 1 and 2 for the uplink scheduler in MAC.
Parameter to define the SRS configuration.Each option defines the values of a set of 3GPP parameters (Csrs, Bsrs) dedicated to SRS. See Tables 5.5.3.2-x in TS.36.21l..Operator choses a given configuration number for a cell and the system depending on system BW and configuration value define the correct sounding setting.
0...15, step 1
1...10, step 1
SingleTx (0), TxDiv (1)
Timer T311 supervises the RRC connection re-establishment.
UE specific power offset to be used for Sounding Reference Signal transmission power calculation in UE uplink power control equation (P3).
Note: The actual power offset depends on value of deltaTfEnabled.Factor with which the DRX Inactivity Timer of the DRX profile as applied for a UE is multiplied in order to determine how long to keep a UE UL synchronized following last transmission of new data.
The parameter determines whether Primary and Secondary Synchronization Signals (PSS, SSS) are transmitted into a cell via one antenna port (SingleTx) or via all antenna ports using TX diversity with Precoding Vector Switching (PVS). In case of 2 or 4 antenna port configuration is done in a flexible way Timer T300 supervises the RRC connection establishment procedure. Start: Transmission of RRCConnectionRequestStop: Reception of RRCConnectionSetup or RRCConnectionReject message, cell re-selection and upon abortion of connection establishment by upper layers
100ms (0), 200ms (1), 300ms (2), 400ms (3), 600ms (4), 1000ms (5), 1500ms (6), 2000ms (7)
Timer T301 supervises the RRC connection re-establishment procedure. Start: Transmission of RRCConnectionReestabilshmentRequestStop: Reception of RRCConnectionReestablishment or RRCConnectionReestablishmentReject message as well as when the selected cell becomes unsuitable
100ms (0), 200ms (1), 300ms (2), 400ms (3), 600ms (4), 1000ms (5), 1500ms (6), 2000ms (7)
eNB sends this parameter to the UE in the message RRC CONNECTION REJECT.The UE will consider access to the cell as barred for the time specified by t302.
1000...16000 ms, step 1000 ms
This timer value is used eNodeB internally to estimate the time the UE may spend to access the target WCDMA system after receiving RRC:MOBILITY FROM EUTRAN COMMAND before starting RRC Re-Establishment. It is used eNodeB internally to calculate the supervision timer for the Handover Execution
100ms (0), 200ms (1), 500ms (2), 1000ms (3), 2000ms (4), 4000ms (5), 8000ms (6)
This timer value is used eNodeB internally to estimate the time the UE may spend to access the target GSM system after receiving RRC:MOBILITY FROM EUTRAN COMMAND before starting RRC Re-Establishment. It is used eNodeB internally to calculate the supervision timer for the Handover Execution
100ms (1), 200ms (2), 500ms (3), 1000ms (4), 2000ms (5), 4000ms (6), 8000ms (7)
Timer T304 supervises the successful completion of a handover or cell change.
50ms (0), 100ms (1), 150ms (2), 200ms (3), 500ms (4), 1000ms (5), 2000ms (6)
3GPP defined Timer T304 (used for RRC Re-Establishment) for the case of eNACC to GSMThis timer value is passed to the UE in an RRC: MobilityFromEUTRANCommand message and is used by the UE to identify CCO Failure
100ms (0), 200ms (1), 500ms (2), 1000ms (3), 2000ms (4), 4000ms (5), 8000ms (6)
Timer T310 supervises the recovery from physical layer problems.
0ms (0), 50ms (1), 100ms (2), 200ms (3), 500ms (4), 1000ms (5), 2000ms (6)
1000ms (0), 3000ms (1), 5000ms (2), 10000ms (3), 15000ms (4), 20000ms (5), 30000ms (6)
1...1800 s, step 1 s
0...10000 ms, step 100 ms
UE configuration for sending periodic power headroom reports.
0...7 s, step 1 s
0...5 us, step 0.01 us
T320 defines the validity time of dedicated priorities defined in IdleModeMobilityControlInfo.
5min (5), 10min (10), 20min (20), 30min (30), 60min (60), 120min (120), 180min (180)
tExtendedWait suppresses the reselection of a cell for a while.eNB sends this parameter to the UE in the message RRC CONNECTION REJECT and RRC CONNECTION RELEASE, and only in case of Delay Tolerant access request. The UE will consider access to the cell as barred for the time specified by A RRC connection setup request which is correlated to (i.e. matches by s-TMSI) a S1 paging with priority will be prioritized ("emergency callback"). The timer determines the maximum time between the S1 paging and its correlated RRC connection setup request.Time period of the periodic Buffer Status Report for the reporting of the UE transmission buffer utilization.
5ms (0), 10ms (1), 16ms (2), 20ms (3), 32ms (4), 40ms (5), 64ms (6), 80ms (7), 128ms (8), 160ms (9), 320ms (10), 640ms (11), 10sf (0), 20sf (1), 50sf (2), 100sf (3), 200sf (4), 500sf (5), 1000sf (6), infinity (7)
Minimum intermediate time between two consecutive Power Headroom Reports.
0sf (0), 10sf (1), 20sf (2), 50sf (3), 100sf (4), 200sf (5), 500sf (6), 1000sf (7)
Time when the regular BSRs are repeated when the UE has data available for transmission and no corresponding UL grant is received so far.
320 ms (0), 640 ms (1), 1280 ms (2), 2560 ms (3), 5120 ms (4), 10240 ms (5)
The Treselection parameter defines the cell reselection timer value. It allows averaging of the target cell quality before cell reselection is performed.
This timer is started when an UE enters a cell by handover or RRC Re-Establishment.
The timer controls how long the context needed to send an X2AP: HANDOVER REPORT is stored in the new cell after handover.
100...20000 ms, step 100 ms
Determines the maximum allowed Time Alignment offset. If the value is exceeded, TA command is sent to the UE to adjust UL timing.
Determines the number of subframes after which a UE assumes it is out-of-sync in UL if no Time Alignment command was received.
500 (0), 750 (1), 1280 (2), 1920 (3), 2560 (4), 5120 (5), 10240 (6)
The parameter defines lead with respect to the taTimer expiration time for starting to send the periodic timing advance command.
0...2560 subframes, step 1 subframes
0...65535, step 1
0...31 dB, step 1 dB
0...62 dB, step 2 dB
-140...-43 dBm, step 1 dBm
-140...-43 dBm, step 1 dBm
-140...-43 dBm, step 1 dBm
-140...-43 dBm, step 1 dBm
-140...-43 dBm, step 1 dBm
-140...-43 dBm, step 1 dBm
-140...-43 dBm, step 1 dBm
-140...-43 dBm, step 1 dBm
-140...-43 dBm, step 1 dBm
A code that commonly identifies the tracking area for all PLMNs listed for this cell.
This specifies the Squal threshold used by the UE on the serving cell when reselecting towards a lower priority RAT/ frequency.Not recognized by UEs < Rel9
Specifies the threshold for the serving frequency used in reselection evaluation towards lower priority EUTRAN frequency or RAT.
Threshold Th1 for RSRPIf RSRP of serving cell is greater than Th1, only the serving cell is measured.
The dBm value is mapped to the 3GPP IE value according to TS 36.133:Threshold for RSRP of serving cell for start of GERAN MeasurementsThreshold for RSRP of serving cell. If the value is below threshold2GERAN (event A2) , GERAN measurements are started.Threshold for RSRP of serving cell for start of CDMA2000-eHRPD measurements
Threshold for RSRP of serving cell. If value below threshold2Hrpd (event A2) then CDMA2000-eHRPD measurements are started.Threshold for RSRP of serving cell. If the value is below Th2_InterFreq, inter frequency measurements are started.
The dBm value is mapped to the 3GPP IE value according to TS 36.133:Threshold for RSRP of serving cell for start of WCDMA MeasurementsThreshold for RSRP of serving cell. If the value is below threshold2Wcdma (event A2) , WCDMA measurements are started.Threshold for RSRP of serving cell for stopping of Inter-RAT (InterFreq) MeasurementsThreshold for RSRP of serving cell. If Inter-RAT (InterFreq) measurements are active and value exceeds Th2a (event A1) then Inter-RAT measurements are stopped. Th2_XXX <= Th2a for XXX= InterFreq, WCDMA, GSM, CDMA2000-HRPDThreshold for RSRP of serving cell. If RSRP of serving cell is lower than threshold3 and RSRP of neighbor cell is greater than threshold3a, a handover is triggered.
The dBm value is mapped to the 3GPP IE value according to TS 36.133:Threshold for RSRP of intra-frequency neighbor cell. If RSRP of serving cell is lower than threshold3 and RSRP of neighbor cell is greater than threshold3a, a handover is triggered.
The dBm value is mapped to the 3GPP IE value according to TS 36.133:Threshold for RSRP of intra-frequency neighbor cell. If RSRP of serving value < Th4 then re-direct is triggered.
The dBm value is mapped to the 3GPP IE value according to TS 36.133:
BLER target value for link adaption while in TTI Bundling mode 5...25 %, step 0.5 %
8...50 %, step 1 %
-10...10 dB, step 0.1 dB
MRC (0), IRC (1)
Defines cyclic shift of uplink reference signals. 0...7, step 1
1...50 %, step 1 %
0 (false), 1 (true)
10...500 tb, step 10 tb
1...50, step 1
The timeToTrigger in ReportConfigEUTRA and in ReportConfigInterRAT are multiplied with the scaling factor applicable for the UE's speed state, that is, if the UE is in the high mobility state as defined in TS 36.304 .
0.25 (0), 0.5 (1), 0.75 (2), 1.0 (3)
The timeToTrigger in ReportConfigEUTRA and in ReportConfigInterRAT are multiplied with the scaling factor applicable for the UE's speed state, that is, if the UE is in the medium mobility state as defined in TS 36.304.
0.25 (0), 0.5 (1), 0.75 (2), 1.0 (3)
Controls the BLER threshold for switching UEs from non-bundling mode into TTI-Bundling mode
SINR threshold for switching UEs from TTI-Bundling mode into non-TTI-bundling mode
Uplink channel bandwidth defines the UL bandwidth for the eNB transmission in a cell, and also defines the number of available Physical Resource Blocks.
The uplink channel bandwidth mapping to number of Physical Resource Blocks is:
1.4 MHz (14), 3 MHz (30), 5 MHz (50), 10 MHz (100), 15 MHz (150), 20 MHz (200)
Identifies the uplink combination mode, possibilities are MRC and IRC.
2-way or 4-way RX diversity will be automatically selected by eNB dependent on the number of RX antenna lines which are configured in LCELL resourceList.
Defines target Block Error Ratio for uplink Adaptive Modulation and Coding.
O&M switch for enabling/disabling the counting of all Transport Blocks instead of the 1st transmission Transport Blocks for defining uplink Adaptive Modulation and Coding inner loop factor (UEs in non-TTI bundling mode), BLER measurements (UEs in TTI bundling mode).The parameter defines the period in sent Transport Blocks (TBs) when uplink Adaptive Modulation and Coding inner loop functionalities should be executed. Depending on the parameter ulAmcEnableAllTbs, all TBs or 1st transmission TBs have been calculated for the period. MCS increase/decrease The parameter defines the period in MCS increase/decrease events when uplink Adaptive Transmission Bandwidth (ATB) functionality should be performed. MCS change events are calculated and UL ATB functionality is executed every time the event counter reaches the value defined in the parameter.
Configures interference-aware uplink power control Not defined
-110...-70 dBm, step 1 dBm
0.5...1.4, step 0.1
0...5, step 0.2
6...80 TTI, step 1 TTI
Uplink power control configuration for PUCCH component Not defined
-127...0 dBm, step 1 dBm
-47...80 dB, step 1 dB
-127...0 dBm, step 1 dBm
Used as a fractional path loss compensation factor: alpha. It controls received SNR variance (fairness) for user data and sounding reference symbol.Alpha can't control the fractional pathloss compensation for the sounding in the case PUSCH masking is activated (actPuschMask equal to 'true') as SRS is disabled in this case.
alpha 0 (0), alpha 0.4 (1), alpha 0.5 (2), alpha 0.6 (3), alpha 0.7 (4), alpha 0.8 (5), alpha 0.9 (6), alpha 1 (7)
P0 setting that is broadcast in SIB2 if interference-aware UL-PC is activated.ulpcAlpha must be set to "alpha 1" for interference-aware UL-PC.
Controls Target SINR in interference-aware UL-PC: provides a tilt in the balancing between Target SINR in cell-center and Target SINR at cell-edge. Target SINR determines the max. throughput, therefore higher values increase cell-center throughput at the cost of cell-edge throughput, and vice versa.Minimum quality measure for interference-aware UL-PC. Target SINR for UEs in poor conditions cannot go below a limit defined by this parameter even if they generate higher UL interference.Defines a minimum quality level in linear scale that is a multiplier to a reference SINR calculated from ulpcRefPwrIAw and the UE's UL signal plus noise.Minimum number of TTIs (ms) that must pass before another UL power decision is made for a UE.
Controls Target SINR in interference-aware UL-PC: provides an equal shift of Target SINR for all UEs in the cell, regardless of their pathloss ratios.
-110...-70 dBm, step 0.5 dBm
The parameter defines the initial power for Random Access preamble transmission.
-120 dBm (0), -118 dBm (1), -116 dBm (2), -114 dBm (3), -112 dBm (4), -110 dBm (5), -108 dBm (6), -106 dBm (7), -104 dBm (8), -102 dBm (9),
Lower threshold of the power control window for the RSSI (signal level) for PUCCH component
Lower threshold of the power control window for the SINR (signal quality) for PUCCH component
Upper threshold of the power control window for the RSSI (signal level) for PUCCH component.
-47...80 dB, step 1 dB
Not defined
-127...0 dBm, step 1 dBm
-47...80 dB, step 1 dB
-127...0 dBm, step 1 dBm
-47...80 dB, step 1 dB
-6...8 dB, step 2 dB
10...2000 ms, step 10 ms
1...4, step 1
1...100, step 1
32...1544, step 8
Upper threshold of the power control window for the SINR (signal quality) for PUCCH component.
Uplink power control configuration for PUSCH / SRS component
Lower threshold of the power control window for the RSSI (signal level) for PUSCH / SRS component
Lower threshold of the power control window for the SINR (signal quality) for PUSCH / SRS component
Upper threshold of the power control window for the RSSI (signal level) for PUSCH / SRS component.
Upper threshold of the power control window for the SINR (signal quality) for PUSCH/SRS component.
TPC command indicated in the Random Access response related to Random Access message 3 or 1st scheduled uplink transmission.
Time interval for sending averaged RSSI and SINR values to the decision matrix to determine power corrections in closed loop uplink power control.
Scheduler Type for FD schedulerDefines the scheduling method which shall be applied in frequency domain for the scheduler in UL- The "RoundRobinFD" scheduler assigns the physical resources equally fair to the UEs selected by the TD scheduler until the PRBs are sufficient for the service or the physical resources of the cell are exhaust
RoundRobinFD (0), ExhaustiveFD (1), MixedFD (2)
Maximum number of aggregated VoIP packets in UL (with Inter Arrival Time of 20 ms)Defines the maximum number of VoIP packets which may be aggregated for UL transmission based on a IAT of 20 ms. If the IAT of the VoIP packets is 10 ms the maximum packet aggregation is {1,3,5,7}.Defines the minimum PRB allocation for UEs which are power limited.This is used for the UEs for which the maximum number of PRBs due to power limitation is limited to low values (e.g. <= 5).Defines the minimum UL TBS (segment size).The lower limit of the range is defined equal to the minimum transport block size (TBS) in the Table 7.1.7.2.1-1 in 3GPP TS 36.213.
Not defined
1...100, step 1
Start PRB of the PUSCH mask in the UL spectrum. 0...99, step 1
Not defined
deltaF1 (1), deltaF2 (2)
deltaF0 (0)
0...10 dB, step 1 dB
1...80 characters
EARFCN value of the home eNB carrier frequency 0...65535, step 1
Uniquely identifies a LNHENB instance. 0...15, step 1
Table which defines the location of the PUSCH mask in the UL spectrum.
Length of the PUSCH mask in the UL spectrum. The length is defined by number of PRBs.
Defines the scheduling method which shall be applied in the cell for the UL branch.Selects the method for the scheduling of the UEs in UL. Three methods can be chosen - the channel unaware UL scheduler, the interference aware UL scheduler and the channel aware UL scheduler.
channel unaware (0), channel aware (1), interference aware (2)
Additional UL power control parameters defined in 3GPP release 10. These parameters are used only when the Cell is configured as PCell in Carrier Aggregation.
The parameter defines the transport format dependent offset in power control for PUCCH format 1bCS.This parameter is used only when the Cell is configured as PCell in Carrier Aggregation.
The parameter defines the transport format dependent offset in power control for PUCCH format 3.This parameter is used only when the Cell is configured as PCell in Carrier Aggregation.
This parameter defines the maximum value that a CIO can assume, when changed autonomously by the eNB during for example the intra-frequency load balancing function.
Unique sector electronics ID provided by operator.This parameter allows the operator to assign a unique sector electronics ID to a cell period.
Cell Individual Offset (CIO) of home eNB cells for insertion into the CIO Cell List of EUTRA Serving or Neighbor Carrier Measurement ObjectCIO values for macro eNodeB(s) always have higher priority than those for home eNBs as far as the PCI of the macro eNB is not in a home eNB PCI range.
-24dB (0), -22dB (1), -20dB (2), -18dB (3), -16dB (4), -14dB (5), -12dB (6), -10dB (7), -8dB (8), -6dB (9), -5dB (10), -4dB (11), -3dB (12), -
0...503, step 1
0...503, step 1
0...1023, step 1
-140...-43 dBm, step 1 dBm
-110...-47 dBm, step 1 dBm
dcs1800 (0), pcs1900 (1)
0...15 dB, step 0.5 dB
0...5, step 1
-140...-43 dBm, step 1 dBm
First pci in the range of physical cell ids which are reserved for home eNBs.
Last pci in the range of physical cell ids which are reserved for home eNBs.
In case of a single PCI the same value as pciFirst needs to be configured.Explicit List of ARFCNsThe ARFCN values in the set (including the startingARFCN) are explicitly listed one by one.
Threshold for RSRP of serving cell. If RSRP of serving value < b2Threshold1Utra and RSCP or EcN of WCDMA neighbour cell > b2Threshold2Utra<EcNo, Rscp>then handover is triggered (B2 event)Receive level threshold for serving cell in B2 event. Used in measurement eventThreshold for RSSI of GERAN neighbour cell. If RSRP of serving value < b2Threshold1 and RSSI of GERAN neighbour cell > b2Threshold2GERANthen handover is triggered (B2 event).
Duration for which the RSRP based event B2 must be validTime for which the specific criteria for the RSRP based measurement event B2 must be met in order to trigger a measurement report.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Indicates how to interpret the ARFCN of the BCCH carrier
The IE BandIndicatorGERAN indicates how to interpret an associated GERAN carrier ARFCN, see TS 45.005 [20]. More specifically, the IE indicates the GERAN frequency band in case the ARFCN value can concern either a DCS 1800 or a Related Hysteresis of Handover Margin for HO to GERANParameter is used within the entry and leaves condition of the B2 triggered reporting condition. The IE value is multiplied by 2.
This parameter is the naming Attribut of the MOC LNHOG.Instance Identifier of a GERAN eNACC HO Target
Network (PLMN) Colour CodeThis parameter restricts the permitted Network Colour Code (NCC) for connected mode mobility.Using default settings, no network is permitted.
Bit 0: NCC 7, Bit 1: NCC 6, Bit 2: NCC 5, Bit 3: NCC 4, Bit 4: NCC 3, Bit 5: NCC 2, Bit 6: NCC 1, Bit 7: NCC 0
The RSRP based B2 event triggers the UE to perform periodical reporting with the indicated intervalThe ReportInterval indicates the interval between periodical reports. The ReportInterval is applicable if the UE performs periodical reporting for B2 RSRP
120ms (0), 240ms (1), 480ms (2), 640ms (3), 1024ms (4), 2048ms (5), 5120ms (6), 10240ms (7), 1min (8), 6min (9), 12min Threshold for RSRP of serving cell. If RSRP of serving value <
b2Threshold1Hrpd and pilotStrength of eHRPD neighbour cell > b2Threshold2PstrHrpdthen handover is triggered (B2 event)
-31.5...0 dB, step 0.5 dB
Not defined
0...2047, step 1
1...255, step 1
0 (false), 1 (true)
0...15, step 1
0...15 dB, step 0.5 dB
This parameter uniquely identifies a LNHOH instance. 0...5, step 1
-15...15, step 1
CDMA2000 pilot strength, the ratio of pilot power to total power in the signal bandwidth of a CDMA2000 forward channel. See 3GPP2 C.S0087-A (chp. 5.4.6.2.1) for CDMA2000-HRPD The pilotStrength of eHRPD maps onto the 3GPP parameter b2-Threshold2CDMA2000 with 0 as the strongest and with 63 (-31.5 dB) as the weakest pilot strength.Time during which specific criteria for the RSRP&Pstr based measurement event B2 needs to be met in order to trigger a measurement report.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Structure including bandclass and arfcn for CDMA2000 eHRPD
carrier frequencyStructure hrpdCarrierFreq is used to provide the CDMA2000 carrier information
Absolute Radio Frequency Number of CDMA2000 eHRPD carrier frequencyThe CDMA2000 ARFCN used to indicate the CDMA2000 carrier frequency within a CDMA2000 band, see C.S0002-A.
Band Class of CDMA2000 eHRPD carrier frequencyThe CDMA2000 band class is used to define the CDMA2000 band in which the CDMA2000 carrier frequency can be found, as defined in C.S0057-E [table 1.5-1].Note: Bandclasses 18, 19, 20 and 21 are not supported by this release.
bc0 (0), bc1 (1), bc2 (2), bc3 (3), bc4 (4), bc5 (5), bc6 (6), bc7 (7), bc8 (8), bc9 (9), bc10 (10), bc11 (11), bc12 (12), bc13 (13), bc14 (14), Defines the relative weight of this eHRPD neighbor frequency
in the search algorithm used for selecting the carrier used for measurement configuration during eHRPD handover procedures. A higher value indicates higher priority.
Defines whether the eNodeB and MME support preregistration and handover procedures to an evolved High Rate Packet Data (eHRPD) RAN. This parameter is used in Measurement Configuration of eHRPD neighbors in RRC CONNECTED mode.Provides the search window size to be used by the UE for the neighbouring pilot.The parameter is mandatory.Provides the search window size to be used by the UE for the neighbouring pilot, see C.S0005-A.Related hysteresis of handover margin for HO to CDMA2000-eHRPDParameter is used within the entry and leave condition of the B2 triggered reporting condition. The IE value is multiplied by 2.
Offset value applicable to the eHRPD carrier frequency.The IE Q-OffsetRangeInterRAT is used to indicate a frequency specific offset to be applied when evaluating triggering conditions for measurement reporting.
The RSRP&Pstr based B2 event triggers the UE to perform periodical reporting with the indicated interval
The ReportInterval indicates the interval between periodical reports. The ReportInterval is applicable if the UE performs periodical reporting for B2 RSRP&Pstr based event.
120ms (0), 240ms (1), 480ms (2), 640ms (3), 1024ms (4), 2048ms (5), 5120ms (6), 10240ms (7), 1min (8), 6min (9), 12min
-15...15 dB, step 0.5 dB
-15...15 dB, step 0.5 dB
0...65535, step 1
0...15 dB, step 0.5 dB
0...15 dB, step 0.5 dB
0...15 dB, step 0.5 dB
Margin for RSRP for better cell HO. Used in measurement event type A3 where the event is triggered when the inter frequency neighbour cell becomes A3 offset better than the serving cell.
Margin for RSRQ for better cell HO. Used in measurement event type A3 where the event is triggered when the inter frequency neighbour cell becomes A3 offset better than the serving cell.
Defines the interval with which measurement reports are repeatedly sent as long as the specific criteria for the inter frequency measurement event A3 with quantity RSRP is met. Value definitions as stated in 3GPP TS36.331: value MS120 corresponds to 120 ms, MS240 to 240 ms and so on, while
120ms (0), 240ms (1), 480ms (2), 640ms (3), 1024ms (4), 2048ms (5), 5120ms (6), 10240ms (7), 1min (8), 6min (9), 12min Defines the interval with which measurement reports are
repeatedly sent as long as the specific criteria for the inter frequency measurement event A3 with quantity RSRQ is met. Value definitions as stated in 3GPP TS36.331: value MS120 corresponds to 120 ms, MS240 to 240 ms and so on, while
120ms (0), 240ms (1), 480ms (2), 640ms (3), 1024ms (4), 2048ms (5), 5120ms (6), 10240ms (7), 1min (8), 6min (9), 12min Time for which the specific criteria for the inter frequency
measurement event A3 with quantity RSRP must be met in order to trigger a measurement report. Value definitions as stated in 3GPP TS36.331: value MS0 corresponds to 0 ms, MS40 to 40 ms and so on.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Time for which the specific criteria for the inter frequency
measurement event A3 with quantity RSRQ must be met in order to trigger a measurement report. Value definitions as stated in 3GPP TS36.331: value MS0 corresponds to 0 ms, MS40 to 40 ms and so on.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Defines the interval with which measurement reports are
repeatedly sent as long as the specific criteria for the inter frequency measurement event A5 is met. Value definitions as stated in 3GPP TS36.331: value MS120 corresponds to 120 ms, MS240 to 240 ms and so on, while value MIN1
120ms (0), 240ms (1), 480ms (2), 640ms (3), 1024ms (4), 2048ms (5), 5120ms (6), 10240ms (7), 1min (8), 6min (9), 12min Time for which the specific criteria for the inter frequency
measurement event A5 must be met in order to trigger a measurement report. Value definitions as stated in 3GPP TS36.331: value MS0 corresponds to 0 ms, MS40 to 40 ms and so on.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Identifies E-UTRA carrier frequency for which this configuration
is valid.Mid-(-center)frequency of serving cell, used in EUTRA Measurement Configuration
Related Hysteresis of Handover Margin for Better Cell Handover of Inter-FrequencyParameter is used within the entry and leave condition of the A3 triggered reporting condition. The IE value is multiplied by 2.
Related Hysteresis of Handover Margin for Quality Handover of Inter-FrequencyParameter is used within the entry and leave condition of the A3 triggered reporting condition. The IE value is multiplied by 2.
Related Hysteresis of Handover Margin for Coverage Handover of Inter-FrequencyParameter is used within the entry and leaves condition of the A5 triggered reporting condition. The IE value is multiplied by 2.
0 (false), 1 (true)
This parameter is the naming attribute of MOC LNHOIF 1...16, step 1
rsrp (0), rsrq (1), both (2)
-140...-43 dBm, step 1 dBm
-140...-43 dBm, step 1 dBm
-140...-44 dBm, step 1 dBm
-19.5...-3 dB, step 0.5 dB
-24...0.5 dB, step 0.5 dB
-120...-24 dBm, step 1 dBm
The IE PresenceAntennaPort1 is used to indicate whether all the neighbouring cells use Antenna Port 1. When set to TRUE, the UE may assume that at least two cell-specific antenna ports are used in all neighbouring cells.
Defines which quantity to use for Event A3 measurements towards this frequency. This parameter refers to event A3. If set to 'both', two A3 events will be configured when measuring this carrier, one per specific measurement quantity.
Measurement bandwidth common for all neighbouring cells on the frequency, used in Measurement Configuration.
mbw6 (0), mbw15 (1), mbw25 (2), mbw50 (3), mbw75 (4), mbw100 (5)
Offset value applicable to the EUTRA neighbour carrier frequencies.The IE Q-OffsetRange is used to indicate a cell or frequency specific offset to be applied when evaluating candidates for cell re-selection or when evaluating triggering conditions for measurement reporting.
-24dB (0), -22dB (1), -20dB (2), -18dB (3), -16dB (4), -14dB (5), -12dB (6), -10dB (7), -8dB (8), -6dB (9), -5dB (10), -4dB (11), -3dB (12), -Threshold for RSRP of serving cell. If RSRP of serving value <
threshold3InterFreq and RSRP of neighbour cell > threshold3aInterFreq then handover is triggered (A5 event)Receive level threshold for serving cell in A5 event. Used in measurement eventThreshold for RSRP of neighbour cell. If RSRP of serving value < threshold3InterFreq and RSRP of neighbour cell > threshold3aInterFreq then handover is triggered (A5 event)Receive level threshold for neighbour cell in A5 event. Used in measurement eventThreshold for Filtering Target Cells out of reported A4 event based on RSRP values due to Inter Frequency Load BalancingThis parameter is aimed for postprocessing (RSRP) the related A4 report and is not to be configured in any report configuration in the UE.Threshold for Filtering Target Cells out of reported A4 event based on RSRQ values due to Inter Frequency Load BalancingThis parameter is aimed for postprocessing (RSRQ) the related A4 report and is not to be configured in any report configuration in the UEThreshold for UTRA neighbor cell on the current frequency, considered to be good and reported in the measurement result of B1 event.Applicable only if measQuantityUTRA-FDD=cpich-EcN0.cpich-EcN0 corresponds to CPICH_Ec/No in TS 25.133 for FDD only, and is not applicable for TDD.Threshold for UTRA neighbor cell on the current frequency, considered to be good and reported in the measurement result of B1 event.Applicable only if measQuantityUTRA-FDD=cpich-RSCP. cpich-RSCP corresponds to CPICH_RSCP in TS 25.133 for FDD, and P-CCPCH_RSCP in TS 25.123 for TDD.Duration for which the RSRP based event B1 must be valid. For further important notice see the Additional Description.
Time for which the specific criteria for the RSRP based measurement event B1 must be met in order to trigger a measurement report.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7)
-140...-43 dBm, step 1 dBm
-24...0.5 dB, step 0.5 dB
-120...-24 dBm, step 1 dBm
0...15 dB, step 0.5 dB
0...15 dB, step 0.5 dB
0...15, step 1
1...16, step 1
-15...15 dB, step 1 dB
0...16383, step 1
0...5, step 1
Threshold for RSRP of serving cell. If RSRP of serving value < b2Threshold1Utra and RSCP or EcN of WCDMA neighbour cell > b2Threshold2Utra<EcNo, Rscp>then handover is triggered (B2 event)Receive level threshold for serving cell in B2 event. Used in measurement eventThreshold for UTRA neighbour cell on the current frequency, such that it is considered to be good and reported in the measurement result of B2 event.Applicable only if measQuantityUTRA-FDD=cpich-EcN0.cpich-EcN0 corresponds to CPICH_Ec/No in TS 25.133 for FDD.Threshold for UTRA neighbour cell on the current frequency, such that it is considered to be good and reported in the measurement result of B2 event.Applicable only if measQuantityUTRA-FDD=cpich-RSCP. cpich-RSCP corresponds to CPICH_RSCP in TS 25.133 for FDD.Duration for which the RSRP based event B2 must be valid
Time for which the specific criteria for the RSRP based measurement event B2 must be met in order to trigger a measurement report.
0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4), 128ms (5), 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), Related Hysteresis of Margin for CSFB to WCDMA
Parameter is used within the entry and leaves condition of the B2 triggered reporting condition. The IE value is multiplied by 2.
Related Hysteresis of Handover Margin for HO to WCDMAParameter is used within the entry and leave condition of the B2 triggered reporting condition. The IE value is multiplied by 2.
Naming Attribute Of MOC LNHOWInstance Identifier of an WCDMA Handover Target
Defines the maximum number of target cells per frequency for CS fallback with PS-HO. Setting this limit controls measurement object configuration and inhibits long measurement times.
Offset value applicable to the UTRA carrier frequency.The IE Q-OffsetRangeInterRAT is used to indicate a frequency specific offset to be applied when evaluating triggering conditions for measurement reporting.
The RSRP based B2 event triggers the UE to perform periodical reporting with the indicated intervalThe ReportInterval indicates the interval between periodical reports. The ReportInterval is applicable if the UE performs periodical reporting for B2 RSRP based event.
120ms (0), 240ms (1), 480ms (2), 640ms (3), 1024ms (4), 2048ms (5), 5120ms (6), 10240ms (7), 1min (8), 6min (9), 12min Identifies UTRA carrier frequency for which this configuration is
validThe IE ARFCN-ValueUTRA is used to indicate the ARFCN applicable for a downlink (Nd, FDD) or bi-directional (Nt, TDD) UTRA carrier frequencyThis parameter is the naming attribute Of MOC LNHOX.It uniquely identifies a LNHOX instance.
Not defined
0...2047, step 1
1...32, step 1
0...15, step 1
-31.5...9 dB, step 0.5 dB
Not defined
0...999, step 1
0...999, step 1
2...3, step 1
unlocked (1), locked (3)
2...45 characters
Structure including bandclass and arfcn for CDMA2000 1XRTT carrier frequencyStructure rttCarrierFreq is used to provide the CDMA2000 1xRTT carrier information
Absolute Radio Frequency Number of CDMA2000 1XRTT carrier frequencyThe CDMA2000 ARFCN used to indicate the CDMA2000 carrier frequency within a CDMA2000 band, see C.S0002-A.
Band Class of CDMA2000 1XRTT carrier frequencyThe CDMA2000 band class is used to define the CDMA2000 band in which the CDMA2000 carrier frequency can be found, as defined in C.S0057-E [table 1.5-1].Note: Bandclasses 18, 19, 20 and 21 are not supported by this release.
bc0 (0), bc1 (1), bc2 (2), bc3 (3), bc4 (4), bc5 (5), bc6 (6), bc7 (7), bc8 (8), bc9 (9), bc10 (10), bc11 (11), bc12 (12), bc13 (13), bc14 (14), Defines the maximum number of target cells per frequency for
enhanced CSFB to CDMA2000 1xRTTSetting this limit controls measurement object configuration and inhibits long measurement times.
Provides the search window size to be used by the UE for the neighbouring pilot, see C.S0005-A.
Defines the pilot strength threshold for enhanced CSFB to CDMA2000 1xRTT.In 3GPP TS36.331, pilotStrength's range is [0 .. 63] which is different from current value range of paramter "rttStrengthThresh". The reason is that : in future phase 2 e1xCsfb feature, this parameter may be re-used as The "Accumulated MME served PLMNs" list includes all PLMN IDs which are served by MME.
Mobile Country Code of PLMN ID included in served PLMNs per RAT of MME. MCC and MNC build a unique PLMN ID.
Mobile Network Code of PLMN ID included in served PLMNs per RAT of MME. MCC and MNC build a unique PLMN ID.
Determines the range of Mobile Network Code of PLMN ID included in served PLMNs per RAT of MME.
Administrative state of the LNMME S1 link.This parameter is used to lock and unlock the LNMME S1 link. Locking LNMME means closing the SCTP association between eNB and MME. All impacted UEs in RRC connected mode will be released.This parameter holds the transport network IPv4/v6 address of the Mobility Management Entity (MME) primary interface. Both IP address formats can be used.Format: IPv4 address parameter in dotted decimals or IPv6 address parameter acc. to RFC 4291.
2...45 characters
0...15, step 1
This is a human readable name of the MME. 0...150 characters
0...255, step 1
unavailable (0), available (1)
0...1, step 1
0...2047, step 1
0...511, step 1
2...45 characters
This parameter uniquely identifies a LNNEIH instance. 0...137, step 1
allowed (0), forbidden (1)
Secondary application IPv4/v6 address of the Mobility Management Entity (MME) if multihoming feature is enabled.This address field is a Read-Only field.
Format: exclusive IPv4 address parameter in dotted decimals or exclusive IPv6 address parameter acc. to RFC4291.This parameter is the naming attribute of the MOC LNMME.It uniquely identifies a LNMME instance.
This parameter indicates the relative MME capacity assigned to the MME.
The parameter provides information whether the S1 link is successfully established.
This parameter holds the identifier for the transport network in case "Transport Separation for RAN sharing" feature is supported.
The operator must take care that transportNwId of LNMME instance 0 (main MME) is identical to mainTransportNwId in IPNO.
Absolute Radio Frequency Number of CDMA2000 eHRPD carrier frequencyThe CDMA2000 ARFCN used to indicate the CDMA2000 carrier frequency within a CDMA2000 band, see C.S0002-A.
Band Class of CDMA2000 eHRPD carrier frequencyThe CDMA2000 band class is used to define the CDMA2000 band in which the CDMA2000 carrier frequency can be found, as defined in C.S0057-E [table 1.5-1].Note: Bandclasses 18, 19, 20 and 21 are not supported by this release.
bc0 (0), bc1 (1), bc2 (2), bc3 (3), bc4 (4), bc5 (5), bc6 (6), bc7 (7), bc8 (8), bc9 (9), bc10 (10), bc11 (11), bc12 (12), bc13 (13), bc14 (14), Defines the Pseudo-Random Noise (PN) offset of this
CDMA2000 HRPD neighbor cell.
This parameter contains the HRPD Sector ID used for HRPD handover preparation/execution and defined as specified in 3GPP2 C.S0024-A.It is used to populate the CDMA2000 sector ID (128 bits) using hexadecimal characters.
The parameter controls whether PS handover to the related neighbor cell is allowed.
-48...48 dB, step 1 dB
0...1048575, step 1
0...255, step 1
Not defined
0...999, step 1
0...999, step 1
This parameter determines the length of MNC. 2...3, step 1
0...388, step 1
automatic (0), manual (1)
unavailable (0), available (1)
Cell Individual Offset (CIO) of Neighbor cells for insertion into the CIO Cell List of EUTRA Serving or Neighbor Carrier Measurement Object.
All CIOs different from zero will be considered by eNB for Measurement Configuration (up to a limit of 32 CIOs per carrier frequency).
-24dB (0), -22dB (1), -20dB (2), -18dB (3), -16dB (4), -14dB (5), -12dB (6), -10dB (7), -8dB (8), -6dB (9), -5dB (10), -4dB (11), -3dB (12), -The parameter provides the delta value, which is temporarily
added to the operator configured cell individual offset (LNREL parameter cellIndOffNeighDelta) for load balancing reasons.
This parameter is the Macro eNB identifier which is part of the E-UTRAN Cell Global Identifier (ECGI) of the related neighbor cell.
This parameter is the cell identifier, which is part of the E-UTRAN Cell Global Identifier (ECGI) of the related neighbor cell.
This parameter is the primary PLMN ID, which is part of the E-UTRAN Cell Global Identifier (ECGI) of the related neighbor cell.
Mobile Country Code of the primary PLMN ID, which is part of the E-UTRAN Cell Global Identifier (ECGI) of the related neighbor cell.
Mobile Network Code of the primary PLMN ID, which is part of the E-UTRAN Cell Global Identifier (ECGI) of the related neighbor cell.
The parameter controls handover blacklisting. The instance of LNREL and the related cell relationship, defined by ECGI, identifies the specific cell to cell relation. The parameter allows HO for this neighbor relation, only S1 HO or no HO at all.The blacklisting applies in addition to blacklisting via the LNCEL parameter blacklistHoL.
allowed (0), forbidden (1), onlyS1 (2)
This parameter is the naming attribute of the MOC LNREL.It uniquely identifies a LNREL instance.It is highly recommended to use for object creation the lowest free lnRelId value within all LNREL instances subordinate to an LNCEL object. This is to avoid rejection of plan file activation due to colliding lnRelId values if an LNREL instance is The parameter coordinates the access to parameter handoverAllowed, i.e. whether handover blacklisting setting at this instance of LNREL and the related cell relationship, is only allowed to be done manually by the operator or also automatically by NetActIndicates the status of the neighbor relation.
unavailable: Indicates that the neighbor relation is not considered for HO (for example because neighbor cell information is not available).
0...65535, step 1
allowed (0), forbidden (1)
0...65535, step 1
This parameter uniquely identifies a LNRELG instance. 0...255, step 1
automatic (0), manual (1)
Not defined
0...999, step 1
0...999, step 1
Length of MNC in digits. 2...3, step 1
allowed (0), forbidden (1)
allowed (0), forbidden (1)
allowed (0), forbidden (1)
Cell Identity of GERAN neighbor cell which is part of the GERAN Cell Global Identifier (CGI) of the related neighbor cell.
The parameter controls whether Network Assisted Cell Change to the related neighbor cell is allowed.
LAC of GERAN neighbor cell which is part of the GERAN Cell Global Identifier (CGI) of the related neighbor cell.used as described in TS36.413 section 9.2.1.6
"0000 and FFFE not allowed."
The parameter coordinates the access to mobility-feature whitelist parameters (type: *Allowed), that is whether handover blacklisting setting at this instance of LNRELG and the related cell relationship, is only allowed to be done manually by the operator or also automatically by NetAct Optimizer Features. This parameter is the PLMN ID, which is part of the GERAN Cell Global Identifier (CGI) of the related neighbor cell.
Mobile Country Code of the PLMN ID, which is part of the GERAN Cell Global Identifier (CGI) of the related neighbor cell.
Mobile Network Code (MNC) of the PLMN ID, which is part of the GERAN Cell Global Identifier (CGI) of the related neighbor cell.
The parameter controls whether the related neighbor cell is a candidate for providing system information in case of UE redirection to GERAN.If system information is not configured in the related LNADJG object at least the frequency of the cell will be provided in the redirection information.The parameter controls whether SRVCC handover to the related neighbor cell is allowed.
The parameter controls whether CSFB with PS handover to the related neighbor cell is allowed.
0...255, step 1
automatic (0), manual (1)
Not defined
0...999, step 1
0...999, step 1
This parameter determines the length of MNC. 2...3, step 1
allowed (0), forbidden (1)
allowed (0), forbidden (1)
0...65535, step 1
0...65535, step 1
0...2047, step 1
This parameter uniquely identifies a LNRELW instance.It is highly recommended to use for object creation the lowest free lnRelWId value within all LNRELW instances subordinate to an LNCEL object. This is to avoid rejection of plan file activation due to colliding lnRelWId values if an LNRELW The parameter coordinates the access to mobility-feature whitelist parameters (type: *Allowed), that is whether handover blacklisting setting at this instance of LNRELW and the related cell relationship, is only allowed to be done manually by the operator or also automatically by NetAct Optimizer Features. This parameter is the primary PLMN ID, which is part of the UTRAN Cell Global Identifier (CGI) of the related neighbor cell.
Mobile Country Code of the primary PLMN ID, which is part of the UTRAN Cell Global Identifier (CGI) of the related neighbor cell.
Mobile Network Code of the primary PLMN ID, which is part of the UTRAN Cell Global Identifier (CGI) of the related neighbor cell.
The parameter controls whether PS handover to the related neighbor cell is allowed.
The parameter controls whether SRVCC handover to the related neighbor cell is allowed.
UTRAN Cell-ID which is part of the UTRAN Cell Global Identifier (CGI) of the related neighbor cell. It uniquely identifies a neighboring cell within the RNC. The UTRAN Cell Global Id is built as a 28 bit value. It consists eitherUTRAN RNC identifier which is part of the UTRAN Cell Global Identifier (CGI) of the related neighbor cell. It uniqely identifies of a neighboring UTRAN RNC within the primary PLMN.
Values in the range of 4096 .. 65535 are considered as Extended RNC-ID.Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) carrier frequency of this 1xRTT neighbor cell.The CDMA2000 ARFCN used to indicate the CDMA2000 carrier frequency within a CDMA2000 band, see C.S0002-A.
Defines the CDMA2000 1x Radio Transmission Technology (1xRTT) band class of this 1xRTT neighbor cell.The CDMA2000 band class is used to define the CDMA2000 band in which the CDMA2000 carrier frequency can be found, as defined in C.S0057-E [table 1.5-1].
bc0 (0), bc1 (1), bc2 (2), bc3 (3), bc4 (4), bc5 (5), bc6 (6), bc7 (7), bc8 (8), bc9 (9), bc10 (10), bc11 (11), bc12 (12), bc13 (13), bc14 (14),
0...4095, step 1
allowed (0), forbidden (1)
0...137, step 1
0...65535, step 1
0...15, step 1
0...255, step 1
1...2, step 1
0...1, step 1
Defines the cell number of this CDMA2000 1x Radio Transmission Technology (1xRTT) neighbor cell
Define whether the CDMA2000 1xRTT neighbor cell could be used for 1xRTT measure configuration for e1xCSFB.
This parameter is the naming atrribute of MOC LNRELX.It uniquely identifies a LNRELX instance.
Defines the market identifier of the CBSC for this CDMA2000 1xRTT neighbor cell.
Defines the Pseudo-Random Noise (PN) offset of this CDMA2000 1x Radio Transmission Technology (1xRTT) neighbor cell.
0...511 64 PN chips, step 1 64 PN chips
Defines the sector number of this CDMA2000 1x Radio Transmission Technology (1xRTT) neighbor cell.
Defines the switching number of this CDMA2000 1xRTT neighbor cell.
This parameter identifies the MO instance for transport admission control for LTE. 1 instance should be there in FTM start up.
This parameter specifies the maximum permitted aggregate guaranteed transport bit rate for all GBR Emergency connections.
0...1000000 kbit/s, step 100 kbit/s
This parameter specifies the maximum permitted aggregate guaranteed transport bit rate for all GBR Handover connections.
0...1000000 kbit/s, step 100 kbit/s
This parameter specifies the maximum permitted aggregate guaranteed transport bit rate for normal GBR connections.
0...1000000 kbit/s, step 100 kbit/s
This parameter holds the identifier of the transport network for which this LTAC instance is to be used.
1...64, step 1
1...32, step 1
0...65535, step 1
This parameter uniquely identifies a MFBIPR instance. 0...31, step 1
0 (false), 1 (true)
AISG protocol version 2...255, step 1
120...1320 mA, step 1 mA
Not defined
0...360 deg, step 1 deg
0...25.5 dBi, step 0.1 dBi
Antenna Bearing 0...359.9 deg, step 0.1 deg
Indicator of the additional E-UTRA frequency bandAn additional E-UTRA frequency band must overlap with the native E-UTRA frequency band.The native frequency band is either- the operating band which is broadcasted in SIB1 with IE freqBandIndicator orAdditional spectrum emission requirement for the additional frequency band.The UE requirements related to IE AdditionalSpectrumEmission are defined in TS 36.101 [42, table 6.2.4.1].
EARFCN value of the carrier frequency for which the MFBI profile applies.A MFBI profile defines an additional frequency band in order to serve UEs which support the physical cell frequency but indicate another, overlapping frequency band.
Defines is MHA AISG MHA or Non-AISG MHA. Selectable values is 0 (false)= Non-AISG MHA and 1 (true )= AISG MHA .
Defines a configurable alarm threshold level for the mast-head amplifier, used if the MHA Alarm Detection parameter has the value 1 (in use). Default value is depending on Flexi Filter (FF).
A list containing: operating frequency band, beamwidth and the operation gain.
The antenna beamwidth for the band. Some RET types may automatically update the beamwidth information based on the configuration data downloaded into the RET device. Some devices may also restrict overwriting the field.
The antenna operation band. Some RET types may automatically update the band information based on the configuration data downloaded into the RET device. Some devices may also restrict overwriting the field. One frequency band may be given only once.
Band I (1), Band II (2), Band III (3), Band IV (4), Band V (5), Band VI (6), Band VII (7), Band VIII (8), Band IX (9), Band X (10), Band XI The antenna gain for the band. Some RET types may
automatically update the gain information based on the configuration data downloaded into the RET device. Some devices may also restrict overwriting the field.
Antenna model number 1...15 characters
Antenna serial number 1...17 characters
1...72, step 1
Base Station ID 1...32 characters
Defines the connection type for MHA/LNA.
0...99 dB, step 0.01 dB
Installation Date 1...6 characters
Installer's ID 1...5 characters
0...99 dB, step 0.01 dB
0 (false), 1 (true)
Defines the gain of the mast-head amplifier. 0...99 dB, step 0.01 dB
Identifies the specific antenna line.
Note: If MHA is used for another BTS (RET parameter connection set to 'External') the value of antlId must be set to the value of scannedAntennaInterface, because only this antenna line related detects and controls MHA.
Internal (0), Shared (1), External (2)
Gain resolution given as the gain resolution figure expressed in dB.
The parameter for MHA telling LNA number inside one MHA. For Non AISG MHAs is used -1 (not defined).
Not Defined (-1), LNA1 (0), LNA2 (1)
Maximum supported gain given as a gain figure expressed in dB.
Determines whether alarm detection is used or not. The options are 0 (false) and 1 (true). Default values for Non-AISG MHAs and AISG MHAs in passive mode: 1 Default values for AISG and third party MHAs:0 Note: Configurable MHA alarms are allowed only for passive MHAs
This parameter defines the specific mast-head amplifier unit. 1...255, step 1
0...99 dB, step 0.01 dB
1...80 characters
3GPP protocol version 0...255, step 1
Sector ID 1...32 characters
1...80 characters
Substance version number 2...255, step 1
TMA Subunit receive frequency band
TMA Subunit receive frequency band
TMA Subunit transmit frequency band
Defines the type of the MHA. The supported MHA types are: WMHA, WMHB, WMHC, WMHD, MDTA, MDPA, MDGA, MDDA, FLJA, DTMAFV1, DTMAFV3, DTMAFV4, DTMARETFV1, DTMARETFV2, DTMARETFV3, DTMARETFV4, SDTMARETFV1, SDTMARETFV2,
WMHA (0), WMHB (1), WMHC (2), WMHD (3), MDTA (4), MDPA (5), MDGA (6), MDDA (7), FLJA (8), DTMAFV1 (9), Minimum supported gain given as a gain figure expressed in
dB.
Defines the product code of the unit in question.
The immediate update to the new parameter value applies either after administrative actions for the radio module, i.e. block and unblock, or a BTS restart.
Defines which antenna interface is scanned. Expected value: RMODx-ANTx and empty string where RMODx: 1...12 and ANTx: 1...6 It depends on radio module type which antennas are capable for scanning/AISG device detection.
NONE (-1), RMOD1-ANT1 (11), RMOD1-ANT2 (12), RMOD1-ANT3 (13), RMOD1-ANT4 (14), RMOD1-ANT5 (15),
Defines the serial number of the unit in question.
The immediate update to the new parameter value applies either after administrative actions for the radio module, i.e. block and unblock, or a BTS restart.
0...6553500 kHz, step 100 kHz
0...6553500 kHz, step 100 kHz
0...6553500 kHz, step 100 kHz
TMA Subunit transmit frequency band
TMA Subunit type
Not defined
1...100, step 1
Not defined
1...100, step 1
Not defined
0...65535, step 1
1...100, step 1
0...6553500 kHz, step 100 kHz
Bit 0: Bypass, Bit 1: VSWR, Bit 2: spare1 (Always 0), Bit 3: spare2 (Always 0), Bit 4: spare3 (Always 0), Bit 5: spare4 (Always 0), Bit 6: This parameter defines the MHA connector regarding WMHC
and TMARET MHA types. The options are BTS1 (Pass-through) and BTS2 (Power) for WMHC, NODEB0 and NODEB1 for TMARET MHA types. If other than WMHC or TMARET MHA types are used, then the wmhConnector parameter value is
None (-1), BTS1 (0), BTS2 (1), NODEB0 (2), NODEB1 (3)
List of CDMA2000 HRPD parameters needed for Idle Mode mobility Load Balancing provided to UE in RRC Release message
CDMA2000 HRPD band class value used for Idle Mode mobility.The UE performs only Load Balancing cell reselection for bands already configured for Idle Mobility (in CDFIM) and transmitted in system information. There is no need to provide other bands than configured already in SIBs. UE will ignore
0bc (0), 1bc (1), 2bc (2), 3bc (3), 4bc (4), 5bc (5), 6bc (6), 7bc (7), 8bc (8), 9bc (9), 10bc (10), 11bc (11), 12bc (12), 13bc (13), 14bc (14), Weight factor of CDMA HRPD Band used by round robin
algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority List of CDMA2000 1xRTT parameters needed for in Idle Mode mobility Load Balancing provided to UE in RRC Release message
CDMA2000 1xRTT band class value used for Idle Mode mobilityThe UE performs only Load Balancing cell reselection for bands already configured for Idle Mobility (in CDFIM) and transmitted in system information.There is no need to provide other bands than configured already in SIBs. UE will ignore
0bc (0), 1bc (1), 2bc (2), 3bc (3), 4bc (4), 5bc (5), 6bc (6), 7bc (7), 8bc (8), 9bc (9), 10bc (10), 11bc (11), 12bc (12), 13bc (13), 14bc (14), Weight factor of CDMA 1xRTT Band used by round robin
algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority List of eUTRAN parameters needed for Idle Mode mobility Load Balancing provided to UE in RRC Release message
eUTRA frequency as EARFCN value used for Idle Mode Mobility Load BalancingThe UE performs only Load Balancing cell reselection for frequencies already configured for Idle Mobility (in IRFIM) and transmitted in system information. There is no need to provide other frequencies than configured already in SIBs. UE will Weight factor of EUTRA carrier frequency used by round robin algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority
Not defined
gsm1800 (0), gsm1900 (1)
1...100, step 1
0...1023, step 1
1...16, step 1
Not defined
1...100, step 1
0...16383, step 1
0 (false), 1 (true)
0...16383, step 1
0...16383, step 1
0...65535, step 1
GERAN parameters needed for Idle Mode mobility Load Balancing provided to UE in RRC Release message These parameters will be used together with parameter geranCarFrqIdleModeL to build freqPriorityListGERAN IE in IdleModeMobilityControlInfo for Load Balancing.This is an indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either GSM 1800 or GSM 1900 carriers.For ARFCN values not associated with one of those bands, the indicator has no meaning.Weight factor of GERAN carrier frequency used by round robin algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority GERAN frequency as ARFCN value used for Idle Mode mobility.Each ARFCN value explicitly listed.
The UE performs only Load Balancing cell reselection for frequencies already configured for Idle Mobility (in GNFL) and transmitted in system information. There is no need to provide other frequencies than configured already in SIBs. UE will
This parameter is the naming attribute of the MOC MODIMP.It uniquely identifies a MODIMP instance.MODIMP contains the Idle Mobility configuration to be assigned to UE that do hot have any profile corresponding to SPID.
List of UTRA-FDD parameters needed for Idle Mode mobility Load Balancing provided to UE in RRC Release message
Weight factor of UTRA FDD Carrier frequency used by round robin algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority UTRA-FDD frequency as UARFCN value used for Idle Mode mobilityThe UE performs only Load Balancing cell reselection for frequencies already configured for Idle Mobility (in UFFIM) and transmitted in system information. There is no need to provide other frequencies than configured already in SIBs. UE will This parameter offers the possibility to use existing LNCEL configuration as default mobility profile.autoAdapt parameter is considered when MODPR applies.If LNBTS-actSelMobPrf is set to true then MODPR applies only when no MOPR exists for the specific SPID or when no SPID is assigned to the UE.List of WCDMA target cell frequencies for high priority Circuit Switched Fallback (CSFB). The list applies even if the Subscriber profile based mobility feature is deactivated.
If mobility profiles are activated it additionally applies to UEs if no SPID value is provided or if no mobility profile is assigned to the SPID value.
List of WCDMA target cell frequencies normal priority Circuit Switched Fallback (CSFB). The list applies even if the Subscriber profile based mobility feature is deactivated.
If mobility profiles are activated it additionally applies to UEs if no SPID value is provided or if no mobility profile is assigned to the SPID value.
LTE inter-frequency mobility is restricted to the target frequency layers configured in freqLayListLte.
If feature LTE490 'Selective Mobility Profiles' is enabled by setting the LNBTS parameter actSelMobPrf to 'true' the restriction applies to UEs if no SPID value is provided or if no mobility profile is assigned to the SPID value.
0...16383, step 1
0...16383, step 1
0...100 %, step 10 %
0...0, step 1
Not defined
dcs1800 (0), pcs1900 (1)
0...1023, step 1
Not defined
dcs1800 (0), pcs1900 (1)
0...1023, step 1
csfb (0), redir (1), both (2)
1...6, step 1
WCDMA PS-HO mobility is restricted to the target frequency layers configured in freqLayListPsHoWcdma..
If feature LTE490 'Selective Mobility Profiles' is enabled by setting the LNBTS parameter actSelMobPrf to 'true' the restriction applies to UEs if no SPID value is provided or if no mobility profile is assigned to the SPID value.
List of WCDMA target cell frequencies for Single Radio Voice Call Continuity (SRVCC). The list applies even if the Subscriber profile based mobility feature is deactivated.
If mobility profiles are activated it additionally applies to UEs if no SPID value is provided or if no mobility profile is assigned to the SPID value.
Percentage of UE to be selected for Idle Mode Load Balancing.MODPR-idleLBPercentageOfUes is taken into account for Idle Mode Load Balancing when actSelMobPrf is set to True and MODPR applies. (value of autoAdapt is not relevant).When actSelMobPrf is set to false then LNCEL-idleLBPercentageOfUes is taken into account for Idle Mode Load Balancing .
This parameter is the naming attribute of the MOC MODPR.It uniquely identifies a MODPR instance.
ENACC mobility to GERAN is restricted to the target frequencies configured in refFreqListNaccGeran. The frequency values are used as references to GERAN measurement objects (LNHOG).
Indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either DCS1800 or PCS1900 carriers.For ARFCN values not associated with one of those bands, the indicator has no meaning.ARFCN value which is used as reference to a GERAN measurement object (LNHOG).
List of ARFCN values which are used as references to GERAN measurement objects (LNHOG).All LNHOG objects of a cell, which contain at least the reference ARFCN value in arfcnValueListGERAN are selected for UE measurement configuration. If the same ARFCN value would be configured in more than one LNHOG instance of a Indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either DCS1800 or PCS1900 carriers.For ARFCN values not associated with one of those bands, the indicator has no meaning.ARFCN value which is used as reference to a GERAN measurement object (LNHOG).
The parameter selects the kinds of UE redirections (CS fallback, UE redirection with context release, both) for which GSM system information is included in the RRC Connection Release message.GSM system information (SI) will be added for up to 16 cells. SI for further GSM cells will be omitted even if configured via LNLRELG settings.
This parameter defines the priority for target RAT in selection of redirection target during CS Fallback with redirection procedure.Value 1 means highest priority and value 6 lowest.
1...6, step 1
0...5, step 1
0...2047, step 1
0...65535, step 1
0...16383, step 1
0...1023, step 1
gsm1800 (0), gsm1900 (1)
1...6, step 1
Not defined
This parameter defines the priority for target RAT in selection of redirection target during Emergency Call handling procedure.Value 1 means highest priority and value 6 lowest.
The parameter is meaningless if the MODPR parameter autoAdapt is set to 'true'.This parameter is the naming attribute of the MOC MODRED.It uniquely identifies a MODRED instance.
This parameter specifies the cdma2000 band class. It must be configured if redirRAT=cdma2000HRPD or redirRAT=cdma20001xRTT.
The parameter is meaningless if the MODPR parameter autoAdapt is set to 'true'.
bc0 (0), bc1 (1), bc2 (2), bc3 (3), bc4 (4), bc5 (5), bc6 (6), bc7 (7), bc8 (8), bc9 (9), bc10 (10), bc11 (11), bc12 (12), bc13 (13), bc14 (14), This parameter specifies the cdma2000 ARFCN.
It must be configured if redirRAT=cdma2000HRPD or redirRAT=cdma20001xRTT.The parameter is meaningless if the MODPR parameter autoAdapt is set to 'true'.This parameter specifies the eUTRA frequency. It must be configured if redirRAT=eutra.The parameter is meaningless if the MODPR parameter autoAdapt is set to 'true'.
This parameter specifies the UTRA frequency. It must be configured if redirRAT=utraFDD or utraTDD.The parameter value is based on the absolute radio-frequency channel number “ARFCN”.
The parameter specifies a list of GERAN ARFCN values.It must be configured if redirRAT=geran.The parameter is meaningless if the MODPR parameter autoAdapt is set to 'true'.
Indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either GSM 1800 or GSM 1900 carriers.For ARFCN values not associated with one of those bands, the indicator has no meaning.This parameter selects the RAT to which the UE is redirected.The parameter is meaningless if the MODPR parameter autoAdapt is set to 'true'.
eutra (0), geran (1), utraFDD (2), utraTDD (3), cdma2000HRPD (4), cdma20001xRTT (5)
This parameter defines the priority for target RAT in selection of redirection target during UE Context Release with redirection procedure.Value 1 means highest priority and value 6 lowest.
List of CDMA2000 HRPD parameters needed for Idle Mode mobility Load Balancing provided to UE in RRC Release message
CDMA2000 HRPD band class value used for Idle Mode mobilityThe UE shall only perform Load Balancing cell reselection for bands already configured for Idle Mobility (in CDFIM) and transmitted in system information. There is no need to provide other bands than configured already in SIBs. UE will ignore
0bc (0), 1bc (1), 2bc (2), 3bc (3), 4bc (4), 5bc (5), 6bc (6), 7bc (7), 8bc (8), 9bc (9), 10bc (10), 11bc (11), 12bc (12), 13bc (13), 14bc (14),
1...100, step 1
Not defined
1...100, step 1
Not defined
0...65535, step 1
1...100, step 1
Not defined
gsm1800 (0), gsm1900 (1)
1...100, step 1
0...1023, step 1
1...16, step 1
Weight factor of CDMA HRPD Band used by round robin algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority List of CDMA2000 1xRTT parameters needed for in Idle Mode mobility Load Balancing provided to UE in RRC Release message
CDMA2000 1xRTT band class value used for Idle Mode mobilityThe UE shall only perform Load Balancing cell reselection for bands already configured for Idle Mobility (in CDFIM) and transmitted in system information.There is no need to provide other bands than configured already in SIBs. UE will ignore
0bc (0), 1bc (1), 2bc (2), 3bc (3), 4bc (4), 5bc (5), 6bc (6), 7bc (7), 8bc (8), 9bc (9), 10bc (10), 11bc (11), 12bc (12), 13bc (13), 14bc (14), Weight factor of CDMA 1xRTT Band used by round robin
algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority List of eUTRAN parameters needed for Idle Mode mobility Load Balancing provided to UE in RRC Release message
eUTRA frequency as EARFCN value used for Idle Mode mobilityThe UE performs only Load Balancing cell reselection for frequencies already configured for Idle Mobility (in IRFIM) and transmitted in system information. There is no need to provide other frequencies than configured already in SIBs. UE will Weight factor of EUTRA carrier frequency used by round robin algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority List of GERAN parameters needed for Idle Mode mobility Load Balancing provided to UE in RRC Release message These parameters will be used together with geranCarFrqIdleModeL to build freqPriorityListGERAN IE in IdleModeMobilityControlInfo for Load Balancing.This is an indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either GSM 1800 or GSM 1900 carriers.For ARFCN values not associated with one of those bands, the indicator has no meaning.Weight factor of GERAN carrier frequency used by round robin algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority GERAN frequency as ARFCN value used for Idle Mode mobility.Each ARFCN value explicitly listed.
The UE performs only Load Balancing cell reselection for frequencies already configured for Idle Mobility (in GNFL) and transmitted in system information. It does not make sense to provide other frequencies than configured already in SIBs. UE
This parameter is the naming attribute of the MOC MOIMP.It uniquely identifies a MOIMP instance.MOIMP contains the Idle Mobility configuration to be assigned to UE with corresponding SPID.If MOIMP is not defined, than MODIMP configuration is used.
Not defined
1...100, step 1
0...65535, step 1
0...16383, step 1
0...16383, step 1
0...65535, step 1
0...16383, step 1
0...16383, step 1
0...100 %, step 10 %
1...16, step 1
Not defined
dcs1800 (0), pcs1900 (1)
List of UTRA-FDD parameters needed for Idle Mode mobility Load Balancing provided to UE in RRC Release message
Weight factor of UTRA FDD Carrier frequency used by round robin algorithm for idle mode load balancing.Weighted round robin algorithm shall select always one target frequency for idle mode load balancing, which is matching UE capabilities, to be used as main target for idle mode load balancing and this target will have always highest priority UTRA-FDD frequency as UARFCN value used for Idle Mode mobilityThe UE performs only Load Balancing cell reselection for frequencies already configured for Idle Mobility (in UFFIM) and transmitted in system information. There is no need to provide other frequencies than configured already in SIBs. UE will List of WCDMA target cell frequencies for high priority Circuit Switched Fallback (CSFB).
No CSFB to WCDMA mobility will be provided to UEs which are assigned to the default profile if the parameter is omitted.List of WCDMA target cell frequencies normal priority Circuit Switched Fallback (CSFB).
No CSFB to WCDMA mobility will be provided to UEs which are assigned to the default profile if the parameter is omitted.List of downlink carrier frequencies for LTE inter frequency mobility.No LTE Inter Frequency mobility will be provided to UEs which are assigned to the profile if the parameter is omitted.The parameter value is based on the absolute radio-frequency channel number “ARFCN”.List of WCDMA target cell frequencies for packet switched handover.No WCDMA PS HO mobility will be provided to UEs which are assigned to the profile if the parameter is omitted.
List of WCDMA target cell frequencies for Single Radio Voice Call Continuity (SRVCC).
No SRVCC to WCDMA mobility will be provided to UEs which are assigned to the profile if the parameter is omitted.Percentage of UE to be selected for Idle Mode Load Balancing.This parameter is taken into account for load balancing when actSelMobPrf is true and the specific MOPR applies. (one MOPR is defined for the SPID assigned to UE).When actSelMobPrf is false, "Percentage of UEs" to be taken into account for load balancing is defined in LNCEL.This parameter is the naming attribute of the MOC MOPR.It uniquely identifies a MOPR instance.
List of ARFCN values which are used as references to GERAN measurement objects (LNHOG).All LNHOG objects of a cell, which contain at least the reference ARFCN value in arfcnValueListGERAN are selected for UE measurement configuration. If the same ARFCN value would be configured in more than one LNHOG instance of a Indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either DCS1800 or PCS1900 carriers.For ARFCN values not associated with one of those bands, the indicator has no meaning.
0...1023, step 1
Not defined
dcs1800 (0), pcs1900 (1)
0...1023, step 1
csfb (0), redir (1), both (2)
1...6, step 1
1...6, step 1
0...5, step 1
0...2047, step 1
0...65535, step 1
0...16383, step 1
ARFCN value which is used as reference to a GERAN measurement object (LNHOG).
List of ARFCN values which are used as references to GERAN measurement objects (LNHOG).All LNHOG objects of a cell, which contain at least the reference ARFCN value in arfcnValueListGERAN are selected for UE measurement configuration. If the same ARFCN value would be configured in more than one LNHOG instance of a Indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either DCS1800 or PCS1900 carriers.For ARFCN values not associated with one of those bands, the indicator has no meaning.ARFCN value which is used as reference to a GERAN measurement object (LNHOG).
The parameter selects the kinds of UE redirections (CS fallback, UE redirection with context release, both) for which GSM system information is included in the RRC Connection Release message.GSM system information (SI) will be added for up to 16 cells. SI for further GSM cells will be omitted even if configured via LNLRELG settings.
This parameter defines the priority for target RAT in selection of redirection target during CS Fallback with redirection procedure.Value 1 means highest priority and value 6 lowest.
This parameter defines the priority for target RAT in selection of redirection target during Emergency Call handling procedure.Value 1 means highest priority and value 6 lowest.
This parameter is the naming attribute of the MOC MORED.It uniquely identifies a MORED instance.
This parameter specifies the cdma2000 band class. It must be configured if redirRAT=cdma2000HRPD or redirRAT=cdma20001xRTT.
bc0 (0), bc1 (1), bc2 (2), bc3 (3), bc4 (4), bc5 (5), bc6 (6), bc7 (7), bc8 (8), bc9 (9), bc10 (10), bc11 (11), bc12 (12), bc13 (13), bc14 (14), This parameter specifies the cdma2000 ARFCN.
The parameter value is based on the absolute radio-frequency channel number “ARFCN”.
It must be configured if redirRAT=cdma2000HRPD or redirRAT=cdma20001xRTT.This parameter specifies the eUTRA frequency. It must be configured if redirRAT=eutra.
This parameter specifies the UTRA frequency. It must be configured if redirRAT=utraFDD or utraTDD.The parameter value is based on the absolute radio-frequency channel number “ARFCN”.
0...1023, step 1
gsm1800 (0), gsm1900 (1)
This parameter selects the RAT to which the UE is redirected.
1...6, step 1
0 (false), 1 (true)
Altitude of site. -250...10000 m, step 1 m
1...4000 characters
1...4000 characters
0 (false), 1 (true)
1...18 characters
10...500 min, step 1 min
0 (false), 1 (true)
The parameter specifies a list of GERAN ARFCN values.It must be configured if redirRAT=geran.
Indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either GSM 1800 or GSM 1900 carriers.For ARFCN values not associated with one of those bands, the indicator has no meaning. eutra (0), geran (1),
utraFDD (2), utraTDD (3), cdma2000HRPD (4), cdma20001xRTT (5)
This parameter defines the priority for target RAT in selection of redirection target during UE Context Release with redirection procedure.Value 1 means highest priority and value 6 lowest.
This parameter activates/deactivates the feature "Security for Ethernet"
Note for FSMr3 hardware:The reconfiguration of the parameter may lead to a temporary loss of the connection.
BTS Auto connection hardware ID is System Module Core Assembly serial number : always present in FSM HW.
Auto connection site ID is inserted by operator using element manager during auto connection.
This parameter indicates if Auto Configuration is allowed or blocked by a local installer working at the site.
Defines the configuration data alignment check. NetAct does not evaluate this parameter for any purpose. Therefore eNB can set this parameter to any value (e.g. date-time) in order to force the eNB to send a CCN
Defines the period of forced CCN sending from eNB. If no other eNB parameter is modified within time defined by cmSyncCheckPeriod then eNB modifies cmSyncCheck parameter and reports itin CCN.
Multiradio Flexi BTS creates this parameter with value True when it is ready for Auto Configuration. This parameter is relevant only when Multiradio Flexi BTS is not commissioned.
1...4294967295, step 1
Latitude of site.
Longitude of site.
0...1048575, step 1
The list defines commissioned passive units. Not defined
Free text about the passive unit in question. 1...60 characters
Defines the name of the passive unit in question. 1...60 characters
Defines the product code of the passive unit in question. 1...60 characters
Defines the serial number of the passive unit in question. 1...60 characters
Defines the version of the passive unit in question. 1...20 characters
0 (false), 1 (true)
Defines the revision of the configuration data. The eNB increases value by one for each CCN message.
-900000000...900000000, step 1
-1800000000...1800000000, step 1
This is an instance identifier of object MRBTS; it is used as Multiradio Flexi BTS Site Id. This id is the same as the LNBTS identifier.
This parameter indicates if Multiradio Flexi BTS should automatically go to the "Test Dedicated" state in start-up.
This parameter indicates the partner technologies which share the same RF equipment. The system will set this parameter automatically based on RF sharing configuration defined to the BTS.
none (0), UTRAN-EUTRA (1), UTRAN-GERAN (2), EUTRA-GERAN (3)
0...99999, step 1
Not defined
1...60 characters
1...60 characters
1...99, step 1
1...20 characters
0...268435455, step 1
1...10000, step 1
0 (false), 1 (true)
Defines the BTS FaultIds that trigger automatic symptom data collection.Fault numbers are defined for purely informatory purposes and may change between versions. Operator does not base any automated processing on fault numbers.Defines the used Time Zone.
The format is predefined, for example for Helsinki "(GMT+2) Europe/Helsinki".
(GMT-11) Etc/GMT+11 (0), (GMT-11) MIT (1), (GMT-11) Pacific/Apia (2), (GMT-11) Pacific/Midway (3), (GMT-11) Pacific/Niue (4), The list defines the unit information for offline mode
commissioning in BTS Site Manager and for prevalidation in NetAct. unitList must contain radio modules, system modules and optional baseband extension modules (FSMr3) from BTS site HW configuration. Defines Radio module (RM) connection to the system module. In RF-sharing this is a connection to the master technology FSM. For FSM and FSP this parameter shall be set to "None".
In single LTE mode RP3 ports 1-5 (FSMr2) or 1-6 (FSMr3) can be used.
None (0), SMOD1-IF1 (1), SMOD1-IF2 (2), SMOD1-IF3 (3), SMOD1-IF4 (4), SMOD1-IF5 (5), SMOD1-IF6 (6)Defines the product code of the module (radio module(FR),
baseband extension module (FSP) or system module (FSM)).Parameter is used in offline mode commissioning in BTS Site Manager and in prevalidation in NetAct.
This parameter defines the Radio module connection to the system module. In case of RF-sharing this is a connection to the radio slave technology FSM. For FSM and FSP this parameter shall be set to value "None".
None (0), SMOD1-IF1 (1), SMOD1-IF2 (2), SMOD1-IF3 (3), SMOD1-IF4 (4), SMOD1-IF5 (5), SMOD1-IF6 (6), SMOD2-IF1 (7), Defines the name of the unit or module in the BTS. This
parameter is used in the offline commissioning mode. The following values will be defined: FSM, FSP (FBBx) and FR. The exact module or unit type is defined in the variant parameter.
Defines the number of the module (radio module or system module)in the BTS.Defines the number of the module in chain (radio module or system module) in the BTS.The first radio module connected to each RF interface of system module gets unitNumber with value "1", the second radio module connected to each RF interface of system module gets unitNumber with value "2" and so on. The first baseband
Defines the variant of the unit or module. This parameter is used in the offline commissioning mode. In the case of FSMD, D is used; in the case of FRGF, GF is used. In the case of baseband extension module: FSPE (FBBA), E is used and FSPH (FBBB), H is used.This parameter has the E-UTRAN Cell Identifier (eutraCelId) of the Cell corresponding to the traced cell. It is the same as contained in the E-Utran cell global identifier (ECGI) of the cell.This contains the E-UTRAN Cell id of the cell for which the trace needs to be enabled or disabled. This corresponds to ECI contained in E-CGI of the cell.Defines the maximum number of active UE connections traced within a cell for a trace session.
This indicates the status of the cell trace session i.e. whether the cell trace session is enabled or disabled.
Note: This parameter currently should only be set to enabled (i.e. TRUE).
Not defined
0 (false), 1 (true)
Not defined
0...999, step 1
0...999, step 1
2...3, step 1
0...16777215, step 1
0...65535, step 1
This parameter is the naming attribute of the MOC MTRACE. 0...11, step 1
1024...49151, step 1
7...15 characters
The parameters of this structure describe whether vendor specific extension tracing on cell level (at present only RLC tracing, MAC tracing and TA Tracing) is enabled or not.
This parameter describes whether tracing of instantaneous TA value on cell level as part of vendor specific extension tracing is enabled or not.
This identifies an UE trace sessionThis is a unique identifier to identify a Trace Session globally. This contains Trace Reference and Trace Recording Session Reference. This is received as as part of trace parameters during trace activation for every trace session.MCC of PLMN ID contained in Trace ReferenceThis is the MCC of the PLMN ID contained in the Trace Reference of E-UTRAN Trace ID.
MNC of PLMN ID contained in Trace ReferenceThis is the MNC of the PLMN ID contained in the Trace Reference of E-UTRAN Trace ID.
Length of MNC of PLMN ID contained in Trace ReferenceThis is the length of the MNC of the PLMN ID contained in the Trace Reference of E-UTRAN Trace ID.
Trace ID identifies a cell trace session. In combination with PLMN ID, the identifier becomes unique.Trace ID is part of Trace Reference contained in E-UTRAN Trace ID.E-UTRAN Trace ID is unique id identifying a trace session.Trace Recording Session Reference is set to invalid value for Cell trace session by O&M as it does not need this. It is set by system for identification of every call in a cell and is written into Trace Report for the cell.Trace Recording Session Reference is part of E-UTRAN Trace ID.
The Trace Port Number to be used for this Cell trace session while establishing trace connection(TCP) towards 3rd Party Tool. This will be used only if 3rd Party Tracing for Cell Trace is used.
IP address of the trace collection entity of 3rd Party Tool. This will be used only if 3rd Party Tracing for Cell Trace is enabled and the provided IP address is different from NetAct IP address.This is the IP address of Trace Collection Entity i.e to which all trace records are sent for the user Trace Session.If traceRrcMsgCategory = UEspecific then the parameter traceRrcUeSpecMsgLst contains list of UE specific messages to be traced.If traceRrcMsgCategory = nonUEspecific then the parameter traceRrcNonUeSpecMsgLst contains list of n
All (0), UEspecific (1), nonUEspecific (2)
0...65535, step 1
All (0), Specific (1), None (2)
0...65535, step 1
0...65535, step 1
All (0), Specific (1), None (2)
0...65535, step 1
0...65535, step 1
All (0), Specific (1), None (2)
0...65535, step 1
1...15, step 1
If traceRrcMsgCategory = all or traceRrcMsgCategory = nonUEspecific then traceRrcNonUeSpecMsgList contains list of enum for the non-UE specific messages to be traced.Note: These non-UE specific (eNB related) messages (e.g. Paging) were not included in RL20 cell trace, but only in interface trace.This parameter indicates if all RRC messages are traced (all), specific list(s) of RRC messages as defined in parameter traceRrcMsgCategory (specific), or RRC not traced at all (none).
If traceRrcMsgCategory = all or traceRrcMsgCategory = UEspecific then traceRrcUeSpecMsgList contains list of enum for the UE specific messages to be traced.
If traceS1MsgCategory = UEspecific then the parameter traceS1UeSpecMsgLst contains list of UE specific messages to be traced.If traceS1MsgCategory = nonUEspecific then the parameter traceS1NonUeSpecMsgLst contains list of non-UE specific messages to be traced.
All (0), UEspecific (1), nonUEspecific (2)
If traceS1MsgCategory = all or traceS1MsgCategory = nonUEspecific then traceS1NonUeSpecMsgList contains list of enum for the non-UE specific messages to be traced.Note: These non-UE specific (eNB related) messages (e.g. S1 setup or reset) were not included in RL20 cell trace, but only in interface trace.This parameter indicates if all S1 messages are traced (all), specific list(s) of S1 messages as defined in parameter traceS1MsgCategory (specific), or S1 not traced at all (none).
If traceS1MsgCategory = all or traceS1MsgCategory = UEspecific then traceS1UeSpecMsgList contains list of enum for the UE specific messages to be traced.
If traceX2MsgCategory = UEspecific then the parameter traceX2UeSpecMsgLst contains list of UE specific messages to be traced.If traceX2MsgCategory = nonUEspecific then the parameter traceX2NonUeSpecMsgLst contains list of non-UE specific messages to be traced.
All (0), UEspecific (1), nonUEspecific (2)
If traceX2MsgCategory = all or traceX2MsgCategory = nonUEspecific then traceX2NonUeSpecMsgList contains list of enum for the non-UE specific messages to be traced.Note: These non-UE specific (eNB related) messages (e.g. X2 setup or reset) were not included in RL20 cell trace, but only in interface trace.This parameter indicates if all X2 messages are traced (all), specific list(s) of X2 messages as defined in parameter traceX2MsgCategory (specific), or X2 not traced at all (none).
If traceX2MsgCategory = all or traceX2MsgCategory = UEspecific then traceX2UeSpecMsgList contains list of enum for the UE specific messages to be traced.
This parameter identifies a Maintenance Association. Up to 15 associations may exist in the BTS.
1...42 characters
0 (false), 1 (true)
1...4094, step 1
1...10, step 1
This parameter specifies the level of the Maintenance Domain. 0...7, step 1
This parameter specifies the name of the Maintenance Domain. 1...43 characters
0 (false), 1 (true)
0 (false), 1 (true)
1...40 characters
1...8191, step 1
Not defined
This parameter specifies the period for sending Continuity Check messages (CCMs).
CCM_3_33MS (0), CCM_10MS (1), CCM_100MS (2), CCM_1SEC (3), CCM_10SEC (4), This parameter specifies the name of the Maintenance
Association.
This flag indicates if Vlan mapping is enabled for this Service OAM ethernet interface. Value "true" means that Vlan mapping is enabled. In case Vlan mapping is not enabled, all messages on the interface will be sent in plain format.
This parameter specifies the VLAN identifier that is associated to the Maintenance Association.The FTM uses this VLAN identifier in the Service OAM messages its sends over the Service OAM ethernet link (configured in the OAMMEP managed object).This parameter identifies a Maintenance Domain. Up to 10 domains may exist on the BTS.
This parameter specifies if the transmission of AIS messages is enabled.
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changing the parameter from false (not allowed) to true (allowed) resets the CCM counters and alarms of all remote MEPs.This parameter specifies the ethernet link that the BTS uses for sending Service OAM messages. The parameter is a local managed object instance identifier (LMOID), i.e. a reference to an instance of object class ETHLK.Format: "FTM-1/ETHLK-1-*"This parameter identifies the Maintenance association Endpoint (MEP).
This parameter specifies the list of Maintenance Association Endpoints (MEPs) that are contained in the Maintenance Association.
17...17 characters
1...8191, step 1
0...7, step 1
0 (false), 1 (true)
0...4294967295, step 1
0...4294967295, step 1
1...4294967295, step 1
0...65535, step 1
10...900 s, step 1 s
1...4, step 1
This parameter specifies the MAC address of the Maintenance Association End Point (MEP).Note:The MAC address must be a unicast MAC address.
This parameter identifies the Maintenance Association End Point (MEP).
This parameter specifies the PCP bits value to be used for Service OAM messages for this Maintenance association Endpoint (MEP).
This parameter specifies the Link OAM operational mode at the local peer. If false, the BTS will only respond to a remotely initiated discovery process, if active the BTS will itself initiate the process.
This parameter specifies for how long critical event flags must be cleared before the BTS clears the corresponding Link OAM Critical Event alarm.
1...10 seconds, step 1 seconds
This parameter specifies the threshold value for counting the Errored Frame Event. If the number of errored frames detected within the measurement window specified by efEventWindow is exceeded, the BTS transmits an OAM PDU Event Notification message for that event.This parameter specifies the measurement interval for counting the Errored Frame Event. If the number of errored frames detected within the measurement interval exceeds the threshold number specified in parameter efEventThreshold, the FTM transmits an OAM PDU Event Notification message for
1...60 seconds, step 1 seconds
This parameter specifies the threshold value for counting the Errored Frame Period Event. If the number of received errored frames within the measurement window specified by efpEventWindow is exceeded, the BTS transmits an OAM PDU Event Notification message for that event.This parameter specifies the measurement interval for counting the Errored Frames. If the number of received errored frames within the measurement interval exceeds the threshold number specified in parameter efpEventThreshold, the BTS transmits an OAM PDU Event Notification message for that event.This parameter specifies the threshold value for counting the Errored Frame Seconds Summary Event. If the number of errored frame seconds that occurred during the specified measurement interval specified by efssEventWindow is exceeded, the BTS transmits an OAM PDU Event Notification This parameter specifies the measurement interval for counting the Errored Frame Seconds Summary Event. If the number of errored frame seconds that occurred during the specified measurement interval exceeds the threshold number specified in parameter efssEventThreshold, the BTS transmits an OAM This parameter specifies how often the BTS repeats the transmission of OAM Events Notifications to its remote peer to increase the probability that they are received by the remote peer. The parameter specifies the total number of repetitive transmissions of such messages.
This parameter specifies if the BTS supports Link OAM events. 0 (false), 1 (true)
1...40 characters
10...600 s, step 1 s
0 (false), 1 (true)
This parameter identifies a Link OAM profile. 1...5, step 1
0...25000, step 1
64...1518, step 1
1...1, step 1
configuration of measurement type LTE Cell Availability
configuration of measurement type LTE Cell Load
configuration of measurement type LTE Cell Resource
This parameter describes a unique configurable name for each link OAM profile.
This parameter specifies the duration of a loopback operation initiated by the BTS or by the remote peer.
If set to "true", the FTM enables the discovery process for Link OAM loopback requests initiated by a remote network element. If set to "false", loopback initiated from the remote network are not accepted by the FTM. BTS allows to start only one loopback.
This parameter specifies the number of frames / second to be sent during loopback operation for Link OAM.Value 0 switched the test frame generator off.
This parameter specifies the ethernet frame size of test messages sent during loopback operation for Link OAM.
This parameter identifies the performance measurement common administration class. There is only one instance of class PMCADM.
The performance data reporting interval configures the time interval in which the Flexi Multiradio BTS uploads collected LTE performance measurement data to the Network Management system.
15min (1), 30min (2), 60min (3)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
configuration of measurement type LTE Cell Throughput
configuration of measurement type LTE EPS Bearer
configuration of measurement type LTE Intersystem Handover
configuration of measurement type LTE Inter eNB Handover
configuration of measurement type LTE Intra eNB Handover
configuration of measurement type LTE Handover
configuration of measurement type LTE Power and Quality DL
configuration of measurement type LTE Power and Quality UL
configuration of measurement type LTE QoS
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
configuration of measurement type LTE Handover to eHRPD per eHRPD bandclass
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
configuration of measurement type LTE Neighbour Cell related Inter System Handover to GSM
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
configuration of measurement type LTE Neighbour Cell related Inter System Handover to UTRAN
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
configuration of measurement type LTE RRC
configuration of measurement type LTE Radio Bearer
configuration of measurement type LTE S1AP
configuration of measurement type LTE Transport Load
configuration of measurement type LTE UE State
configuration of measurement type LTE X2AP
configuration of measurement type LTE eNB Load
1...1, step 1
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
configuration of measurement type LTE UE and Service Differentiation
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
configuration of measurement type LTE Neighbour cell related Handover
disabled (0), 15min (1), 30min (2), 60min (3), 360min (4), 720min (5), 1440min (6)
This parameter identifies the performance management measurement administration interface for Radio Network Layer. There is only one instance of class PMRNL.
Measurement interval for Ethernet interface statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for Ethernet Link measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for IPSec measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for IP Filtering measurement in minutes.Acceptable range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for IP Statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for L2 switch statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled. The parameter supports FTIB HW unit.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for PHB Statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for TAC statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for TOP FreqSync statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for TOP PhaseSync statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for TWAMP statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for VLAN IP Statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for VLAN PHB Statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
Measurement interval for VLAN interface statistics measurement in minutes.Acceptable Range is 0/15/30/60/360/720/1440 minutes, where '0' means disabled.
disabled (0), 15min (15), 30min (30), 60min (60), 360min (360), 720min (720), 1440min (1440)
1...1 number, step 1 number
locked (0), unlocked (1)
3...4 characters
Not defined
This parameter specifies a Diff Servce Code Point value. 0...63, step 1
0...7, step 1
0 (false), 1 (true)
Not defined
1...10000, step 1
This parameter identifies the performance management measurement configuration within BTS Transport. The value is always 1.
This parameter is used to lock and unlock the PDH interface.Locking the interface deactivates it. All alarms and any user data transfer on the interface is then suppressed.
This parameter specifies the attenuation for the signal from the transmitter. All attenuation values are specified in dB at 772 kHz. This parameter is only supported on T1 interfaces.
PDH_LBO_0 (1), PDH_LBO_7_5 (2), PDH_LBO_15 (3)
This parameter specifies the frame format of the PDH signal for a physical PDH interface of the unit.
For E1 the possible values are:- DOUBLEFRAME or
PDH_LINE_TYPE_DOUBLE_FRAME_G704 (1), PDH_LINE_TYPE_MULTI_FRAME_G704 (2), PDH_LINE_TYPE_EXTENThis parameter identifies the PDH interface.
Format: unit#-if#
whereThis tables maps Diff Servce Code Point (DSCP) values to Per Hop Behaviours (PHB) and VLAN priority bit (PCP) values.
The table has as most 64 entries, one for each possible DSCP value. For non-configured DSCP values, the following defaults are used:
This parameter designates a per hop behaviour wird drop precedence within the PHB class group for Assured Forwarding (AF) or the PHB classes Best Effort (BE) or Expedited Forwarding (EF).4 PHB classes are defined within the Assured Forwarding group (AF1 to AF4) and three drop precedences within each class. Within each class the drop precedence is as follows: 1 (e.g. AF41) = low drop precedence, 2 (e.g. AF42) = medium
expeditedForwarding (0), assuredForwardingClass43 (1), assuredForwardingClass42 (2), This parameter specifies the value of the VLAN priority bits for
a given DSCP value.
PHB class counters shall only be available when this parameter is enabled.
This is a set of 5 weight values for the traffic queues associated to the Per Hop Behaviours:- Assured Forwarding 4 (AF4)- Assured Forwarding 3 (AF3)- Assured Forwarding 2 (AF2)This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 1 (AF1).
1...10000, step 1
1...10000, step 1
1...10000, step 1
1...10000, step 1
1...1, step 1
0 (false), 1 (true)
Not defined
0...63, step 1
1...14 characters
csfb (0), redir (1), both (2)
1...6, step 1
1...6, step 1
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 2 (AF2).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 3 (AF3).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 4 (AF4).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Best Effort (BE).
This parameter identifies BTS transport Quality of Service (QOS) configuration. The value is always 1.
This parameter specifies if the DSCP value is overwritten in outgoing Site Support Equipment (SSE) messages. The new DSCP value itself is specified in parameter trafficTypesMap.
This tables maps traffic types to DSCP values. In this release the table contains entries for - Control plane traffic- ICMP traffic- IPSec IKE trafficThis is the Diff Service Code Point (DSCP) codes that the eNB should use for a specific traffic type.NOTE:On FSMr2 HW for traffic type C-Plane, the modification of dscp requires manual BTS reset to take new dscp value into use.This parameter specifies a traffic type.Allowed values are:CPLANE: Signalling transport (C-plane) between eNB and MME (S1AP protocol) and signalling transport between eNB nodes (X2AP protocol).The parameter selects the kinds of UE redirections (CS fallback, UE redirection with context release, both) for which GSM system information is included in the RRC Connection Release message.GSM system information (SI) will be added for up to 16 cells. SI for further GSM cells will be omitted even if configured via LNLRELG settings.
This parameter defines priority for target RAT in selection of redirection target during CS Fallback with redirection procedure.Value 1 means highest priority and value 6 lowest.
This parameter defines priority for target RAT in selection of redirection target during Emergency Call handling procedure.Value 1 means highest priority and value 6 lowest.
0...2047, step 1
0...65535, step 1
0...16383, step 1
0...1023, step 1
gsm1800 (0), gsm1900 (1)
This parameter selects the RAT to which the UE is redirected.
1...6, step 1
0...5, step 1
0 (false), 1 (true)
-90...90 deg., step 0.1 deg.
Not defined
This parameter must be configured if redirRAT=cdma2000-HRPD or redirRAT=cdma2000-1xRTT.Specifies the cdma2000 band class.
bc0 (0), bc1 (1), bc2 (2), bc3 (3), bc4 (4), bc5 (5), bc6 (6), bc7 (7), bc8 (8), bc9 (9), bc10 (10), bc11 (11), bc12 (12), bc13 (13), bc14 (14), Specifies the cdma2000 ARFCN.
The parameter value is based on the absolute radio-frequency channel number “ARFCN”.
This parameter must be configured if redirRAT=cdma2000-HRPD or redirRAT=cdma2000-1xRTT.Specifies the eUTRA frequency (max value ref to 36.331)The parameter value is based on the absolute radio-frequency channel number “ARFCN”.
This parameter must be configured if redirRAT=eutra.Specifies the UTRA frequency.The parameter value is based on the absolute radio-frequency channel number “ARFCN”.
This parameter must be configured if redirRAT=utraFDD or redirRat=utraTDD.List of GERAN ARFCN values (in addition to s).This parameter must be configured if redirGfollowingARFCNsSwitch=explicitListOfARFCNs
Indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either GSM 1800 or GSM 1900 carriers.For ARFCN values not associated with one of those bands, the indicator has no meaning. eutra (0), geran (1),
utraFDD (2), cdma2000HRPD (3), cdma20001xRTT (4), utraTDD (5)This parameter defines priority for target RAT in selection of
redirection target during UE Context Release with redirection procedure.Value 1 means highest priority and value 6 lowest.
This parameter defines the number of redirection targets specified for the respective cell and this parameter is naming attribute of MOC REDRT.
Defines is RET AISG RET or Non-AISG RET.
Selectable values is 0 (false)= Siemens AISG1.1, TMARET RET, Siemens proprietary AISG1.1 RET and 1 (true )= 3GPP RET.The elevation angle between the direction orthogonal to the antenna element axis and the maximum of its main beam in the elevation plane. A positive electrical tilt angle means that the antenna beam is directed below the direction orthogonal to the antenna axis. The BTS creates the parameter to SCF. The A list containing: operating frequency band, beamwidth and the operation gain
0...360 deg, step 1 deg
0...25.5 dBi, step 0.1 dBi
Antenna Bearing 0...359.9 deg, step 0.1 deg
Antenna height 0...999 m, step 1 m
Antenna location 0...31, step 1
Antenna model number 1...15 characters
Antenna serial number 1...17 characters
Antenna type according to the user scheme
1...72, step 1
Base Station ID 1...32 characters
The antenna beamwidth for the band. Some RET types may automatically update the beamwidth information based on the configuration data downloaded into the RET device. Some devices may also restrict overwriting the field.
The antenna operation band. Some RET types may automatically update the band information based on the configuration data downloaded into the RET device. Some devices may also restrict overwriting the field. One frequency band may be given only once.
Band I (1), Band II (2), Band III (3), Band IV (4), Band V (5), Band VI (6), Band VII (7), Band VIII (8), Band IX (9), Band X (10), Band XI The antenna gain for the band. Some RET types may
automatically update the gain information based on the configuration data downloaded into the RET device. Some devices may also restrict overwriting the field.
Antenna technology:0: voice; 1: data; 2: voice/data
voice (0), data (1), voice/data (2)
Type 1 (1), Type 2 (2), Type 3 (3), Type 4 (4), Type 5 (5), Type 6 (6), Type 7 (7), Type 8 (8), Type 9 (9)
Identifies the specific antenna line(s) assigned to the RET.
Note: If RET is used for another BTS (RET parameter connection set to 'External') the value of antlIdList must be set to the value of scannedAntennaInterface, because only this antenna line related detects and controls RET.
0 (false), 1 (true)
This parameter defines if Calibration has been done 0 (false), 1 (true)
Defines if a Configuration File DL is needed. 0 (false), 1 (true)
This parameter defines if the Configuration has been done. 0 (false), 1 (true)
1...4000 characters
Defines the connection type for RET.
Defines HW Version of a RET unit. 1...30 characters
Installation Date 1...6 characters
Installer's ID 1...5 characters
Defines the manufacturer of the device 2...30 characters
-90...90 deg, step 0.1 deg
-90...90 deg., step 0.1 deg.
Exercise the antenna drive unit over its entire range of travel to ensure fault-free operation, and synchronize the measured and actual beam tilt of the antenna. Calibration of a RET device might take up-to 4 minutes according to 3GPP stardards. A typical time for the calibration is approximately 1-2 minutes.
This parameter is used to store and transfer a device specific configuration data to the BTS. Configuration data included within this parameter is downloaded to the device when requested by the user (see referred parameters). Configuration data download and usage is specified within 3GPP 25.463. Internal (0), Shared (1),
External (2)
This parameter defines the maximum allowed electrical tilt value. Changing the minimum or maximum values may cause incorrect tilt functionality if the values are not in the proper range. It is recommended to enter values only if they are not retrieved from the device after configuration file activation.The elevation angle between the direction orthogonal to the antenna element axis and the maximum of its main beam in the elevation plane. The BTS creates this parameter to SCF. The parameter value is read from the device. The user sets the parameter value at least once according to installation.
-90...90 deg, step 0.1 deg
1...80 characters
3GPP protocol version 0...255, step 1
1...255, step 1
1...255, step 1
Sector ID 1...32 characters
1...80 characters
Defines Configuration File SW Version 1...30 characters
Not defined
Defines the minimum allowed electrical tilt value. Changing the minimum or maximum values may cause incorrect tilt functionality if the values are not in the proper range. It is recommended to enter values only if they are not retrieved from the device after configuration file activation.Defines the product code of the unit in question. Mandatory for 3GPP RET
The immediate update to the new parameter value applies either after administrative actions for the radio module, i.e. block and unblock, or a BTS restart.
The RET antenna unit number. For a single-antenna RET device, the RET antenna unit number is always 1. For a multi-antenna RET device, the RET antenna unit number starts at 1 and increases by 1 for each controlled antenna, with no numbering gaps allowed. The RET antenna unit number Defines the RET device type as a single-antenna RET device or a multi-antenna RET deviceDefines the RET device type as a single-antenna RET device or a multi-antenna RET device. A RET device controlling a single antenna will have one RET managed object instance whose RET device type is "SingleAntennaDevice". A RET
SingleAntennaDevice (0), MultiAntennaDevice (1)
This parameter defines the specific RET (Remote Electrical Tilting), which is vertical tilting for antenna.
Defines which antenna interface is scanned. Expected value: RMODx-ANTx and empty string where RMODx: 1...12 and ANTx: 1...6 It depends on radio module type which antennas are capable for scanning / AISG device detection.
NONE (-1), RMOD1-ANT1 (11), RMOD1-ANT2 (12), RMOD1-ANT3 (13), RMOD1-ANT4 (14), RMOD1-ANT5 (15),
Defines the serial number of the unit in question. Mandatory for 3GPP RET
The immediate update to the new parameter value applies either after administrative actions for the radio module, i.e. block and unblock, or a BTS restart.
Climate control Profiling parameter.Fan speed will be controlled according to module temperature and desired BTS fan profile.- Low Noise: Minimised noise for low and moderate ambient temperatures
Optimized Cooling (0), Linear (1), Low Noise (2)
The list contains information about all the system modules, their link id and the position in chain w.r.t. which the given radio module is connected with them. For e.g. if a radio module is being shared between EUTRA and GERAN then this list shall have two entries one corresponding to each of the technology's
1...6, step 1
Defines the position in chain for the Radio Module in question 1...4, step 1
1...2, step 1
The list defines the external alarm input signals. Not defined
Sets the cancellation delay for the alarm. 0...86400 s, step 1 s
Defines the external alarm description. 1...64 characters
1...8, step 1
Sets the activation delay for the alarm. 0...86400 s, step 1 s
0 (false), 1 (true)
Not defined
Defines the RP3 port link to which the Radio Module is connected (direct or in chain).
In single LTE mode RP3 ports 1-5 (FSMr2) or 1-6 (FSMr3) can be used for radio modules.
Defines system module identification where radio module is connected (direct or in chain).
Defines the external alarm input lines. module, inUse, description, polarity and severity must be defined for input signals.
The number of supported input lines in RF module are defined in BTS Property File.Defines the used polarity of the external alarm line: normally open or normally closed. Normally_open: when the connector is open, there is no alarm. Normally_closed: when the connector is closed, there is no alarm.
Normally_open (0), Normally_closed (1)
Defines the seriousness of the external alarm condition in question. Minor = 1 Major = 2 Critical = 3.
Minor (1), Major (2), Critical (3)
This is used to indicate whether this EAC configuration is used by EUTRA.
Defines the external alarm output lines. module, inUse, description and initialState must be defined for Control Signals.
The number of supported input lines in RF module are defined in BTS Property File.
Defines the external alarm description. 1...64 characters
1...4, step 1
Defines is particular external control line in use or not in use. 0 (false), 1 (true)
On (0), Off (1)
1...50 characters
Defines the product code of the unit in question. 1...80 characters
1...18, step 1
Defines the serial number of the unit in question. 1...80 characters
1...30, step 1
1...15, step 1
Defines the external alarm lines.
module, inUse, description and initialState must be defined for Control Signals. There are 4 output signals in FlexiBTS RF module.
Defines the initial state of the external control line after a reset of the BTS. The options are "On" and "Off". If the initial state is "On", current is going through.
This linkSpeed parameter defines the RP3-01 link speed between radio modules for master mode ports. This parameter can be set to all radio module variants but "6Gbps" option can be taken into use by BTS only for radio modules which have HW support for that speed.
3Gbps (3), 6Gbps (6), Auto (10)
Defines a location of Flexi module in free text with maximum 50 characters or has the value -1 (Not defined). The value -1 (Not defined) is not used at the commissioning file. Location can be e.g. place or address of the module.
This parameter identifies the radio module associated with the antenna line.
This is the number of unanswered heartbeat messages or data acknowledgements (within a time defined by RTO/T3-rtx and calculated internally in SCTP), used for declaring the SCTP association failure.
The overall maximum time that the eNB is trying to establish a SCTP association to a newly learned adjacent eNB after the eNB has received the IP address via ANR. The time the eNB is trying to establish mustn’t exceed maxSctpSetupTime.
1...480 seconds, step 1 seconds
This is the number of unanswered heartbeat messages or data acknowledgements (within a time defined by RTO/T3-rtx and calculated internally in SCTP), used for declaring SCTP path failure.
1...60 s, step 1 s
1...60 s, step 1 s
0...60 s, step 1 s
This parameter is the naming attribute of MOC SCTP. 1...1, step 1
Not defined
Sets the cancellation delay for the alarm 0...86400 s, step 1 s
Defines the external alarm description. 1...64 characters
1...26, step 1
Defines if a particular EAC line is in use or not in use. 0 (false), 1 (true)
This parameter specifies the maximum value for retransmission timer T3-rtx when DATA or heartbeat was sent and no ACK has come back. Used for SCTP calculation range.
This parameter specifies the minimum value for retransmission timer T3-rtx when DATA or heartbeat was sent and no ACK has come back. Used for the SCTP calculation range.
This parameter defines the interval between two SCTP heartbeat messages, counted in seconds.
Climate control Profiling parameter.Fan speed will be controlled according to module temperature and desired BTS fan profile.- Low Noise: Minimized noise for low and moderate ambient temperatures
Optimized Cooling (0), Linear (1), Low Noise (2)
The list defines the external alarm input signals.
Note: The external alarms 13 and 14 are fixedly reserved for Flexi Power Module mains power break (external alarm 13) and failure (external alarm 14). 'Mains power break' shall be used as description for external alarm 13 and 'Power module failure'
Defines the external alarm lines. module, inUse, description, polarity and severity must be defined for input signals.
FlexiBTS system module:There are 14 input signals and with EAC box 26. Lines 13 and 14 are reserved for the Flexi Power Module and cannot be assigned to other use. Values 1-26 are allowed. Maximum total number of input signals is 26. In FSM release 3 module lines 7-
Defines the used polarity of the external alarm line: normally open or normally closed. Normally_open: when the connector is open, there is no alarm. Normally_closed: when the connector is closed, there is no alarm.
Normally_open (0), Normally_closed (1)
Defines the seriousness of the external alarm condition in question. Minor = 1 Major = 2 Critical = 3
Minor (1), Major (2), Critical (3)
Sets the activation delay for the alarm 0...86400 s, step 1 s
Not defined
Defines the external control description. 1...64 characters
1...6, step 1
0 (false), 1 (true)
On (0), Off (1)
Not defined
1...6, step 1
0 (false), 1 (true)
1...50 characters
1...80 characters
The list defines the external alarm output signals.
For FlexiBTS system module supports up to 6 output signals.FlexiBTS system module FSMK supports up to 3 output signals.
Defines the external alarm lines. module, inUse, description and initialState must be defined for Control Signals.
FlexiBTS system module:There are 6 output signals. FSM release 3 module mixed lines use line numbers 1-6 if they have been configured to output lines. If mixed lines are configured to output lines then input lines cannot be configured to line number 7-12.
Defines if a particular external control line is in use or not in use.
Defines the initial state of the external control line after a reset of the BTS. The options are "On" and "Off". If the initial state is "On", current is going through.
The parameter linkList must be configured mainly in RF sharing configurations, where the configuration of the RP3 links for the radio modules depends on the shared RF technologies. If there is a need to change RP3-01 link speed then the linkList need to be defined also. In case of RF sharing, in the peer technology Defines the RP3 port link in system module to which the Radio Module is connected (direct or in chain).
In single LTE mode RP3 ports 1-5 (FSMr2) or 1-6 (FSMr3) can be used for radio modules.This linkSpeed parameter defines used the RP3-01 link speed between system module and first radio module. This parameter can be set to all FSM variants but "6Gbps" option can be taken into use by BTS only for FSMr3 HW.Note that normally default value "Auto" is optimal selection for all configurations, but some case for example optical network performance or SFP selection reasons there is needed to define fixed link speed.
3Gbps (3), 6Gbps (6), Auto (10)
This radioMaster parameter defines the BTS system module that controls O&M tasks in RF sharing.With value "true" this parameter defines a system module that controls radio SW updates, antenna line device parameters, and common radio parameters in case of single technology dedicated RF-module or master mode when RF-sharing feature Defines a location of Flexi module in free text with maximum 50 characters or has the value -1 (Not defined). The value -1 (Not defined) is not used at the commissioning file. Location can be e.g. place or address of the module.
Defines the product code of the unit in question.
Important note:In master technology SMOD prodCode is autodetected (set by system) and can neither be configured in SMOD creation nor modified.
1...2, step 1
1...80 characters
0 (false), 1 (true)
Defines the technology to which this system module belongs
Not defined
0...8, step 1
1...2, step 1
0 (false), 1 (true)
0...1, step 1
1...1, step 1
System Module identification in terms of its distname index. The position of this radio module is defined with respect to this index
Defines the serial number of the unit in question.
Important note:In master technology SMOD serNum is autodetected (set by system) and can neither be configured in SMOD creation nor modified.A module which oscillator is used for source of the BTS site system clock. Other module(s) in a BTS are synch slave(s).The synchronization master depends on the RF sharing technologies. In 2G-LTE concurrent mode, EUTRA (LTE) is supported as synchronization master, where in 3G-LTE concurrent mode UTRAN (WCDMA) is the synchronization master.
GERAN (0), UTRAN (1), EUTRA (2)
This is the list of synchronization sources of the BTS. Up to 2 clock sources can be configured.
This parameter specifies the protocol of this clock source: PDH, synchronuous Ethernet, or Time over Packet.
clkPDH (1), clkSyncE (3), clkToP (4)
This parameter specifies either - the physical location of the PDH interface location on the unit for a PDH synchronization source, or - the physical location of the ethernet interface of the unit for the synchronous Ethernet synchronization source.This parameter determines the priority in which the Transport clock sources are to be taken into use. Value 1 ist highest priority: this clock source will be taken first.
This parameter enables SSM support (Synchronization Status Message) for Synchronuous Ethernet.
This is the maximum duration in seconds for which the actual SSM value may be less than ssmPRC or SSU_A or SSU_B clock quality. If the duration is surpassed, an alarm will be raised.
2...10 seconds, step 1 seconds
This parameter specifies the location of the unit providing the synchronisation source interface.NOTE: unitNumber parameter is ignored when clockProtocol parameter has value clkTop. In case of clkTop, unitNumber parameter is optional. For syncE sources FTIF & FIIF units will support both values 0 and 1, for FSM and FSI unitNumber can This parameter identifies the synchronisation protection group. The value is always 1.
1...1, step 1
1...1, step 1
1...1, step 1
0 (false), 1 (true)
-5...-3, step 1
7...15 characters
1...1, step 1
0 (false), 1 (true)
-7...-6, step 1
This parameter identifies the clock synchronization configuration. The value is always 1.
This parameter identifies the MO instance for transport admission control for LTE.
This parameter identifies the Time Over Packet common configuration. The value is always 1.
This parameter activates/deactivates the feature "ToP with frequency synchronization".Note: ToP frequency synchronization (TOPF) is not supported for TDD release and therefore it cannot be activated.
This indicates how often a ToP sync message shall be send by the ToP master within the transmission duration request period. (The transmission duration request period is currently fixed to 300 seconds.)The following values are defined:This is the IP address of the ToP master. To be entered in dotted decimal format. The parameter must be configured if actTopFreqSynch = TRUE.ToP frequency synchronization (TOPF) is not supported for TDD release and only 0.0.0.0 address can be configured to IP address of the ToP master.This parameter identifies the Time Over Packet frequency sync configuration of the FTM. The value is always 1.
This parameter represents the accepted clock quality class. 6 (0), 7 (1), 52 (3), 187 (4), 248 (5), 13 (6), 14 (7), 58 (8), 193 (9), 135 (10), 140 (11), 145 (12)
This parameter activates/deactivates the feature "ToP with phase synchronization".Note:ToP phase synchronization is not supported for FDD release and therefore it cannot be activated.
This indicates how often a ToP sync message shall be send by the ToP master within the transmission duration request period (of 300 seconds).
The phase of the output phase of ToP phase synchronization will be adjusted by the value in terms of nanonseconds of this parameter.
-10000...10000 ns, step 1 ns
This parameter configures the communication mode for Timing over Packet to be either IP Unicast or Ethernet Multicast.
IP Unicast (0), Ethernet Multicast (1)
0...255, step 1
Not defined
7...15 characters
1...1, step 1
locked (0), unlocked (1)
2...45 characters
1...65535, step 1
0...63, step 1
69...1400, step 1
0...100 %, step 0.01 %
0...1000000 us, step 100 us
This parameter selects the ToP domain number the BTS integrated slave clock belongs to.
This parameter configures the Ethernet MAC address to be used as destination address in Timing over Packet Ethernet frames sent by the BTS.
01-80-C2-00-00-0E (0), 01-1B-19-00-00-00 (1)
This parameter specifies a table that holds all properties of the configured Timing over Packet masters of the BTS.
This parameter specifies the IP address of the ToP master. To be entered in dotted format.
This parameter identifies the Time Over Packet phase sync configuration. The value is always 1.
This parameter locks or unlocks the TWAMP session. Locking a session stops it. Unlocking a session starts or re-starts it.Starting or re-starting a session clears all statistics and alarms for the session. Stopping a session clears TWAMP alarms but not TWAMP statistics.This parameter specifies the destination IP address of the TWAMP session. The TWAMP session must be locked, before its destination IP address can be changed.Both IP address formats can be used.Format: IPv4 address parameter in dotted decimals or IPv6 address parameter acc. to RFC 4291.This parameter specifies the destination port for TWAMP initiator messages. Changeing the destination port of the TWAMP session requires locking the session.
This parameter specifies the DSCP value to be used for transmission of TWAMP messages over the session. The corresponding mapping to a Per Hop Behavior priority queue is contained in table trafficTypesMap of the QOS managed object class.This parameter specifies the size of the TWAMP messages sent by the TWAMP initiator on this session. The value of the parameter shall not exceed the Maximum Transfer Unit value of the BTS and the configured TWAMP message source address must be identical with one of the configured eNB application or interface IP addresses (if This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive packet loss ratio (PRL).The alarm is raised, if the packet loss ratio observed over a 15 minute evalutation period exceeds the threshold value. The alarm will be cleared if the packet loss ratio drops below the threshold value for 2 consecutive 15-minute observation This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive round-trip-time (RTT).The alarm is raised if the average round-trip-time of the TWAMP messages, calculated during a 1-minute evaluation period, exceeds the configured threshold. The alarm will be cleared, if during 5 consecutive 1-minute periods the average
2...45 characters
This parameter identifies a TWAMP session. 1...10, step 1
UTRA cell reselection timer 0...7 s, step 1 s
Not defined
1...1, step 1
This is a list Of UTRA FDD Carrier Frequencies Not defined
Contains the Downlink Frequency (Nd) as ARFCN value 0...16383, step 1
1...100, step 1
UTRA Maximum Allowed Transmit Power -50...33 dBm, step 1 dBm
-24...0 dB, step 1 dB
This parameter specifies the source IP address of TWAMP initiator messages. The TWAMP session must be locked, before its source IP address can be changed.
Both IP address formats can be used.
The parameter "Speed-dependent scaling factor for treselection UTRAN" in TS 36.304. If the field is not present, the UE behaviour is specified in TS 36.304.
The field t-ReselectionUTRA is multiplied by this factor if the UE is in the high mobility state as defined in 36.304.
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
The field t-ReselectionUTRA is multiplied by this factor if the UE is in the medium mobility state as defined in 36.304.
0.25 (0), 0.5 (1), 0.75 (2), 1 (3)
This parameter uniquely identifies an UFFIM (UTRAN FDD Frequency Idle Mode configuration) managed object.
Weight factor of UTRA-FDD carrier frequency used by round robin algorithm for idle mode load balancing.When the parameter is not defined, the corresponding carrier is not used in selecting main target for IdleModeMobilityControlInfo for load balancing. Weighted round robin algorithm shall select always one target frequency for idle
This specifies the minimum required quality level in the cell in dB. It is not applicable to TDD cells or GSM cells or E-UTRA cells.
This specifies the minimum required RX level in the cell in dBm -119...-25 dBm, step 2 dBm
0...7, step 1
0...31 dB, step 1 dB
0...31 dB, step 1 dB
0...62 dB, step 2 dB
0...62 dB, step 2 dB
List of cells belonging to the same uplink comp set. 0...65535, step 1
This parameter uniquely identifies a ULCOMP instance. 0...8, step 1
-20...30 dB, step 1 dB
0 (false), 1 (true)
1...1, step 1
3...7 characters
Absolute priority of the UTRA carrier frequency
Equal priorities between RATs are not supported according to [3GPP 36.304].
This specifies the quality threshold used by the UE when reselecting towards a higher priority UTRA RAT Not recognized by UEs < Rel9
This specifies the quality threshold used by the UE when reselecting towards a lower priority UTRA RAT Not recognized by UEs < Rel9
This specifies the threshold used by the UE when reselecting towards a higher priority frequency X than the current serving frequency
This specifies the threshold used in reselection towards the frequency X priority from a higher priority frequency
Signal-Interference-Noise Ratio to be use for uplink CoMP operation.The received uplink signal from a neighbor cell is combined to the serving cell signal if its SINR is less than ulCoMPSinrThreshold below the SINR of the serving cell signal.Configure and designate EIF2(Outdoor)/EIF5(Indoor) in the BTS as an RP3-01 interface.NOTE: This parameter should be "false" by default for FSM and FSI. This parameter should be "true" by default for FSIH.By default the shared RP3-01/EIF port shall be used as Transport interface for FSM and FSI.The default is RF for FSIH.This parameter holds the slot number of the hardware unit of BTS transport. The value is always 1 (only 1 slot is available).
This parameter shows the hardware type of the installed Transport unit.
Values are:
0...1, step 1
0 (false), 1 (true)
0 (false), 1 (true)
0 (false), 1 (true)
0...20.4 s, step 0.08 s
This parameter specifies the type of the Transport hardware unit that is expected to be installed.
Values are:
471720A (5), 471984A (8), FSM (12), FSI (14), 472311A (16), 472355A (17), 472467A (18), 472621A (19), 472922A Defines the authentication mode. This parameter is sent in the
MobilityParametersCDMA2000 Information Element (IE) in the RRC_CONNECTED mode only when the authIncluded parameter is set to TRUE.
Defines the authentication mode included indicator. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
Defines the CDMA2000 1x Radio Transmission Technology (CDMA2000 1xRTT) band class number associated with this cell.
bc0 (0), bc1 (1), bc2 (2), bc3 (3), bc4 (4), bc5 (5), bc6 (6), bc7 (7), bc8 (8), bc9 (9), bc10 (10), bc11 (11), bc12 (12), bc13 (13), bc14 (14), Defines the Daylight Savings Time (DST) indicator. This
parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in the RRC_CONNECTED mode only when the dayLtIncluded parameter is set to TRUE.
Defines whether the Daylight Savings Time (DST) indicator is included. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in the RRC_CONNECTED mode.
Defines the Initial Fundamental Channel outer loop Eb/Nt setpoint for RC11. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
0...31.875 dB, step 0.125 dB
Defines the Initial Fundamental Channel outer loop Eb/Nt setpoint for RC12. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
0...31.875 dB, step 0.125 dB
Defines the Initial Fundamental Channel outer loop Eb/Nt setpoint for RC3. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
0...31.875 dB, step 0.125 dB
Defines the Initial Fundamental Channel outer loop Eb/Nt setpoint for RC4. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
0...31.875 dB, step 0.125 dB
Defines the Initial Fundamental Channel outer loop Eb/Nt setpoint for RC5. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
0...31.875 dB, step 0.125 dB
Defines the length of time the Inter Working Solution (IWS) waits for an acknowledgment after it sends the GCSNA1xCircuitService message indicating an acknowledgment is required. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in
0...25.5 s, step 0.1 s
0 (false), 1 (true)
0...127, step 1
0 (false), 1 (true)
0...255 s, step 1 s
0 (false), 1 (true)
-12...12 h, step 0.5 h
0 (false), 1 (true)
0...7, step 1
0...999, step 1
6...255, step 1
6...255, step 1
Defines the length of time the UE retains the last received Generic Circuit Services Notification Application (GCSNA) sequence number and IWS_ID. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.Defines whether the homeReg parameter is included in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
Defines the 11th and 12th digits of an International Mobile Subscriber Identity (IMSI).- When an IMSI has 12 or more digits, IMSI_11_12 is equal to the 11th and 12th digits of the IMSI. - When an IMSI has fewer than 12 digits, digits with a value equal to zero are added to the most significant side to obtain a total of 12 digits and the IMSI_11_12 is equal to the 11th and 12th digits of the resulting number.
Defines whether 15-digit IMSI_T addressing is supported. This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
Defines the total number of leap seconds since the start ofCDMA System Time (i.e. since Jan 6, 1980 00:00:00 UTC).This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode only when the lpSecIncluded parameter is set to TRUE.Defines whether the lpSec parameter is included in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
Defines the local time offset from CDMA system time. CDMA system time is based on GPS time. CDMA system time differs from local time by the local time offset and the number of leap seconds by which UTC and GPS time differ. The mobile station calculates the local time using the relation:Defines whether the ltmOff parameter is included in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
Defines the maximum number of alternative service options that the UE is allowed to include in the CDMA2000 1x Radio Transmission Technology (1xRTT) Origination message or in the CDMA2000 1xRTT Page Response message.This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.Defines the 3-digit MCC (Mobile Country Code) of the PLMN for the CDMA2000 1x Radio Transmission Technology (1xRTT) neighbor. A special value 1023 is also defined to correspond to the 3GPP2 escape code.Defines the minimum protocol revision level. This field is set to prevent UEs which cannot be supported by the Inter-Working Solution (IWS) from accessing the system. The eNodeB shall set this field to the minimum protocol revision level that the IWS supports.Defines the Protocol Revision level of the CDMA2000 1xRTT network.This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
1...15, step 1
0 (false), 1 (true)
1...1, step 1
Defines the pilot Pseudo-Random Noise (PN) sequence offset index increment. A UE searches for Remaining Set pilots at pilot PN sequence index values that are multiples of this value.Set this field to the pilot PN sequence increment, in units of 64 PN chips, which UEs use for searching the remaining set. Set this field to the largest increment such that the pilot PN sequence offsets of all neighboring CDMA2000 1x Radio
Defines whether the pilotInc parameter is included in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
Defines the Preferred Access Channel Mobile Station Identifier Type.This parameter is sent in the MobilityParametersCDMA2000 Information Element (IE) in RRC_CONNECTED mode.
IMSISANDESN (0), IMSI (2), IMSIANDESN (3)
This parameter is the naming attribute Of MOC XPARAM.It uniquely identifies a XPARAM instance.
Formula for Getting Internal Value Default Value
internal_value = gui_value
TLS (0)
internal_value = gui_value 389
internal_value = gui_value
true
internal_value = gui_value
internal_value = gui_value -100 dBm
internal_value = gui_value -100 dBm
internal_value = gui_value * 2 -12 dB
internal_value = gui_value 16
gui ==> internalTLS ==> 0TLS_OR_PLAIN_TEXT ==> 1
gui => internalfalse => 0true => 1
internal_value = gui_value 32
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
true
Not defined
allowed (0)
allowed (0)
allowed (0)
internal_value = gui_value 32
Not defined
internal_value = gui_value
gui => internalfalse => 0true => 1
gui ==> internalallowed ==> 0forbidden ==> 1
gui ==> internalallowed ==> 0forbidden ==> 1
gui ==> internalallowed ==> 0forbidden ==> 1
internal_value = gui_value
Not defined
normal (0)
PS and CS (0)
internal_value = gui_value
internal_value = gui_value * 10 0 dB
true
internal_value = gui_value * 10
internal_value = gui_value * 10 -3 dB
internal_value = gui_value
gui ==> internalleft ==> 0right ==> 1
gui ==> internalnormal ==> 0
gui ==> internalPS and CS ==> 0CS only ==> 1
gui => internalfalse => 0true => 1
gui ==> internalANT1 ==> 0ANT2 ==> 1ANT3 ==> 2ANT4 ==> 3
true
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 0 ns
internal_value = gui_value * 10
internal_value = gui_value * 10
false
true
internal_value = gui_value
internal_value = gui_value 3
internal_value = gui_value
gui => internalfalse => 0true => 1
gui ==> internalAutomatic ==> -10 ==> 012 ==> 114.5 ==> 2
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 3784
singleHopBFD (0)
internal_value = gui_value 500
internal_value = gui_value 500
internal_value = gui_value
Not defined
internal_value = gui_value 1
internal_value = gui_value 1 s
internal_value = gui_value 1 s
gui ==> internalsingleHopBFD ==> 0multiHopBFD ==> 1
gui ==> internalFT_3511_No connection to Flexi transport submodule ==> 1003511FT_6150_GTP-U Path Failure ==> 1006150FT_61028_LOF on unit U, interface IF ==> 1061028
false
internal_value = gui_value
internal_value = gui_value
FreqSync (0)
internal_value = gui_value 1
false
false
false
false
false
internal_value = gui_value
gui => internalfalse => 0true => 1
gui ==> internalFreqSync ==> 0PhaseSync ==> 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internal30m ==> 0100m ==> 1300m ==> 2
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
false
false
false
false
internal_value = gui_value 1
internal_value = gui_value * 10 1
false
internal_value = gui_value
internal_value = gui_value
Not defined
false
false
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
true
true
true
internal_value = gui_value
true
true
true
internal_value = gui_value 0
internal_value = gui_value 0
internal_value = gui_value
internal_value = gui_value 0
2min (1)
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internal1min ==> 02min ==> 15min ==> 210min ==> 3
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value * 10
internal_value = gui_value * 10
internal_value = gui_value
Not defined
gui => internalfalse => 0true => 1
gui ==> internal0bc ==> 01bc ==> 12bc ==> 23bc ==> 3
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value * 10
internal_value = gui_value * 10
Not defined
internal_value = gui_value
gui ==> internal0bc ==> 01bc ==> 12bc ==> 23bc ==> 3
gui ==> internalR8ListPartOnly ==> 0R9ExtensionPartPossible ==> 1
R9ExtensionPartPossible (1)
gui ==> internal0bc ==> 01bc ==> 12bc ==> 23bc ==> 3
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
1 (3)
1 (3)
internal_value = gui_value
Not defined
1 (3)
1 (3)
gui ==> internal0bc ==> 01bc ==> 12bc ==> 23bc ==> 3
gui ==> internalR8ListPartOnly ==> 0R9ExtensionPartPossible ==> 1
R9ExtensionPartPossible (1)
gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3
gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Certificate_extension (0)
Not defined
internal_value = gui_value
internal_value = gui_value
gui ==> internalCertificate_extension ==> 0Configuration_parameter ==> 1Extension_and_parameter ==> 2
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Enabled (1)
internal_value = gui_value 30 days
internal_value = gui_value 90 days
gui ==> internalPrimary_Manual ==> 0Secondary_Manual ==> 1Certificate_Extension ==> 2
gui ==> internalFailed ==> 0OK ==> 1
gui ==> internalDisabled ==> 0Enabled ==> 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value pkix
internal_value = gui_value
internal_value = gui_value 1024
internal_value = gui_value 24 h
internal_value = gui_value
0 (0)
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
gui ==> internal0 ==> 010 ==> 1020 ==> 2030 ==> 30
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 1
Not defined
false
true
internal_value = gui_value 60
internal_value = gui_value
internal_value = gui_value 49392
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value 49151
Not defined
Offline (1)
Online (0)
false
Not defined
false
ADMIT_ALL (0)
locked (0)
internal_value = gui_value
internal_value = gui_value 0 0.1%
RT_LINE_RATE (0)
gui ==> internalOnline ==> 0Offline ==> 1
gui ==> internalOnline ==> 0Offline ==> 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internalADMIT_ALL ==> 0ADMIT_TAGGED ==> 1
gui ==> internallocked ==> 0unlocked ==> 1
gui ==> internalRT_LINE_RATE ==> 0RT_1 ==> 1RT_2 ==> 2RT_3 ==> 3
RT_LINE_RATE (0)
Not defined
internal_value = gui_value -1
internal_value = gui_value
false
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 0
internal_value = gui_value 1
AUTODETECT (0)
internal_value = gui_value
internal_value = gui_value
gui ==> internalRT_LINE_RATE ==> 0RT_1 ==> 1RT_2 ==> 2RT_3 ==> 3
gui => internalfalse => 0true => 1
gui ==> internalAUTODETECT ==> 01000MBIT_FULL ==> 1100MBIT_FULL ==> 210MBIT_FULL ==> 3
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 1 s
Not defined
1 (3)
1 (3)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 10 dB
gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3gui ==> internalgsm1800 ==> 0gsm1900 ==> 1
internal_value = gui_value 6 dB
internal_value = gui_value
internal_value = gui_value
0
internal_value = gui_value
internal_value = gui_value -105 dBm
internal_value = gui_value 1
internal_value = gui_value 5
internal_value = gui_value 60 s
internal_value = gui_value 2 s
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
Not defined
internal_value = gui_value
0 dB (15)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internaln4 ==> 0n8 ==> 1n12 ==> 2n16 ==> 3
gui ==> internal-24 dB ==> 0-22 dB ==> 1-20 dB ==> 2-18 dB ==> 3
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 0
internal_value = gui_value 1500 octets
internal_value = gui_value
true
internal_value = gui_value 4000 octets
internal_value = gui_value 4000 octets
internal_value = gui_value 1000000 kbps
internal_value = gui_value 1000000 kbps
TPS_OFF (0)
true
gui => internalfalse => 0true => 1
gui ==> internalTPS_OFF ==> 0TPS_WFQ ==> 1TPS_PATH ==> 2
gui => internalfalse => 0true => 1
internal_value = gui_value 1000
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
false
false
false
false
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 0
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
false
internal_value = gui_value
internal_value = gui_value
true
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 0
gui ==> internalFTP_SERVER_ENABLED ==> 0FTP_SERVER_DISABLED ==> 1
FTP_SERVER_DISABLED (1)
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value
false
off (0)
internal_value = gui_value
internal_value = gui_value 1000 ms
internal_value = gui_value
internal_value = gui_value 0.0.0.0
automatic (0)
noSwitchover (0)
Not defined
internal_value = gui_value
gui => internalfalse => 0true => 1
gui ==> internaloff ==> 0forced ==> 1probing ==> 2
gui ==> internalnone ==> 0primary ==> 1secondary ==> 2
gui ==> internalautomatic ==> 0primaryForced ==> 1secondaryForced ==> 2
gui ==> internalnoSwitchover ==> 0primaryRequested ==> 1secondaryRequested ==> 2
false
false
RATE_10 (1)
internal_value = gui_value 5000
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 10
Not defined
SINGLE (1)
internal_value = gui_value 0.0.0.0
internal_value = gui_value 0.0.0.0
internal_value = gui_value
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internalRATE_1 ==> 0RATE_10 ==> 1
gui ==> internalSINGLE ==> 1RANGE ==> 2WILDCARD ==> 3
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value 0
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 1
internal_value = gui_value
Not defined
internal_value = gui_value 0
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 1
internal_value = gui_value 0.0.0.0
false
exit (0)
internal_value = gui_value 30 seconds
Off (0)
false
internal_value = gui_value
Not defined
true
gui => internalfalse => 0true => 1
gui ==> internalexit ==> 0
gui ==> internalOff ==> 0Standby ==> 1Probing ==> 2Active ==> 3gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
SIZE_256 (2)
internal_value = gui_value 10 seconds
internal_value = gui_value 120 seconds
DH2 (0)
IKE_V2 (1)
BYPASS (2)
internal_value = gui_value
internal_value = gui_value -1
internal_value = gui_value
internal_value = gui_value 0.0.0.0
gui ==> internalSIZE_64 ==> 0SIZE_128 ==> 1SIZE_256 ==> 2
gui ==> internalENC_NULL ==> 0ENC_AES_128_CBC ==> 1ENC_3DES_192_CBC ==> 2ENC_AES_128_CBC_OR_3DES_192_CBC ==> 3
ENC_AES_128_CBC_OR_3DES_192_CBC (3)
gui ==> internalDH2 ==> 0DH14 ==> 1
gui ==> internalENC_AES_128_CBC ==> 1ENC_3DES_192_CBC ==> 2ENC_AES_128_CBC_OR_3DES_192_CBC ==> 3
ENC_AES_128_CBC_OR_3DES_192_CBC (3)
gui ==> internalIKE_V1 ==> 0IKE_V2 ==> 1
gui ==> internalPROTECT ==> 0DISCARD ==> 1BYPASS ==> 2
internal_value = gui_value
internal_value = gui_value -1
internal_value = gui_value
internal_value = gui_value -1
internal_value = gui_value
internal_value = gui_value 0.0.0.0
internal_value = gui_value 86400 seconds
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
gui ==> internaln4 ==> 0n8 ==> 1n12 ==> 2n16 ==> 3
internal_value = gui_value
Not defined
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 10 dB
internal_value = gui_value 6 dB
internal_value = gui_value 1 s
internal_value = gui_value
gui ==> internal-24 dB ==> 0-22 dB ==> 1-20 dB ==> 2-18 dB ==> 3
gui => internalfalse => 0true => 1
internal_value = gui_value
0 dB (15)
internal_value = gui_value
internal_value = gui_value -130 dBm
Not defined
0.5 (1)
0.5 (1)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 0
internal_value = gui_value
gui ==> internal6mbw ==> 015mbw ==> 125mbw ==> 250mbw ==> 3
gui ==> internal-24 dB ==> 0-22 dB ==> 1-20 dB ==> 2-18 dB ==> 3
gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3
false
internal_value = gui_value 4000 octets
internal_value = gui_value 1000000 kbps
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 1000
Not defined
internal_value = gui_value
internal_value = gui_value 4
false
internal_value = gui_value 8
internal_value = gui_value
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value 1
internal_value = gui_value 1
internal_value = gui_value 1
internal_value = gui_value 0
internal_value = gui_value 1
internal_value = gui_value 1
internal_value = gui_value
internal_value = gui_value 4
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 1
internal_value = gui_value 1
DSCP (0)
internal_value = gui_value
false
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
gui ==> internalDSCP ==> 0PCP ==> 1
gui => internalfalse => 0true => 1
gui ==> internalTXRX ==> 0TX ==> 1RX ==> 2
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
oamControlled (0)
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
gui ==> internaloamControlled ==> 0enbControlled ==> 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
false
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internalunavailable ==> 0available ==> 1
gui ==> internaldcs1800 ==> 0pcs1900 ==> 1
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
NC0 (0)
internal_value = gui_value
none (0)
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internalNC0 ==> 0NC1 ==> 1NC2 ==> 2RESET ==> 3gui ==> internaldisabled ==> 0unavailable ==> 1available ==> 2
gui ==> internalnone ==> 0si ==> 1psi ==> 2
gui ==> internalnormal ==> 0extended ==> 1
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internalnormal ==> 0extended ==> 1
gui ==> internal6nrb ==> 015nrb ==> 125nrb ==> 250nrb ==> 3
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
gui ==> internalOM ==> 0UE ==> 1X2 ==> 2
gui ==> internalssp0 ==> 0ssp1 ==> 1ssp2 ==> 2ssp3 ==> 3
gui ==> internal6nrb ==> 015nrb ==> 125nrb ==> 250nrb ==> 3gui ==> internalsa0 ==> 0sa1 ==> 1sa2 ==> 2sa3 ==> 3gui ==> internal6nrb ==> 015nrb ==> 125nrb ==> 250nrb ==> 3
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
PSandCS (0)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internalOM ==> 0UE ==> 1
gui ==> internalPSandCS ==> 0CSonly ==> 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
false
false
false
Disabled (0)
false
gui ==> internalbc0 ==> 0bc1 ==> 1bc2 ==> 2bc3 ==> 3
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internalDisabled ==> 0Enabled ==> 1
gui => internalfalse => 0true => 1
false
true
true
false
false
false
false
false
false
false
false
false
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
false
Disabled (0)
false
false
false
false
false
false
false
false
false
false
gui => internalfalse => 0true => 1
gui ==> internalDisabled ==> 0Enabled ==> 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
false
enabled (1)
false
false
false
false
false
false
false
false
false
false
gui => internalfalse => 0true => 1
gui ==> internaldisabled ==> 0enabled ==> 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
false
false
false
false
false
false
false
false
enabled (1)
false
enabled (1)
true
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internaldisabled ==> 0enabled ==> 1
gui => internalfalse => 0true => 1
gui ==> internaldisabled ==> 0enabled ==> 1
gui => internalfalse => 0true => 1
false
false
false
false
false
false
false
false
false
false
Not defined
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
25kB (0)
internal_value = gui_value 1
50kB (1)
Not defined
125kB (4)
internal_value = gui_value 2
250kB (5)
Not defined
250kB (5)
internal_value = gui_value 3
500kB (7)
Not defined
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
250kB (5)
internal_value = gui_value 4
750kB (8)
Not defined
375kB (6)
internal_value = gui_value 5
1000kB (9)
internal_value = gui_value 1000 ms
true
middle (3)
Not defined
internal_value = gui_value
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
gui ==> internal25kB ==> 050kB ==> 175kB ==> 2100kB ==> 3
gui => internalfalse => 0true => 1
gui ==> internalnone ==> 0very low ==> 1low ==> 2middle ==> 3
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 512 kbps
Not defined
internal_value = gui_value 1
internal_value = gui_value 9
internal_value = gui_value 9
internal_value = gui_value 8
qciPrio (0)
internal_value = gui_value 2
internal_value = gui_value 104
gui ==> internalqciPrio ==> 0arpPrioPerVul ==> 1
Enabled (1)
Enabled (1)
internal_value = gui_value
internal_value = gui_value 60 s
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value 1
internal_value = gui_value 1
gui ==> internalDisabled ==> 0Enabled ==> 1
gui ==> internalDisabled ==> 0Enabled ==> 1
Not defined
true
false
internal_value = gui_value 1
false
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value 0
internal_value = gui_value 9
internal_value = gui_value 9
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value 8
internal_value = gui_value 50000
internal_value = gui_value
internal_value = gui_value 256
internal_value = gui_value 20
internal_value = gui_value 64
internal_value = gui_value 60
internal_value = gui_value
internal_value = gui_value 24 h
internal_value = gui_value
internal_value = gui_value
spid (1)gui ==> internalplmn ==> 0spid ==> 1
internal_value = gui_value 3
true
initializing (0)
internal_value = gui_value 500 ms
Not defined
true
true
8kBps (1)
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui => internalfalse => 0true => 1
gui ==> internalinitializing ==> 0commissioned ==> 1notCommisioned ==> 2configured ==> 3
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internal0kBps ==> 08kBps ==> 116kBps ==> 232kBps ==> 3
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value 1
3
infinity (4)
Not defined
internal_value = gui_value 101
internal_value = gui_value 4
7bit (0)
gui ==> internal300ms ==> 0500ms ==> 1750ms ==> 21500ms ==> 3
gui ==> internal7bit ==> 012bit ==> 1
100ms (0)
Not defined
internal_value = gui_value 102
7bit (0)
150ms (1)
Not defined
internal_value = gui_value 103
12bit (1)
100ms (1)
Not defined
internal_value = gui_value 104
12bit (1)
gui ==> internal100ms ==> 0150ms ==> 1300ms ==> 2500ms ==> 3
gui ==> internal7bit ==> 012bit ==> 1
gui ==> internal100ms ==> 0150ms ==> 1300ms ==> 2500ms ==> 3
gui ==> internal7bit ==> 012bit ==> 1
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
gui ==> internal7bit ==> 012bit ==> 1
500ms (1)
Not defined
internal_value = gui_value 2
3
750ms (2)
Not defined
internal_value = gui_value 3
3
750ms (2)
Not defined
internal_value = gui_value 4
3
gui ==> internal300ms ==> 0500ms ==> 1750ms ==> 21500ms ==> 3
gui ==> internal300ms ==> 0500ms ==> 1750ms ==> 21500ms ==> 3
gui ==> internal300ms ==> 0500ms ==> 1750ms ==> 21500ms ==> 3
750ms (2)
Not defined
internal_value = gui_value 5
3
750ms (2)
all equal (0)
10s (10)
false
Not defined
80ms (80)
2 (2)
gui ==> internal300ms ==> 0500ms ==> 1750ms ==> 21500ms ==> 3
gui ==> internal300ms ==> 0500ms ==> 1750ms ==> 21500ms ==> 3gui ==> internalall equal ==> 0intra eNB HO prior inter eNB HO ==> 1intra prior X2 prior S1 ==> 2low prio S1 ==> 3gui ==> internal1s ==> 12s ==> 25s ==> 510s ==> 10gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internal50ms ==> 5060ms ==> 6070ms ==> 7080ms ==> 80gui ==> internal1 ==> 12 ==> 2
internal_value = gui_value 46
true
internal_value = gui_value 1
internal_value = gui_value 31 kbps
internal_value = gui_value 31 kbps
internal_value = gui_value 101
internal_value = gui_value 2
internal_value = gui_value 1
ENABLE (1)
GBR (0)
RLC_UM (1)
internal_value = gui_value 101
gui => internalfalse => 0true => 1
gui ==> internalDISABLE ==> 0ENABLE ==> 1
gui ==> internalGBR ==> 0
gui ==> internalRLC_UM ==> 1
100ms (1)
internal_value = gui_value 5
Not defined
80ms (80)
2 (2)
internal_value = gui_value 26
false
internal_value = gui_value 16 %
internal_value = gui_value 35 %
2 (2)
internal_value = gui_value 144 kbps
internal_value = gui_value 144 kbps
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
gui ==> internal50ms ==> 5060ms ==> 6070ms ==> 7080ms ==> 80gui ==> internal1 ==> 12 ==> 23 ==> 3
gui => internalfalse => 0true => 1
gui ==> internal1 ==> 12 ==> 2
internal_value = gui_value 102
internal_value = gui_value 4
internal_value = gui_value 2
ENABLE (1)
GBR (0)
RLC_UM (1)
internal_value = gui_value 102
100ms (1)
internal_value = gui_value 7
Not defined
80ms (80)
2 (2)
gui ==> internalDISABLE ==> 0ENABLE ==> 1
gui ==> internalGBR ==> 0
gui ==> internalRLC_UM ==> 1
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
gui ==> internal50ms ==> 5060ms ==> 6070ms ==> 7080ms ==> 80gui ==> internal1 ==> 12 ==> 23 ==> 3
internal_value = gui_value 46
false
internal_value = gui_value 16 %
internal_value = gui_value 35 %
2 (2)
internal_value = gui_value 128 kbps
internal_value = gui_value 64 kbps
internal_value = gui_value 103
internal_value = gui_value 3
internal_value = gui_value 3
ENABLE (1)
GBR (0)
gui => internalfalse => 0true => 1
gui ==> internal1 ==> 12 ==> 2
gui ==> internalDISABLE ==> 0ENABLE ==> 1
gui ==> internalGBR ==> 0
RLC_UM (1)
internal_value = gui_value 103
100ms (1)
internal_value = gui_value 6
Not defined
300ms (300)
2 (2)
internal_value = gui_value 28
false
internal_value = gui_value 16 %
internal_value = gui_value 35 %
2 (2)
gui ==> internalRLC_UM ==> 1
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
gui ==> internal150ms ==> 150200ms ==> 200250ms ==> 250300ms ==> 300gui ==> internal1 ==> 12 ==> 23 ==> 3
gui => internalfalse => 0true => 1
gui ==> internal2 ==> 23 ==> 3
internal_value = gui_value 320 kbps
internal_value = gui_value 32 kbps
internal_value = gui_value 2
internal_value = gui_value 5
internal_value = gui_value 4
ENABLE (1)
GBR (0)
RLC_AM (0)
internal_value = gui_value 2
300ms (3)
internal_value = gui_value 8
Not defined
gui ==> internalDISABLE ==> 0ENABLE ==> 1
gui ==> internalGBR ==> 0
gui ==> internalRLC_AM ==> 0RLC_UM ==> 1
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
3 (3)
internal_value = gui_value 34
false
3 (3)
internal_value = gui_value 1
internal_value = gui_value 1
internal_value = gui_value 5
ENABLE (1)
nonGBR (1)
RLC_AM (0)
internal_value = gui_value 1
100ms (1)
gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4
gui => internalfalse => 0true => 1
gui ==> internal0 ==> 02 ==> 23 ==> 3
gui ==> internalDISABLE ==> 0ENABLE ==> 1
gui ==> internalnonGBR ==> 1
gui ==> internalRLC_AM ==> 0
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
internal_value = gui_value 9
NON-GBR (1)
internal_value = gui_value 40
Not defined
3 (3)
internal_value = gui_value 18
false
3 (3)
internal_value = gui_value 2
internal_value = gui_value 6
internal_value = gui_value 6
ENABLE (1)
gui ==> internalSIGNALLING ==> 0NON-GBR ==> 1
gui ==> internal1 ==> 13 ==> 34 ==> 45 ==> 5
gui => internalfalse => 0true => 1
gui ==> internal2 ==> 23 ==> 3
gui ==> internalDISABLE ==> 0ENABLE ==> 1
nonGBR (1)
RLC_AM (0)
internal_value = gui_value 2
300ms (3)
internal_value = gui_value 9
internal_value = gui_value 20
Not defined
3 (3)
internal_value = gui_value 20
false
3 (3)
internal_value = gui_value 2
gui ==> internalnonGBR ==> 1
gui ==> internalRLC_AM ==> 0
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
gui ==> internal1 ==> 13 ==> 34 ==> 45 ==> 5
gui => internalfalse => 0true => 1
gui ==> internal2 ==> 23 ==> 3
internal_value = gui_value 7
internal_value = gui_value 7
ENABLE (1)
nonGBR (1)
RLC_AM (0)
internal_value = gui_value 2
100ms (1)
internal_value = gui_value 10
internal_value = gui_value 10
Not defined
3 (3)
internal_value = gui_value 10
gui ==> internalDISABLE ==> 0ENABLE ==> 1
gui ==> internalnonGBR ==> 1
gui ==> internalRLC_AM ==> 0
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
gui ==> internal1 ==> 13 ==> 34 ==> 45 ==> 5
false
3 (3)
internal_value = gui_value 2
internal_value = gui_value 8
internal_value = gui_value 8
ENABLE (1)
nonGBR (1)
RLC_AM (0)
internal_value = gui_value 2
300ms (3)
internal_value = gui_value 11
internal_value = gui_value 5
gui => internalfalse => 0true => 1
gui ==> internal2 ==> 23 ==> 3
gui ==> internalDISABLE ==> 0ENABLE ==> 1
gui ==> internalnonGBR ==> 1
gui ==> internalRLC_AM ==> 0
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
Not defined
3 (3)
internal_value = gui_value 0
false
3 (3)
internal_value = gui_value 2
internal_value = gui_value 9
internal_value = gui_value 9
ENABLE (1)
nonGBR (1)
RLC_AM (0)
internal_value = gui_value 2
gui ==> internal1 ==> 13 ==> 34 ==> 45 ==> 5
gui => internalfalse => 0true => 1
gui ==> internal2 ==> 23 ==> 3
gui ==> internalDISABLE ==> 0ENABLE ==> 1
gui ==> internalnonGBR ==> 1
gui ==> internalRLC_AM ==> 0
300ms (3)
internal_value = gui_value 12
internal_value = gui_value 1
Not defined
internal_value = gui_value
300ms (300)
internal_value = gui_value
false
internal_value = gui_value 16 %
internal_value = gui_value 35 %
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
gui ==> internal50ms ==> 5060ms ==> 6070ms ==> 7080ms ==> 80gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4
gui => internalfalse => 0true => 1
gui ==> internal1 ==> 12 ==> 23 ==> 3
internal_value = gui_value 128 kbps
internal_value = gui_value 64 kbps
internal_value = gui_value
internal_value = gui_value 3
internal_value = gui_value
ENABLE (1)
nonGBR (1)
RLC_AM (0)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internalDISABLE ==> 0ENABLE ==> 1
gui ==> internalGBR ==> 0nonGBR ==> 1
gui ==> internalRLC_AM ==> 0RLC_UM ==> 1
gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2300ms ==> 3
contentionBased (0)
internal_value = gui_value 0 s
Not defined
infinity (7)
internal_value = gui_value 1
120ms (23)
50ms (10)
50ms (10)
Not defined
internal_value = gui_value 101
5bit (0)
gui ==> internalcontentionBased ==> 0nonContentionBased ==> 1
gui ==> internaloff ==> 0rfMaster ==> 1rfShared ==> 2
gui ==> internal4 ==> 08 ==> 116 ==> 232 ==> 3
gui ==> internal5ms ==> 010ms ==> 115ms ==> 220ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3
gui ==> internal5bit ==> 010bit ==> 1
5bit (0)
50ms (10)
Not defined
internal_value = gui_value 102
5bit (0)
5bit (0)
50ms (10)
Not defined
internal_value = gui_value 103
10bit (1)
10bit (1)
50ms (10)
gui ==> internal5bit ==> 010bit ==> 1
gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3
gui ==> internal5bit ==> 010bit ==> 1
gui ==> internal5bit ==> 010bit ==> 1
gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3
gui ==> internal5bit ==> 010bit ==> 1
gui ==> internal5bit ==> 010bit ==> 1
gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3
Not defined
internal_value = gui_value 104
10bit (1)
5bit (0)
50ms (10)
Not defined
64 (4)
internal_value = gui_value 2
120ms (23)
50ms (10)
50ms (10)
Not defined
gui ==> internal5bit ==> 010bit ==> 1
gui ==> internal5bit ==> 010bit ==> 1
gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3
gui ==> internal4 ==> 08 ==> 116 ==> 232 ==> 3
gui ==> internal5ms ==> 010ms ==> 115ms ==> 220ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3
64 (4)
internal_value = gui_value 3
120ms (23)
50ms (10)
50ms (10)
Not defined
64 (4)
internal_value = gui_value 4
120ms (23)
50ms (10)
50ms (10)
Not defined
gui ==> internal4 ==> 08 ==> 116 ==> 232 ==> 3
gui ==> internal5ms ==> 010ms ==> 115ms ==> 220ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3
gui ==> internal4 ==> 08 ==> 116 ==> 232 ==> 3
gui ==> internal5ms ==> 010ms ==> 115ms ==> 220ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3
64 (4)
internal_value = gui_value 5
120ms (23)
50ms (10)
50ms (10)
internal_value = gui_value 900 s
2s (2)
nonGBRBufferBased (0)
rf128 (6)
conservative (0)
internal_value = gui_value 6
internal_value = gui_value 60
gui ==> internal4 ==> 08 ==> 116 ==> 232 ==> 3
gui ==> internal5ms ==> 010ms ==> 115ms ==> 220ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3gui ==> internal0ms ==> 05ms ==> 110ms ==> 215ms ==> 3
gui ==> internal0.5s ==> 01s ==> 12s ==> 24s ==> 3gui ==> internalnonGBRBufferBased ==> 0blind ==> 1
gui ==> internalrf2 ==> 0rf4 ==> 1rf8 ==> 2rf16 ==> 3gui ==> internalconservative ==> 0aggressive ==> 1
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 150 min
internal_value = gui_value 150 min
internal_value = gui_value 5 s
internal_value = gui_value 1000 ms
internal_value = gui_value 500 ms
internal_value = gui_value 2000 ms
internal_value = gui_value 10 ms
internal_value = gui_value 10 ms
gui ==> internal128 ==> 128256 ==> 256
internal_value = gui_value 100 ms
false
keepCellInService (0)
internal_value = gui_value -70 dBm
errorIndication (1)
480ms (9)
320ms (8)
480ms (9)
480ms (9)
320ms (8)
256ms (7)
internal_value = gui_value * 2 3 dB
gui => internalfalse => 0true => 1
gui ==> internalkeepCellInService ==> 0disableCell ==> 1
gui ==> internalerrorIndication ==> 1supported ==> 2notSupported ==> 3
gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3
640ms (3)
320ms (8)
640ms (3)
320ms (8)
Not defined
0
Not defined
0
gui ==> internal120ms ==> 0240ms ==> 1480ms ==> 2640ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3gui ==> internal120ms ==> 0240ms ==> 1480ms ==> 2640ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3
gui ==> internal4s ==> 08s ==> 116s ==> 232s ==> 3gui ==> internal0% ==> 05% ==> 110% ==> 215% ==> 3
gui ==> internal4s ==> 08s ==> 116s ==> 232s ==> 3gui ==> internal0% ==> 05% ==> 110% ==> 215% ==> 3
Not defined
0
Not defined
0
Not defined
0
gui ==> internal4s ==> 08s ==> 116s ==> 232s ==> 3gui ==> internal0% ==> 05% ==> 110% ==> 215% ==> 3
gui ==> internal4s ==> 08s ==> 116s ==> 232s ==> 3gui ==> internal0% ==> 05% ==> 110% ==> 215% ==> 3
gui ==> internal4s ==> 08s ==> 116s ==> 232s ==> 3gui ==> internal0% ==> 05% ==> 110% ==> 215% ==> 3
true
true
false
false
false
QPSK (0)
false
true
false
false
false
none (0)
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internalQPSK ==> 016QAM ==> 116QAMHighMCS ==> 2
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internalnone ==> 0Dedicated ==> 1Coupled ==> 2
false
false
false
false
false
eUlLa (5)
PuschOLPucchOL (0)
internal_value = gui_value 15
internal_value = gui_value 20
internal_value = gui_value 70
internal_value = gui_value 5 %
internal_value = gui_value 10 %
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internaloff ==> 0slowAmcOllaATB ==> 4eUlLa ==> 5fUlLa ==> 6gui ==> internalPuschOLPucchOL ==> 0PuschOLPucchCL ==> 1PuschCLPucchOL ==> 2PuschCLPucchCL ==> 3
internal_value = gui_value 35
internal_value = gui_value 60
internal_value = gui_value 15
internal_value = gui_value 20
internal_value = gui_value 1
locked (3)
internal_value = (gui_value + 115) -67 dBm
extendedDrxOnly (0)
Not defined
allEqual (0)
internal_value = gui_value 65536
gui ==> internalunlocked ==> 1shutting down ==> 2locked ==> 3
gui ==> internalextendedDrxOnly ==> 0allDrx ==> 1allUEs ==> 2
gui ==> internalallEqual ==> 0onlyX2 ==> 1
gui ==> internaln4 ==> 0n8 ==> 1n12 ==> 2n16 ==> 3
internal_value = gui_value
internal_value = gui_value 0
Not defined
internal_value = gui_value 1000 ms
internal_value = gui_value 5000 ms
internal_value = gui_value 7000 ms
internal_value = gui_value 1000 ms
Not defined
0.5 (1)
0.5 (1)
notBarred (1)
internal_value = gui_value 100
gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3gui ==> internalbarred ==> 0notBarred ==> 1
0dB (15)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
none (0)
Not defined
internal_value = gui_value
internal_value = gui_value
20ms (2)
large (3)
true
gui ==> internal-24dB ==> 0-22dB ==> 1-20dB ==> 2-18dB ==> 3
gui ==> internalnone ==> 0DLonly ==> 1DLandUL ==> 2
gui ==> internal5ms ==> 010ms ==> 120ms ==> 240ms ==> 3gui ==> internalvery_small ==> 0small ==> 1medium ==> 2large ==> 3gui => internalfalse => 0true => 1
FBT2 (1)
40ms (40)
internal_value = gui_value 1
true
Not defined
0 (1)
1 (0)
0 (1)
0 (1)
0 (1)
64n (4)
128rf (2)
gui ==> internalFBT1 ==> 0FBT2 ==> 1
gui ==> internal2ms ==> 25ms ==> 510ms ==> 1020ms ==> 20
gui => internalfalse => 0true => 1
gui ==> internal-2 ==> 00 ==> 12 ==> 2
gui ==> internal1 ==> 03 ==> 15 ==> 2
gui ==> internal-2 ==> 00 ==> 11 ==> 22 ==> 3gui ==> internal-2 ==> 00 ==> 12 ==> 2
gui ==> internal-2 ==> 00 ==> 12 ==> 2
gui ==> internal4n ==> 08n ==> 116n ==> 232n ==> 3gui ==> internal32rf ==> 064rf ==> 1128rf ==> 2256rf ==> 3
internal_value = gui_value 0 dB
internal_value = gui_value 1
internal_value = gui_value 2
false
false
internal_value = gui_value * 10 0 dB
10 MHz (100)
false
internal_value = gui_value 0 %
QPSK (0)
TXDiv (10)
true
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internal1.4 MHz ==> 143 MHz ==> 305 MHz ==> 5010 MHz ==> 100gui => internalfalse => 0true => 1
gui ==> internalQPSK ==> 016QAM ==> 164QAM ==> 2
gui ==> internalSingleTX ==> 0TXDiv ==> 104-way TXDiv ==> 11Dynamic Open Loop MIMO ==> 30gui => internalfalse => 0true => 1
3 db (1)
internal_value = gui_value * 10 0 dB
internal_value = gui_value * 10 0 dB
0dB (0)
internal_value = gui_value * 10 10 %
internal_value = gui_value 2
true
internal_value = gui_value * 100 0 dB
DCI format 1C (0)
PFsch (1)
internal_value = gui_value * 100 0.98
gui ==> internal1 db ==> 03 db ==> 16 db ==> 2infinite ==> 3
gui ==> internal0dB ==> 01.77dB ==> 13dB ==> 24.77dB ==> 3
gui => internalfalse => 0true => 1
gui ==> internalDCI format 1C ==> 0
gui ==> internalTTA ==> 0PFsch ==> 1
gui ==> internalnot used ==> 0PRBs with PSS or SSS used ==> 1PRBs with PSS or SSS and PBCH used ==> 2
PRBs with PSS or SSS and PBCH used (2)
true
Not defined
1 (1)
internal_value = gui_value 45
Not defined
200 (200)
160ms (160)
6 (6)
101 (101)
internal_value = gui_value 30
4 (4)
Not defined
gui => internalfalse => 0true => 1
gui ==> internal1 ==> 1
gui ==> internal10 ==> 1020 ==> 2030 ==> 3040 ==> 40gui ==> internal40ms ==> 4080ms ==> 80160ms ==> 160
gui ==> internal6 ==> 68 ==> 810 ==> 1020 ==> 20gui ==> internal101 ==> 101
gui ==> internal4 ==> 46 ==> 68 ==> 816 ==> 16
2560 (2560)
1280ms (1280)
10 (10)
102 (102)
internal_value = gui_value 30
16 (16)
Not defined
10 (10)
160ms (160)
6 (6)
103 (103)
internal_value = gui_value 30
gui ==> internal750 ==> 7501280 ==> 12801920 ==> 19202560 ==> 2560gui ==> internal320ms ==> 320640ms ==> 6401280ms ==> 12802560ms ==> 2560gui ==> internal10 ==> 1020 ==> 2030 ==> 3040 ==> 40gui ==> internal102 ==> 102
gui ==> internal4 ==> 46 ==> 68 ==> 816 ==> 16
gui ==> internal10 ==> 1020 ==> 2030 ==> 3040 ==> 40gui ==> internal40ms ==> 4080ms ==> 80160ms ==> 160320ms ==> 320gui ==> internal6 ==> 610 ==> 1020 ==> 2030 ==> 30gui ==> internal103 ==> 103
16 (16)
Not defined
4 (4)
40ms (40)
6 (6)
2 (2)
internal_value = gui_value 40
4 (4)
Not defined
10 (10)
80ms (80)
6 (6)
gui ==> internal4 ==> 46 ==> 68 ==> 816 ==> 16
gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4gui ==> internal20ms ==> 2040ms ==> 40
gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4gui ==> internal2 ==> 2
gui ==> internal1 ==> 12 ==> 24 ==> 46 ==> 6
gui ==> internal10 ==> 1020 ==> 2030 ==> 3040 ==> 40gui ==> internal40ms ==> 4080ms ==> 80
gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4
3 (3)
internal_value = gui_value 30
4 (4)
Not defined
500 (500)
320ms (320)
10 (10)
4 (4)
internal_value = gui_value 20
16 (16)
Not defined
2560 (2560)
gui ==> internal3 ==> 3
gui ==> internal1 ==> 12 ==> 24 ==> 46 ==> 6
gui ==> internal200 ==> 200300 ==> 300500 ==> 500750 ==> 750gui ==> internal160ms ==> 160320ms ==> 320
gui ==> internal10 ==> 1020 ==> 2030 ==> 3040 ==> 40gui ==> internal4 ==> 4
gui ==> internal4 ==> 46 ==> 68 ==> 816 ==> 16
gui ==> internal750 ==> 7501280 ==> 12801920 ==> 19202560 ==> 2560
2560ms (2560)
10 (10)
5 (5)
internal_value = gui_value 10
16 (16)
Not defined
4 (4)
40ms (40)
6 (6)
2 (2)
internal_value = gui_value 40
4 (4)
gui ==> internal640ms ==> 6401280ms ==> 12802560ms ==> 2560
gui ==> internal10 ==> 1020 ==> 2030 ==> 3040 ==> 40gui ==> internal5 ==> 5
gui ==> internal4 ==> 46 ==> 68 ==> 816 ==> 16
gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4gui ==> internal20ms ==> 2040ms ==> 40
gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4gui ==> internal2 ==> 2
gui ==> internal1 ==> 12 ==> 24 ==> 46 ==> 6
40ms (40)
internal_value = gui_value 1
internal_value = gui_value 124
Not defined
10 (10)
80ms (80)
6 (6)
3 (3)
internal_value = gui_value 30
4 (4)
40ms (40)
internal_value = gui_value 5
gui ==> internal10ms ==> 1020ms ==> 2040ms ==> 40
gui ==> internal10 ==> 1020 ==> 2030 ==> 3040 ==> 40gui ==> internal40ms ==> 4080ms ==> 80
gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4gui ==> internal3 ==> 3
gui ==> internal1 ==> 12 ==> 24 ==> 46 ==> 6gui ==> internal20ms ==> 2040ms ==> 40
internal_value = gui_value 6
Not defined
50 (50)
320ms (320)
10 (10)
4 (4)
internal_value = gui_value 20
16 (16)
80ms (80)
internal_value = gui_value 4
internal_value = gui_value 4
Not defined
gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4gui ==> internal160ms ==> 160320ms ==> 320
gui ==> internal10 ==> 1020 ==> 2030 ==> 3040 ==> 40gui ==> internal4 ==> 4
gui ==> internal4 ==> 46 ==> 68 ==> 816 ==> 16gui ==> internal10ms ==> 1020ms ==> 2040ms ==> 4080ms ==> 80
50 (50)
2560ms (2560)
10 (10)
5 (5)
internal_value = gui_value 10
16 (16)
80ms (80)
internal_value = gui_value 16
internal_value = gui_value 32
Not defined
internal_value = gui_value 1
gui ==> internal1 ==> 12 ==> 23 ==> 34 ==> 4gui ==> internal640ms ==> 6401280ms ==> 12802560ms ==> 2560
gui ==> internal10 ==> 1020 ==> 2030 ==> 3040 ==> 40gui ==> internal5 ==> 5
gui ==> internal4 ==> 46 ==> 68 ==> 816 ==> 16gui ==> internal10ms ==> 1020ms ==> 2040ms ==> 4080ms ==> 80
gui ==> internalbarred ==> 1Not barred ==> 2
internal_value = gui_value
internal_value = gui_value 30
internal_value = gui_value 30
internal_value = gui_value 3
internal_value = gui_value 1
internal_value = gui_value 1
internal_value = gui_value * 20 0.8
internal_value = gui_value 0
internal_value = gui_value 18000
internal_value = gui_value
true
true
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
true
true
false
true
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value 0 %
internal_value = gui_value
internal_value = gui_value
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internalheight ==> 1depth ==> 2
gui ==> internalnorth ==> 1south ==> 2
internal_value = gui_value 0 degree
internal_value = gui_value 0
internal_value = gui_value 0
internal_value = gui_value 0
internal_value = gui_value -2
internal_value = gui_value
fc4 (4)
fc4 (4)
fc4 (4)
fc4 (4)
fc4 (4)
fc4 (4)
gui ==> internalfc0 ==> 0fc1 ==> 1fc2 ==> 2fc3 ==> 3gui ==> internalfc0 ==> 0fc1 ==> 1fc2 ==> 2fc3 ==> 3gui ==> internalfc0 ==> 0fc1 ==> 1fc2 ==> 2fc3 ==> 3gui ==> internalfc0 ==> 0fc1 ==> 1fc2 ==> 2fc3 ==> 3gui ==> internalfc0 ==> 0fc1 ==> 1fc2 ==> 2fc3 ==> 3gui ==> internalfc0 ==> 0fc1 ==> 1fc2 ==> 2fc3 ==> 3
fc4 (4)
fc2 (2)
Not defined
Not Reserved (0)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
none (0)
internal_value = gui_value 0
internal_value = gui_value 5
internal_value = gui_value 5
internal_value = gui_value 5
gui ==> internalfc0 ==> 0fc1 ==> 1fc2 ==> 2fc3 ==> 3gui ==> internalfc0 ==> 0fc1 ==> 1fc2 ==> 2fc3 ==> 3
gui ==> internalNot Reserved ==> 0Reserved ==> 1
gui ==> internalnone ==> 0l2only ==> 1l2andl3 ==> 2
internal_value = gui_value 12
interSubFrame (0)
Not defined
internal_value = gui_value 7000 ms
internal_value = gui_value 5000 ms
internal_value = gui_value 1000 ms
internal_value = gui_value * 2 0 dB
internal_value = gui_value * 2 0 dB
internal_value = gui_value * 2 0 dB
internal_value = gui_value * 2 0 dB
internal_value = gui_value * 2 0 dB
gui ==> internalinterSubFrame ==> 0
gui ==> internalscenario1 ==> 1scenario 3 ==> 3
internal_value = gui_value * 2 2 dB
internal_value = gui_value * 2 0 dB
internal_value = gui_value * 2 0 dB
Not defined
internal_value = gui_value 12 s
internal_value = gui_value 60 %
internal_value = gui_value 85 %
internal_value = gui_value 80 %
1 (1000)
internal_value = gui_value 60 s
internal_value = gui_value 50 %
internal_value = gui_value 75 %
gui ==> internal0.001 ==> 10.002 ==> 20.005 ==> 50.01 ==> 10
internal_value = gui_value 50 %
internal_value = gui_value
internal_value = gui_value 0 %
internal_value = gui_value 5 ms
internal_value = gui_value 30 s
internal_value = gui_value 4
internal_value = gui_value 5
internal_value = gui_value 10
allowed (0)
internal_value = gui_value 1
internal_value = gui_value
gui ==> internalallowed ==> 0notAllowed ==> 1
gui => internalfalse => 0true => 1
medium (1)
internal_value = gui_value -10 dB
internal_value = gui_value 170000 kbps
internal_value = gui_value 60000 kbps
internal_value = gui_value * 100 0.12
internal_value = gui_value * 100 0.12
internal_value = gui_value * 100 0.12
internal_value = gui_value * 100 0.26
internal_value = gui_value 75 %
internal_value = gui_value 3
internal_value = gui_value 600
internal_value = gui_value 300
gui ==> internalslow ==> 0medium ==> 1fast ==> 2
internal_value = gui_value 50
internal_value = gui_value 100
internal_value = gui_value 300
internal_value = gui_value 440
internal_value = gui_value 14
internal_value = gui_value 14
ueCapability (0)
cpichRSCP (0)
cpichRSCP (0)
Not defined
internal_value = gui_value * 10 7
gui ==> internalueCapability ==> 0OaM ==> 1
gui ==> internalcpichRSCP ==> 0cpichEcN0 ==> 1
gui ==> internalcpichRSCP ==> 0cpichEcN0 ==> 1
internal_value = gui_value * 10 8
internal_value = gui_value * 20 1.4
internal_value = gui_value * 20 1.6
Not defined
internal_value = gui_value * 10 7
internal_value = gui_value * 10 8
internal_value = gui_value * 20 1.4
internal_value = gui_value * 20 1.6
internal_value = gui_value 30 kbps
internal_value = gui_value 30 kbps
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 10
internal_value = gui_value 5
30s (0)
30s (0)
2 (0)
internal_value = gui_value 36
n10 (6)
n1 (0)
internal_value = gui_value 2
0dB (15)
gui ==> internal30s ==> 060s ==> 1120s ==> 2180s ==> 3gui ==> internal30s ==> 060s ==> 1120s ==> 2180s ==> 3gui ==> internal2 ==> 04 ==> 18 ==> 216 ==> 3
gui ==> internaln1 ==> 0n2 ==> 1n3 ==> 2n4 ==> 3gui ==> internaln1 ==> 0n2 ==> 1n3 ==> 2n4 ==> 3
gui ==> internal-24dB ==> 0-22dB ==> 1-20dB ==> 2-18dB ==> 3
disabled (0)
internal_value = gui_value -116 dBm
internal_value = gui_value -80 dBm
internal_value = gui_value * 10
internal_value = gui_value
internal_value = gui_value
quarterT (4)
4 (2)
internal_value = gui_value 4
internal_value = gui_value 4
internal_value = gui_value 4
internal_value = gui_value 4
gui ==> internaldisabled ==> 0enabled ==> 1
gui ==> internaloneT ==> 2halfT ==> 3quarterT ==> 4oneEighthT ==> 5gui ==> internal1 ==> 02 ==> 14 ==> 28 ==> 3
internal_value = gui_value 4
internal_value = gui_value * 20 0.8
internal_value = gui_value * 10 -5
internal_value = gui_value * 10 1 %
internal_value = gui_value * 20 0.5
wideband (0)
Not defined
false
periodicIntraFreq (0)
32 (32)
10240ms (8)
Normal (0)
gui ==> internalwideband ==> 0UE_selected ==> 1
gui => internalfalse => 0true => 1
gui ==> internalperiodicIntraFreq ==> 0
gui ==> internal1 ==> 12 ==> 24 ==> 48 ==> 8gui ==> internal120ms ==> 1240ms ==> 2480ms ==> 3640ms ==> 4gui ==> internalNormal ==> 0Extended ==> 1
N = 1/6 (0)
internal_value = gui_value
internal_value = gui_value 12
internal_value = gui_value 3
internal_value = gui_value
false
2dB (1)
10 (6)
Not Reserved (0)
151 (151)
Not defined
gui ==> internalN = 1/6 ==> 0N = 1/2 ==> 1N = 1 ==> 2N = 2 ==> 3
gui => internalfalse => 0true => 1
gui ==> internal0dB ==> 02dB ==> 14dB ==> 26dB ==> 3gui ==> internal3 ==> 04 ==> 15 ==> 26 ==> 3gui ==> internalNot Reserved ==> 0Reserved ==> 1
gui ==> internal6 PRB ==> 615 PRB ==> 1525 PRB ==> 2550 PRB ==> 50gui ==> internal151 ==> 151152 ==> 152153 ==> 153156 ==> 156
0
internal_value = gui_value 1
internal_value = gui_value * 100 0 dB
internal_value = gui_value 0
internal_value = gui_value 10
internal_value = gui_value 8
internal_value = gui_value 10
2dB (2)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value -130 dBm
gui ==> internal2 bits ==> 24 bits ==> 48 bits ==> 816 bits ==> 16
gui ==> internal0dB ==> 01dB ==> 12dB ==> 23dB ==> 3
internal_value = gui_value
64ms (7)
internal_value = gui_value 5
10 dB (4)
40 (9)
32 (7)
10 (7)
internal_value = gui_value 5
144 bits (1)
internal_value = gui_value
internal_value = gui_value * 100 1.03
internal_value = gui_value * 100 1.02
gui ==> internal8ms ==> 016ms ==> 124ms ==> 232ms ==> 3
gui ==> internal-infinity ==> 00 dB ==> 15 dB ==> 28 dB ==> 3gui ==> internal4 ==> 08 ==> 112 ==> 216 ==> 3gui ==> internal4 ==> 08 ==> 112 ==> 216 ==> 3gui ==> internal2 ==> 03 ==> 14 ==> 25 ==> 3
gui ==> internal56 bits ==> 0144 bits ==> 1208 bits ==> 2256 bits ==> 3
false
false
false
internal_value = gui_value 50 PRB
Not defined
internal_value = gui_value 50 PRB
internal_value = gui_value 1 PRB
false
false
2 (1)
internal_value = gui_value 0
internal_value = gui_value
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internal1 ==> 02 ==> 1
Not defined
1024ms (4)
480ms (9)
internal_value = gui_value * 2 0 dB
internal_value = (gui_value + 20) * 2 -15 dB
internal_value = (gui_value + 20) * 2 -12 dB
Not defined
480ms (9)
internal_value = gui_value * 2 0 dB
internal_value = gui_value * 2 -19 dB
internal_value = gui_value 0
forbidden (1)
gui ==> internal120ms ==> 0240ms ==> 1480ms ==> 2640ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3
gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3
gui ==> internalforbidden ==> 1R81xCsfbEnforced ==> 2R9e1xCsfb ==> 3
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 62 dB
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 16 dB
Not defined
internal_value = gui_value 1
SIB2 (0)
Not defined
internal_value = gui_value 1
SIB3 (1)
Not defined
gui ==> internal1ms ==> 02ms ==> 15ms ==> 210ms ==> 3
gui ==> internal80ms ==> 0160ms ==> 1320ms ==> 2640ms ==> 3
gui ==> internalSIB2 ==> 0
gui ==> internal80ms ==> 0160ms ==> 1320ms ==> 2640ms ==> 3
gui ==> internalSIB3 ==> 1
gui ==> internal80ms ==> 0160ms ==> 1320ms ==> 2640ms ==> 3
internal_value = gui_value 1
Not defined
internal_value = gui_value 10
internal_value = gui_value 5
-4 dB (1)
-4 dB (1)
30s (0)
30s (0)
internal_value = gui_value 10
internal_value = gui_value 10
internal_value = gui_value
gui ==> internalSIB4 ==> 2SIB5 ==> 3SIB6 ==> 4SIB7 ==> 5
gui ==> internal-6 dB ==> 0-4 dB ==> 1-2 dB ==> 20 dB ==> 3gui ==> internal-6 dB ==> 0-4 dB ==> 1-2 dB ==> 20 dB ==> 3gui ==> internal30s ==> 060s ==> 1120s ==> 2180s ==> 3gui ==> internal30s ==> 060s ==> 1120s ==> 2180s ==> 3
internal_value = gui_value 7
internal_value = gui_value 1
SingleTx (0)
400ms (3)
400ms (3)
internal_value = gui_value 8000 ms
500ms (2)
500ms (3)
1000ms (5)
4000ms (5)
2000ms (6)
3000ms (1)
gui ==> internalSingleTx ==> 0TxDiv ==> 1
gui ==> internal100ms ==> 0200ms ==> 1300ms ==> 2400ms ==> 3gui ==> internal100ms ==> 0200ms ==> 1300ms ==> 2400ms ==> 3
gui ==> internal100ms ==> 0200ms ==> 1500ms ==> 21000ms ==> 3gui ==> internal100ms ==> 1200ms ==> 2500ms ==> 31000ms ==> 4gui ==> internal50ms ==> 0100ms ==> 1150ms ==> 2200ms ==> 3gui ==> internal100ms ==> 0200ms ==> 1500ms ==> 21000ms ==> 3gui ==> internal0ms ==> 050ms ==> 1100ms ==> 2200ms ==> 3gui ==> internal1000ms ==> 03000ms ==> 15000ms ==> 210000ms ==> 3
180min (180)
internal_value = gui_value 300 s
internal_value = gui_value 3000 ms
10ms (1)
20sf (1)
0sf (0)
320 ms (0)
internal_value = gui_value 1 s
internal_value = gui_value 2000 ms
internal_value = gui_value * 100 0.52 us
10240 (6)
internal_value = gui_value 2000 subframes
gui ==> internal5min ==> 510min ==> 1020min ==> 2030min ==> 30
gui ==> internal5ms ==> 010ms ==> 116ms ==> 220ms ==> 3gui ==> internal10sf ==> 020sf ==> 150sf ==> 2100sf ==> 3gui ==> internal0sf ==> 010sf ==> 120sf ==> 250sf ==> 3gui ==> internal320 ms ==> 0640 ms ==> 11280 ms ==> 22560 ms ==> 3
gui ==> internal500 ==> 0750 ==> 11280 ==> 21920 ==> 3
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 4 dB
internal_value = (gui_value + 140) -50 dBm
internal_value = (gui_value + 140) -117 dBm
internal_value = (gui_value + 140) -112 dBm
internal_value = (gui_value + 140) -100 dBm
internal_value = (gui_value + 140) -115 dBm
internal_value = (gui_value + 140) -96 dBm
internal_value = (gui_value + 140) -116 dBm
internal_value = (gui_value + 140) -114 dBm
internal_value = (gui_value + 140) -122 dBm
0.5 (1)
0.5 (1)
internal_value = gui_value * 2 6 %
internal_value = gui_value 15 %
internal_value = gui_value * 10 1 dB
10 MHz (100)
MRC (0)
internal_value = gui_value 0
internal_value = gui_value 10 %
true
internal_value = gui_value 30 tb
internal_value = gui_value 1
gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21.0 ==> 3gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21.0 ==> 3
gui ==> internal1.4 MHz ==> 143 MHz ==> 305 MHz ==> 5010 MHz ==> 100gui ==> internalMRC ==> 0IRC ==> 1
gui => internalfalse => 0true => 1
alpha 1 (7)
Not defined
internal_value = gui_value -100 dBm
internal_value = gui_value * 10 1
internal_value = gui_value * 5 2
internal_value = gui_value 25 TTI
internal_value = gui_value * 2 -104 dBm
-96 dBm (12)
Not defined
internal_value = gui_value -118 dBm
internal_value = gui_value -1 dB
internal_value = gui_value -113 dBm
gui ==> internalalpha 0 ==> 0alpha 0.4 ==> 1alpha 0.5 ==> 2alpha 0.6 ==> 3
gui ==> internal-120 dBm ==> 0-118 dBm ==> 1-116 dBm ==> 2-114 dBm ==> 3
internal_value = gui_value 2 dB
Not defined
internal_value = gui_value -103 dBm
internal_value = gui_value 0 dB
internal_value = gui_value -88 dBm
internal_value = gui_value 20 dB
internal_value = gui_value / 2 4 dB
internal_value = gui_value 50 ms
ExhaustiveFD (1)
internal_value = gui_value 2
internal_value = gui_value 3
internal_value = gui_value 104
gui ==> internalRoundRobinFD ==> 0ExhaustiveFD ==> 1MixedFD ==> 2
Not defined
internal_value = gui_value
internal_value = gui_value
channel unaware (0)
Not defined
deltaF1 (1)
deltaF0 (0)
internal_value = gui_value 10 dB
internal_value = gui_value
0dB (15)
internal_value = gui_value
internal_value = gui_value
gui ==> internalchannel unaware ==> 0channel aware ==> 1interference aware ==> 2
gui ==> internaldeltaF1 ==> 1deltaF2 ==> 2
gui ==> internaldeltaF0 ==> 0
gui ==> internal-24dB ==> 0-22dB ==> 1-20dB ==> 2-18dB ==> 3
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = (gui_value + 140) -120 dBm
internal_value = (gui_value + 110) -95 dBm
512ms (10)
dcs1800 (0)
internal_value = gui_value * 2 2 dB
internal_value = gui_value
0
480ms (2)
internal_value = (gui_value + 140) -114 dBm
gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3gui ==> internaldcs1800 ==> 0pcs1900 ==> 1
gui ==> internal120ms ==> 0240ms ==> 1480ms ==> 2640ms ==> 3
internal_value = gui_value * -2 -14 dB
480ms (9)
Not defined
internal_value = gui_value
internal_value = gui_value 255
true
internal_value = gui_value 8
internal_value = gui_value * 2 0 dB
internal_value = gui_value
internal_value = gui_value 0
640ms (3)
gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3
gui ==> internalbc0 ==> 0bc1 ==> 1bc2 ==> 2bc3 ==> 3
gui => internalfalse => 0true => 1
gui ==> internal120ms ==> 0240ms ==> 1480ms ==> 2640ms ==> 3
internal_value = gui_value * 10 3 dB
internal_value = gui_value * 10
240ms (1)
320ms (8)
240ms (1)
256ms (7)
internal_value = gui_value
internal_value = gui_value * 2 0 dB
internal_value = gui_value * 2
internal_value = gui_value * 2 0 dB
gui ==> internal120ms ==> 0240ms ==> 1480ms ==> 2640ms ==> 3gui ==> internal120ms ==> 0240ms ==> 1480ms ==> 2640ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3gui ==> internal120ms ==> 0240ms ==> 1480ms ==> 2640ms ==> 3gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3
internal_value = gui_value
rsrp (0)
0dB (15)
internal_value = (gui_value + 140) -116 dBm
internal_value = (gui_value + 140) -114 dBm
internal_value = gui_value -100 dBm
internal_value = gui_value * 10 -12 dB
internal_value = (gui_value + 24) * 2 -18 dB
internal_value = (gui_value + 115) -110 dBm
256ms (7)
gui => internalfalse => 0true => 1
gui ==> internalrsrp ==> 0rsrq ==> 1both ==> 2
gui ==> internalmbw6 ==> 0mbw15 ==> 1mbw25 ==> 2mbw50 ==> 3gui ==> internal-24dB ==> 0-22dB ==> 1-20dB ==> 2-18dB ==> 3
gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3
internal_value = (gui_value + 140) -117 dBm
internal_value = (gui_value + 24) * 2 -14.5 dB
internal_value = (gui_value + 115) -105 dBm
320ms (8)
internal_value = gui_value * 2 0 dB
internal_value = gui_value * 2 2 dB
internal_value = gui_value
internal_value = gui_value 16
internal_value = gui_value 0 dB
480ms (2)
internal_value = gui_value
internal_value = gui_value
gui ==> internal0ms ==> 040ms ==> 164ms ==> 280ms ==> 3
gui ==> internal120ms ==> 0240ms ==> 1480ms ==> 2640ms ==> 3
Not defined
internal_value = gui_value
internal_value = gui_value 32
internal_value = gui_value 8
internal_value = gui_value * -2 -12 dB
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
unlocked (1)
internal_value = gui_value
gui ==> internalbc0 ==> 0bc1 ==> 1bc2 ==> 2bc3 ==> 3
gui ==> internalunlocked ==> 1locked ==> 3
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
allowed (0)
gui ==> internalunavailable ==> 0available ==> 1
gui ==> internalbc0 ==> 0bc1 ==> 1bc2 ==> 2bc3 ==> 3
gui ==> internalallowed ==> 0forbidden ==> 1
0dB (15)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
allowed (0)
internal_value = gui_value
automatic (0)
gui ==> internal-24dB ==> 0-22dB ==> 1-20dB ==> 2-18dB ==> 3
gui ==> internalallowed ==> 0forbidden ==> 1onlyS1 ==> 2
gui ==> internalautomatic ==> 0manual ==> 1
gui ==> internalunavailable ==> 0available ==> 1
internal_value = gui_value
allowed (0)
internal_value = gui_value
internal_value = gui_value
automatic (0)
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
forbidden (1)
allowed (0)
forbidden (1)
gui ==> internalallowed ==> 0forbidden ==> 1
gui ==> internalautomatic ==> 0manual ==> 1
gui ==> internalallowed ==> 0forbidden ==> 1
gui ==> internalallowed ==> 0forbidden ==> 1
gui ==> internalallowed ==> 0forbidden ==> 1
internal_value = gui_value
automatic (0)
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
allowed (0)
allowed (0)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internalautomatic ==> 0manual ==> 1
gui ==> internalallowed ==> 0forbidden ==> 1
gui ==> internalallowed ==> 0forbidden ==> 1
gui ==> internalbc0 ==> 0bc1 ==> 1bc2 ==> 2bc3 ==> 3
internal_value = gui_value
forbidden (1)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 1000000 kbit/s
internal_value = gui_value 1000000 kbit/s
internal_value = gui_value 1000000 kbit/s
internal_value = gui_value 0
gui ==> internalallowed ==> 0forbidden ==> 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 215 mA
Not defined
internal_value = gui_value
internal_value = gui_value * 10
internal_value = gui_value * 10
gui => internalfalse => 0true => 1
gui ==> internalBand I ==> 1Band II ==> 2Band III ==> 3Band IV ==> 4
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value * 100
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value * 100
internal_value = gui_value * 100
gui ==> internalInternal ==> 0Shared ==> 1External ==> 2
gui ==> internalNot Defined ==> -1LNA1 ==> 0LNA2 ==> 1
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value * 100
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internalWMHA ==> 0WMHB ==> 1WMHC ==> 2WMHD ==> 3
gui ==> internalNONE ==> -1RMOD1-ANT1 ==> 11RMOD1-ANT2 ==> 12RMOD1-ANT3 ==> 13
internal_value = gui_value
0
BTS1 (0)
Not defined
internal_value = gui_value
Not defined
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
gui ==> internalNone ==> -1BTS1 ==> 0BTS2 ==> 1NODEB0 ==> 2
gui ==> internal0bc ==> 01bc ==> 12bc ==> 23bc ==> 3
gui ==> internal0bc ==> 01bc ==> 12bc ==> 23bc ==> 3
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
true
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internalgsm1800 ==> 0gsm1900 ==> 1
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 0 %
internal_value = gui_value
Not defined
dcs1800 (0)
internal_value = gui_value
Not defined
dcs1800 (0)
internal_value = gui_value
both (2)
internal_value = gui_value
gui ==> internaldcs1800 ==> 0pcs1900 ==> 1
gui ==> internaldcs1800 ==> 0pcs1900 ==> 1
gui ==> internalcsfb ==> 0redir ==> 1both ==> 2
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
gui ==> internalbc0 ==> 0bc1 ==> 1bc2 ==> 2bc3 ==> 3
gui ==> internalgsm1800 ==> 0gsm1900 ==> 1
gui ==> internaleutra ==> 0geran ==> 1utraFDD ==> 2utraTDD ==> 3
gui ==> internal0bc ==> 01bc ==> 12bc ==> 23bc ==> 3
internal_value = gui_value
Not defined
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internal0bc ==> 01bc ==> 12bc ==> 23bc ==> 3
gui ==> internalgsm1800 ==> 0gsm1900 ==> 1
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 0 %
internal_value = gui_value
Not defined
dcs1800 (0)gui ==> internaldcs1800 ==> 0pcs1900 ==> 1
internal_value = gui_value
Not defined
dcs1800 (0)
internal_value = gui_value
both (2)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internaldcs1800 ==> 0pcs1900 ==> 1
gui ==> internalcsfb ==> 0redir ==> 1both ==> 2
gui ==> internalbc0 ==> 0bc1 ==> 1bc2 ==> 2bc3 ==> 3
internal_value = gui_value
internal_value = gui_value
true
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
false
internal_value = gui_value
internal_value = gui_value 15 min
false
gui ==> internalgsm1800 ==> 0gsm1900 ==> 1
gui ==> internaleutra ==> 0geran ==> 1utraFDD ==> 2utraTDD ==> 3
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
falsegui => internalfalse => 0true => 1
gui ==> internalnone ==> 0UTRAN-EUTRA ==> 1UTRAN-GERAN ==> 2EUTRA-GERAN ==> 3
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 10000
true
gui ==> internal(GMT-11) Etc/GMT+11 ==> 0(GMT-11) MIT ==> 1(GMT-11) Pacific/Apia ==> 2(GMT-11) Pacific/Midway ==> 3
gui ==> internalNone ==> 0SMOD1-IF1 ==> 1SMOD1-IF2 ==> 2SMOD1-IF3 ==> 3
gui ==> internalNone ==> 0SMOD1-IF1 ==> 1SMOD1-IF2 ==> 2SMOD1-IF3 ==> 3
gui => internalfalse => 0true => 1
Not defined
false
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 49151
internal_value = gui_value 0.0.0.0
gui => internalfalse => 0true => 1
gui ==> internalAll ==> 0UEspecific ==> 1nonUEspecific ==> 2
internal_value = gui_value
None (2)
internal_value = gui_value
internal_value = gui_value
None (2)
internal_value = gui_value
internal_value = gui_value
None (2)
internal_value = gui_value
internal_value = gui_value
gui ==> internalAll ==> 0Specific ==> 1None ==> 2
gui ==> internalAll ==> 0UEspecific ==> 1nonUEspecific ==> 2
gui ==> internalAll ==> 0Specific ==> 1None ==> 2
gui ==> internalAll ==> 0UEspecific ==> 1nonUEspecific ==> 2
gui ==> internalAll ==> 0Specific ==> 1None ==> 2
CCM_1SEC (3)
internal_value = gui_value
false
internal_value = gui_value 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
false
false
internal_value = gui_value
internal_value = gui_value
Not defined
gui ==> internalCCM_3_33MS ==> 0CCM_10MS ==> 1CCM_100MS ==> 2CCM_1SEC ==> 3
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value 00:00:00:00:00:00
internal_value = gui_value
internal_value = gui_value 7
false
internal_value = gui_value 1 seconds
internal_value = gui_value 1
internal_value = gui_value 1 seconds
internal_value = gui_value 1
internal_value = gui_value 1
internal_value = gui_value 1
internal_value = gui_value 60 s
internal_value = gui_value 2
gui => internalfalse => 0true => 1
false
internal_value = gui_value
internal_value = gui_value 10 s
false
internal_value = gui_value
internal_value = gui_value 1
internal_value = gui_value 64
internal_value = gui_value 1
60min (3)
15min (1)
15min (1)
15min (1)
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internal15min ==> 130min ==> 260min ==> 3
gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
15min (1)
internal_value = gui_value 1
15min (15)
15min (15)
gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3gui ==> internaldisabled ==> 015min ==> 130min ==> 260min ==> 3
gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60
15min (15)
15min (15)
15min (15)
15min (15)
15min (15)
15min (15)
15min (15)
15min (15)
15min (15)
15min (15)
15min (15)
15min (15)
gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60gui ==> internaldisabled ==> 015min ==> 1530min ==> 3060min ==> 60
internal_value = gui_value 1 number
locked (0)
PDH_LBO_0 (1)
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value 0
false
Not defined
internal_value = gui_value 10
gui ==> internallocked ==> 0unlocked ==> 1
gui ==> internalPDH_LBO_0 ==> 1PDH_LBO_7_5 ==> 2PDH_LBO_15 ==> 3
gui ==> internalPDH_LINE_TYPE_DOUBLE_FRAME_G704 ==> 1PDH_LINE_TYPE_MULTI_FRAME_G704 ==> 2
gui ==> internalexpeditedForwarding ==> 0assuredForwardingClass43 ==> 1assuredForwardingClass42 ==> 2assuredForwardingClass41 ==> 3
gui => internalfalse => 0true => 1
internal_value = gui_value 100
internal_value = gui_value 1000
internal_value = gui_value 10000
internal_value = gui_value 1
internal_value = gui_value
false
Not defined
internal_value = gui_value
internal_value = gui_value
both (2)
internal_value = gui_value
internal_value = gui_value
gui => internalfalse => 0true => 1
gui ==> internalcsfb ==> 0redir ==> 1both ==> 2
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value * 10
Not defined
gui ==> internalbc0 ==> 0bc1 ==> 1bc2 ==> 2bc3 ==> 3
gui ==> internalgsm1800 ==> 0gsm1900 ==> 1
gui ==> internaleutra ==> 0geran ==> 1utraFDD ==> 2cdma2000HRPD ==> 3
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value * 10
internal_value = gui_value * 10
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
gui ==> internalBand I ==> 1Band II ==> 2Band III ==> 3Band IV ==> 4
gui ==> internalvoice ==> 0data ==> 1voice/data ==> 2
gui ==> internalType 1 ==> 1Type 2 ==> 2Type 3 ==> 3Type 4 ==> 4
false
false
false
true
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value * 10
internal_value = gui_value * 10
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui ==> internalInternal ==> 0Shared ==> 1External ==> 2
internal_value = gui_value * 10
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Optimized Cooling (0)
Not defined
gui ==> internalSingleAntennaDevice ==> 0MultiAntennaDevice ==> 1
gui ==> internalNONE ==> -1RMOD1-ANT1 ==> 11RMOD1-ANT2 ==> 12RMOD1-ANT3 ==> 13
gui ==> internalOptimized Cooling ==> 0Linear ==> 1Low Noise ==> 2
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not defined
internal_value = gui_value 0 s
internal_value = gui_value
internal_value = gui_value
Normally_closed (1)
internal_value = gui_value 0 s
Not defined
gui ==> internalNormally_open ==> 0Normally_closed ==> 1
gui ==> internalMinor ==> 1Major ==> 2Critical ==> 3
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value
false
Off (1)
Auto (10)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 7
internal_value = gui_value 100 seconds
internal_value = gui_value 5
gui => internalfalse => 0true => 1
gui ==> internalOn ==> 0Off ==> 1
gui ==> internal3Gbps ==> 36Gbps ==> 6Auto ==> 10
internal_value = gui_value 30 s
internal_value = gui_value 1 s
internal_value = gui_value 20 s
internal_value = gui_value 1
Optimized Cooling (0)
Not defined
internal_value = gui_value 0 s
internal_value = gui_value
internal_value = gui_value
false
Normally_closed (1)
gui ==> internalOptimized Cooling ==> 0Linear ==> 1Low Noise ==> 2
gui => internalfalse => 0true => 1
gui ==> internalNormally_open ==> 0Normally_closed ==> 1
gui ==> internalMinor ==> 1Major ==> 2Critical ==> 3
internal_value = gui_value 0 s
Not defined
internal_value = gui_value
internal_value = gui_value
false
Off (1)
Not defined
internal_value = gui_value
Auto (10)
true
internal_value = gui_value
internal_value = gui_value
gui => internalfalse => 0true => 1
gui ==> internalOn ==> 0Off ==> 1
gui ==> internal3Gbps ==> 36Gbps ==> 6Auto ==> 10
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value
true
Not defined
internal_value = gui_value
internal_value = gui_value
true
internal_value = gui_value 5 seconds
internal_value = gui_value 1
internal_value = gui_value
gui => internalfalse => 0true => 1
gui ==> internalGERAN ==> 0UTRAN ==> 1EUTRA ==> 2
gui ==> internalclkPDH ==> 1clkSyncE ==> 3clkToP ==> 4
gui => internalfalse => 0true => 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
false
internal_value = gui_value -4
internal_value = gui_value
internal_value = gui_value
false
internal_value = gui_value -7
internal_value = gui_value 0 ns
IP Unicast (0)
gui => internalfalse => 0true => 1
gui ==> internal6 ==> 07 ==> 152 ==> 3187 ==> 4gui => internalfalse => 0true => 1
gui ==> internalIP Unicast ==> 0Ethernet Multicast ==> 1
internal_value = gui_value
01-80-C2-00-00-0E (0)
Not defined
internal_value = gui_value
internal_value = gui_value
locked (0)
internal_value = gui_value
internal_value = gui_value 5000
internal_value = gui_value 34
internal_value = gui_value 100
internal_value = gui_value * 100 100 %
internal_value = gui_value 1000000 us
gui ==> internal01-80-C2-00-00-0E ==> 001-1B-19-00-00-00 ==> 1
gui ==> internallocked ==> 0unlocked ==> 1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 1 s
Not defined
1 (3)
1 (3)
internal_value = gui_value
Not defined
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value -18 dB
gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3gui ==> internal0.25 ==> 00.5 ==> 10.75 ==> 21 ==> 3
internal_value = gui_value -115 dBm
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 10 dB
internal_value = gui_value 6 dB
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value 10 dB
internal_value = gui_value
internal_value = gui_value
gui => internalfalse => 0true => 1
internal_value = gui_value 1
true
false
true
internal_value = gui_value * 8 6 dB
internal_value = gui_value * 8 6 dB
internal_value = gui_value * 8 6 dB
internal_value = gui_value * 8 6 dB
internal_value = gui_value * 8 6 dB
internal_value = gui_value * 100 / 8 4 s
gui ==> internal471720A ==> 5471984A ==> 8FSM ==> 12FSI ==> 14
gui => internalfalse => 0true => 1
gui ==> internalbc0 ==> 0bc1 ==> 1bc2 ==> 2bc3 ==> 3gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value * 10 10 s
true
internal_value = gui_value 127
false
internal_value = gui_value 16 s
true
internal_value = gui_value * 2 9 h
true
internal_value = gui_value 0
internal_value = gui_value
internal_value = gui_value 9
internal_value = gui_value 10
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
gui => internalfalse => 0true => 1
internal_value = gui_value 1
false
IMSIANDESN (3)
internal_value = gui_value
gui => internalfalse => 0true => 1
gui ==> internalIMSISANDESN ==> 0IMSI ==> 2IMSIANDESN ==> 3
Default Value Notes Related Functions
Operability
Operability
Operability
Operability
Operability
Operability
Value should be chosen to be about 5 dB above the RSRP value at the cell edge.The current default value is calculated for -105 dBm at cell edge.
Operability
Operability
Operability
Handover Control
Handover Control
Handover Control
allowed Handover Control
allowed Handover Control
allowed Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
BTS Site configuration
recommended value for Flexi-BTS (LN release) -3 dB
BTS Site configuration
Default is the empty string. By default a BFD session is not assigned to any BFD group.
Since the default value of BFD Type is Single Hop BFD, the default BFD UDP source port is 3784.
normal BTS site with GPS
BTS Site Configuration
Feature disabled BTS Site Configuration
Operability
Packet Scheduler Control
Packet Scheduler Control
Radio L1/2 Configuration
System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control, System Information Broadcast
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
UE Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
R9ExtensionPartPossible System Information Broadcast
System Information Broadcast
UE Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
R9ExtensionPartPossible System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
The default is 1 month.
The default is 3 months.
Operability
Packet Scheduler Control
Operability
Operability
Operability
Operability
Length value 0 means CA subject name is not configured.
Operability
Operability
Radio Admission Control
Radio Admission Control
Radio Admission Control
false (Cell Trace Reporting to 3rd party Tool disabled)
true (UE Trace Reporting to 3rd party Tool enabled)
Offline i.e File based Trace Reporting
Online Trace Reporting
By default no bursts are allowed.
No active UE(Subscriber) trace sessions currently running within eNB.
Tracing for instantaneous TA value disabled
By default the configured line rate of the interface is used. This is defined in parameter ETHLK - speedAndDuplex. If the line rate is not configured forcibly by the operator, it is autodetected by the BTS.
Link OAM is not enabled for the interface.
Default VLAN id = 1.
By default the configured line rate of the interface is used. This is defined in parameter ETHLK - speedAndDuplex. If the line rate is not configured forcibly by the operator, it is autodetected by the BTS.
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
UE Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
E-RAB Control
E-RAB Control
E-RAB Control
E-RAB Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
No Offset System Information Broadcast
By default, shaping is disabled.
The plain IP interface by default has the 6 PHB queue scheduler.
By default the ethernet shaping should be disabled.
By default the feature is disabled.
By default the feature is disabled.
By default SOAM should be disabled.
By default TLV is ignored.
The default value means "not used".
NE selects serving OMS autonomously.
By default no switchover is requested.
Default value of this parameter in case of auto connection should be probing.
By default the UDP echo is switched off.
By default the TWAMP reflector is switched off.
IANA-assigned well-known twamp-control portBy default, the parameter is assigned to the port 5000
In WCDMA, we have a default value of 1 Mbps for Service OAM CIR. If you derive the scheduler weight from CIR as recommended, you get 10. So using 10 means alignment between LTE & WCDMA.
Value 0.0.0.0 means the address is not used.
Value 0.0.0.0 means the netmask is not used.
The route is not protected.
The route is not protected.
Default value is lowest possible preference value. By default all routes have equally low cost.
Default value is lowest possible preference value. By default all routes have equally low cost.
0.0.0.0 means, control server IP address is not configured to be used.
By default, IPsec emergency bypass is disabled(false)
All ports are allowed.
All protocols allowed.
All ports allowed.
Default value is 24 hours.
System Information Broadcast
System Information Broadcast
UE Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
0 dB means no offset System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
By default the feature is switched off. Only a single transport Ethernet interface can be used.
The default value of this parameter = 1 for the FTIB hardware unit.The default value of this parameter = 4 for the FTLB hardware unit.
Default VLAN id = 1.
Default value 1 is supported in FTLB and FSMr3 unit types.
Default value 1 is supported in FTLB and FSMr3 unit types.
The default queue is the strict priority queue. By default non-IP traffic is handled with high priority.
The default value of this parameter = 4 for the FTIB hardware unit, this is a Weighted Round Robin priority queue.The default value of this parameter = 6 for the FTLB hardware unit, this is a Weighted Round Robin priority queue.This is a Weighted Round Robin priority queue.
The default value of this parameter = 3 for the FTIB hardware unit, this is a Weighted Round Robin priority queue.The default value of this parameter = 4 for the FTLB hardware unit, this is a Weighted Round Robin priority queue.The default value of this parameter = 3 for the FTIB hardware unit, this is a Weighted Round Robin priority queue.The default value of this parameter = 4 for the FTLB hardware unit, this is a Weighted Round Robin priority queue.The default value of this parameter = 2 for the FTIB hardware unit, this is a Weighted Round Robin priority queue.The default value of this parameter = 3 for the FTLB hardware unit, this is a Weighted Round Robin priority queue.The default value of this parameter = 2 for the FTIB hardware unit, this is a Weighted Round Robin priority queue.The default value of this parameter = 3 for the FTLB hardware unit, this is a Weighted Round Robin priority queue.
This is the strict priority queue.
This is the strict priority queue.
BTS Site Configuration
BTS Site Configuration
BTS Site Configuration
BTS Site Configuration
BTS Site Configuration
The default value of this parameter = 1 for the FTIB hardware unit, this is the strict priority queue.The default value of this parameter = 2 for the FTLB hardware unit, this is a Weighted Round Robin priority queue.
Default value means DSCP to PHB mapping.
Default value is not to include VLAN aware switching.
BTS Site Configuration
Handover Control
oamControlled Handover Control
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
RAN Common Signalling
S1/X2 Common Signalling
Handover Control
Handover Control
RAN Common Signalling
Handover Control
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Operability
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Bearer Management
System Information Broadcast
Handover Control
feature is disabled
Security Control
Operability
Bearer Management
Operability
Handover Control
Operability
feature is disabled Radio L1/2 Configuration
Radio L1/2 Configuration
Radio L1/2 Configuration
Handover Control
Bearer Management
System Information Broadcast
Bearer Management
Radio Admission Control
Handover Control
Handover Control
Handover Control
Handover Control
BTS Site Configuration
Handover Control
UE Control
UE Control
enabled Handover Control
System Information Broadcast
feature disabled System Information Broadcast
Load Control
Load Control
RAN Common Signalling
Handover Control
RAN Common Signalling
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
UE Control
Bearer Management
Handover Control
enabled Handover Control
Radio L1/2 Configuration
S1/X2 Common Signalling
UE Control
1 means the Support of S1 Flex feature is enabled
Handover Control
Handover Control
Handover Control
false i.e. feature is disabled
Operability
RAN Common Signalling
RAN Common Signalling
Radio L1/2 Configuration
Security Control
Handover Control
Bearer Management
25kB Bearer Management
Bearer Management
50kB Bearer Management
Bearer Management
125kB Bearer Management
Bearer Management
250kB Bearer Management
Bearer Management
250kB Bearer Management
Bearer Management
500kB Bearer Management
Bearer Management
250kB Bearer Management
Bearer Management
750kB Bearer Management
Bearer Management
375kB Bearer Management
Bearer Management
1000kB Bearer Management
UE Control
true means enabled S1/X2 Common Signalling
RAN Common Signalling
Handover Control
Handover Control
Handover Control
Handover Control
Bearer Management
Security Control
Security Control
Security Control
Security Control
Security Control
qciPrio Bearer Management
Bearer Management
Bearer Management
Automatic locking is allowed
Graceful cell shutdown is allowed. Radio Link Quality Control
S1/X2 Common Signalling
System Information Broadcast
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
Radio Admission Control
Radio Admission Control
Radio Admission Control
RAN Common Signalling
Radio Admission Control
Radio Admission Control
Radio Admission Control
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
Security Control
Security Control
Security Control
Security Control
It is assumed that emergency sessions should have the highest priority and therefore the default value is set to 1
Security Control
Security Control
S1/X2 Common Signalling
set for FSMr3 Operability
Bearer Management
RAN Common Signalling
RAN Common Signalling
S1/X2 Common Signalling
UE Control
S1/X2 Common Signalling
S1/X2 Common Signalling
UE Control
Handover Control
Security Control
Operability
Operability
Operability
Bearer Management
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
E-RAB Control
E-RAB Control
E-RAB Control
E-RAB Control
Bearer Management
Bearer Management
Bearer Management
7bit Bearer Management
100ms Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
allEqual Handover Control
Handover Control
Handover Control
RAN Common Signalling
Bearer Management
Bearer Management
Bearer Management
EF Bearer Management
Bearer Management
Bearer Management
3GPP 26.114 E.2 Bearer Management
3GPP 26.114 E.2 Bearer Management
Bearer Management
Bearer Management
Bearer Management
ENABLE Bearer Management
Bearer Management
RLC_UM Bearer Management
Bearer Management
100ms Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
AF31 Bearer Management
Bearer Management
Assuming minimum TBS size of 256 bits. Bearer Management
Based on minimum TBS of 114 bits Bearer Management
Bearer Management
3GPP 26.114 E.3 Bearer Management
3GPP 26.114 E.3 Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
EF Bearer Management
Bearer Management
Assuming minimum TBS size of 256 bits. Bearer Management
Based on minimum TBS of 114 bits. Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
AF32 Bearer Management
Bearer Management
Assuming minimum TBS size of 256 bits. Bearer Management
Based on minimum TBS of 114 bits. Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
AF41 Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
nonGBR Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
AF21 Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
nonGBR Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
AF22 Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
nonGBR Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
AF11 Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
nonGBR Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
BE Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
nonGBR Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Assuming minimum TBS size of 256 bits. Bearer Management
Based on minimum TBS of 114 bits. Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
ENABLE Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Handover Control
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
50ms Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
Bearer Management
RAN Common Signalling
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
Radio Link Quality Control
Radio Link Quality Control
Operability
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Bearer Management
Bearer Management
Operability
Radio Link Quality Control
RAN Common Signalling
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
Packet Scheduler Control
Packet Scheduler Control
DRX Control
MIMO Control
QPSK Radio Link Quality Control
Handover Control
Radio Link Quality Control
Radio L1/2 Configuration
Packet Scheduler Control
BTS Site Configuration
Packet Scheduler Control, Radio Link Quality Control
System Information Broadcast, Radio L1/2 Configuration
Handover Control
DRX Control
Radio L1/2 Configuration
Packet Scheduler Control
Uplink Group hopping disabled Radio L1/2 Configuration
eUlLa Radio Link Quality Control
Radio Link Quality Control
Radio Admission Control
Radio Admission Control
default value for 10MHz BW Radio Admission Control
Radio Admission Control
Radio Admission Control
default value is set for min(ulChBw, dlChBw) set to '10 MHz'
default value is set for min(ulChBw, dlChBw) set to '10 MHz'
Radio Admission Control
Radio Admission Control
Radio Admission Control
Radio Admission Control
System Information Broadcast
UE Control
DRX Control
Handover Control
allEqual Handover Control
ownCarrierFreq Handover Control
Handover Control
default value for 10MHz BW
The recommended default value depends on min(ulChBw, dlChBw) with following conditiondefault value for 10MHz BW
The recommended default value depends on min(ulChBw, dlChBw) with following condition default value for 10MHz BW
default value depends on min(ulChBw, dlChBw) with following condition min(ulChBw, dlChBw) = '5 Mhz', recommended default 15default value for 10MHz BW
default value depends on min(ulChBw, dlChBw) with following condition min(ulChBw, dlChBw) = '5 Mhz', recommended default 15
Handover Control
Radio L1/2 Configuration
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
Not barred
Load Control
0dB Handover Control
BTS Site configuration
System Information Broadcast
Radio Admission Control
Radio Admission Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
20ms Scheduling Request Configuration
Load Control
Packet Scheduler, Aperiodic CQI Configuration
FBT2 (Aperiodic reporting family 3.x) Admission Control, Packet Scheduler
Radio L1/2 Configuration
Radio L1/2 Configuration
Periodic CQI Configuration
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
64n Packet Scheduler
128rf System Information Broadcast
Load Control
Power Control
Packet Scheduler
Radio Link Quality Control
Packet Scheduler
Radio Link Quality Control
Packet Scheduler Control
Radio L1/2 Configuration
Radio L1/2 Configuration
Radio L1/2 Configuration
TXDiv Packet Scheduler Control
Packet Scheduler Control
corresponding to 2 dB in range of -2 dB to 12 dB
3 db is default Packet Scheduler
Radio L1/2 Configuration
Radio L1/2 Configuration
Radio L1/2 Configuration
Packet Scheduler Control
Packet Scheduler
Packet Scheduler Control
MIMO Control
DCI format 1C
PFsch Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler
TRUE means DRX Apply Device Type DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
160ms DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
Maximum value of parameter range is proposedin order to keep the UE as long as possible in-synch, when drxSmartProfile2 is configured w/o any GBR bearer
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
Default is proposed w.r.t the default values of parameters drxLongCycle and drxShortCycle.
Default is proposed w.r.t the default values of parameters drxLongCycle and drxShortCycle.
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
DRX Control
System Information Broadcast
Handover Control
Handover Control
Default is proposed w.r.t the default values of parameters drxLongCycle and drxShortCycle.
Handover Control
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Radio L1/2 Configuration
Radio L1/2 Configuration
RAN Common Signalling
Packet Scheduler
Better cell HO by default enabled Handover Control
Coverage HO by default enabled Handover Control
Packet Scheduler
Packet Scheduler
Packet Scheduler
RAN Common Signalling
RAN Common Signalling
no information available RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
north direction RAN Common Signalling
no uncertainty RAN Common Signalling
no uncertainty RAN Common Signalling
no uncertainty RAN Common Signalling
Radio Link Quality Control
Power Control
fc4 Handover Control
fc4 Handover Control
Handover Control
Handover Control
fc4 Handover Control
fc4 Handover Control
fc2 Handover Control
System Information Broadcast
Not reserved for operator use System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
Packet Scheduler Control
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler
Handover Control
Handover Control
Handover Control
Handover Control
UE Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Load Control
Load Control
Load Control
Load Control
Load Control
Load Control
Load Control
Load Control
Load Control
Load Control
UE Control
UE Control
Packet Scheduler Control
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler Control
System Information Broadcast
System Information Broadcast
Load Control
Load Control
Radio Admission Control
Radio Admission Control
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler
Radio Admission Control
Packet Scheduler
Radio Admission Control
Admission Control
If dlChBw is equal to '3 MHz' it is recommended to set the parameter to '3'.
The default value is set for min(ulChBw, dlChBw) set to '10 MHz' .
The recommended default value depends on min(ulChBw, dlChBw) with following condition The default value is set for min(ulChBw, dlChBw) set to '10 MHz' .
The recommended default value depends on min(ulChBw, dlChBw) with following condition
Radio Admission Control
Radio Admission Control
Radio Admission Control
Radio Admission Control
Packet Scheduler
Packet Scheduler
ueCapability Radio Admission Control
Handover Control
cpichRSCP Handover Control
Packet Scheduler
Packet Scheduler Control
default value for 10MHz BW
default value depends on min(ulChBw, dlChBw) with following condition min(ulChBw, dlChBw) = '5 Mhz', recommended default 75The default value is set for min(ulChBw, dlChBw) set to '10 MHz' .
The recommended default value depends on min(ulChBw, dlChBw) with following condition: The default value is set for min(ulChBw, dlChBw) set to '10 MHz' .
The recommended default value depends on min(ulChBw, dlChBw) with following condition: the default value depends on dlChBw parameter setting:
dlChBw = '1.4 MHz', '3 MHz' or '5 MHz', recommended default is 7 the default value depends on dlChBw parameter setting: dlChBw = '1.4 MHz', '3 MHz' or '5 MHz', recommended default is 7 dlChBw = '10 MHz', recommended default is 14dlChBw = '15 MHz', recommended default is 17dlChBw = '20 MHz', recommended default is 20
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler
Admission Control
Admission Control
Default value update based on best field test results
Default value update based on best field test results
Handover Control
Handover Control
Handover Control
Handover Control
2 System Information Broadcast
Packet Scheduler Control
System Information Broadcast
System Information Broadcast
Packet Scheduler
0dB Handover Control
Power Control
Power Control
Radio L1/2 Configuration
System Information Broadcast
System Information Broadcast
quarterT System Information Broadcast
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler Control
Radio Link Quality Control
Packet Scheduler Control
Radio L1/2 Configuration
UE Control
Measurement disabled UE Control
periodicIntraFreq UE Control
32 UE Control
10240ms UE Control
Normal Packet Scheduler
if dlChBw set to '3 MHz' it is recommended to configure '1.0'
Packet Scheduler
Packet Scheduler Control
UE Control
UE Control
Packet Scheduler Control
High speed is not supported UE Control
System Information Broadcast
Not reserved for operator use System Information Broadcast
System Information Broadcast, Radio L1/2 Configuration
System Information Broadcast, Radio L1/2 Configuration
System Information Broadcast, Radio L1/2 Configuration
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler
System Information Broadcast
System Information Broadcast
System Information Broadcast, Radio L1/2 Configuration
System Information Broadcast, Radio L1/2 Configuration
System Information Broadcast, Radio L1/2 Configuration
System Information Broadcast, Radio L1/2 Configuration
System Information Broadcast
Random Access
Packet Scheduler
value 4 means 10dB Random Access
Random Access
Random Access
Random Access
Packet Scheduler
Packet Scheduler
Handover Control
Packet Scheduler
Packet Scheduler
The size of the large size Random Access Msg3 may be restricted depending on the setting of raLargeMcsUl:
ulChBw = '1.4 Mhz', if raLargeMcsUl is equal to its default the TBS of Msg3 is 328 bit
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
Radio Link Quality Control
Same periodicity as chosen for CQI Periodic CQI Configuration
UE Control
The recommended default values are:- if ulChBw is set to '1.4 MHz':6- if ulChBw is set to '3 MHz': 15- if ulChBw is set to '5 MHz': 25- if ulChBw is set to '10 MHz': 50
Packet Scheduler Control, Radio Admission Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
1 System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
Radio L1/2 Configuration
Radio L1/2 Configuration
DRX Control
Packet Scheduler Control
System Information Broadcast
System Information Broadcast
Admission Control
Handover Control
Handover Control
Handover Control
4000ms Handover Control
System Information Broadcast
UE Control
Radio Admission Control
Radio Admission Control
20 ms = 20sf Packet Scheduler Control
0 ms = 0sf Packet Scheduler
E-RAB Control
Handover Control
Corresponds to 16*Ts Packet Scheduler
Radio L1/2 Configuration
Radio L1/2 Configuration
System Information Broadcast
System Information Broadcast
System Information Broadcast
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
-97 dBm Handover Control
Handover Control
Handover Control
-123 dBm Handover Control
Handover Control
Handover Control
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Packet Scheduler Control
MRC Radio L1/2 Configuration
Uplink PHY
Packet Scheduler Control
enabled Packet Scheduler Control
Packet Scheduler
Packet Scheduler
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Radio Link Quality Control
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
ExhaustiveFD Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
Packet Scheduler Control
channel unaware Packet Scheduler Control
Load Control
BTS Site configuration
Handover Control
Handover Control
Handover Control
System Information Broadcast, Radio Link Quality Control
System Information Broadcast, Radio Link Quality Control
System Information Broadcast, Radio Link Quality Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
dcs1800 Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
rsrp Handover Control
Handover Control
0dB Handover Control
Handover Control
Handover Control
Load Control
Load Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
RAN Common Signalling
RAN Common Signalling
RAN Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
RAN Common Signalling
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Load Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
allowed Handover Control
Handover Control
automatic Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
automatic Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
forbidden Handover Control
Handover Control
Handover Control
Handover Control
automatic Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
1000000 kbps throughput can only theoretically be achieved on L1, not on L2.
1000000 kbps throughput can only theoretically be achieved on L1, not on L2.
1000000 kbps throughput can only theoretically be achieved on L1, not on L2.
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
UE Control
Handover Control
Handover Control
dcs1800 Handover Control
Handover Control
Handover Control
dcs1800 Handover Control
Handover Control
both Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
UE Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
UE Control
Handover Control
Handover Control
dcs1800 Handover Control
Handover Control
Handover Control
dcs1800 Handover Control
Handover Control
both Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
enabled
Auto configuration is not blocked
BTS Site configuration
Start-up normally.
Cell trace is enabled
Invalid IP address
FALSE (Tracing for instantaneous TA value disabled)
None of the S1 messages are to be traced.
None of the X2 messages are to be traced.
None of the RRC messages are to be traced.
By default, sending CCM messages is not allowed.
Default is minimum PDU size.
60min
15 min
15 min
15 min
By default, the FTM does not accept loopbacks initiated from a remote network.
15 min
15 min
15 min
15min
15 min
15 min
15 min
15 min
15 min
15 min
15 min
15min
15 min
15 min
15 min
15 min
15 min
15 min
15 min
15 min
15 min
Default for the E1 interface:- PDH_LINE_TYPE_MULTI_FRAME_G704
By default the PHB counters shall not be reported.
By default the original DSCP value is kept.
both Handover Control
Handover Control
Handover Control
The defaults are as follows:CPLANE: 46ICMP: 10IKE: 34MPLANE: 34
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
S1/X2 Common Signalling
By default SSM support is enabled.
This feature is disabled by default.
This means 16 per second.
The feature is disabled by default
-7 means 128 msgs per second
Default value depends on selected communication mode. The specified default value is for the UP Unicast communication mode profile and should be changed when the communication mode
By default the TWAMP session is locked.
Default value is 100 octets.
Default value is 1 second.
The range and the default value shall depend on the selected communication mode, The specified default value is for the IP Unicast communication mode and should be changed accordingly when the
The default DSCP value maps to Per Hop Behaviour Assured Forwarding Class 4 (AF4).
Default value is 100 percent. This means the alarm is only raised if packet loss = 100%.
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
UE Control
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
System Information Broadcast
Radio L1/2 Configuration
Radio L1/2 Configuration
Radio L1/2 Configuration
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Handover Control
Modification Related Parameters
Not modifiable
On-line
On-line
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On-line
Not modifiable
On-line
On-line
On-line
On-line
anrPrLId of ANRPRL - The class instance ANRPRL-0 must always existtargetCarrierFreq of ANRPRL - in the default profile ANRPRL-0 (anrPrLId='0' ) the targetCarrierFreq must be omitted, in all other ANRPRL instances the configuration is mandatory required
On-line
On-line
Not modifiable
On-line
On-line
On-line
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On-line
anrPrLId of ANRPRL - in the default profile ANRPRL-0 (anrPrLId='0' ) the targetCarrierFreq must be omitted, in all other ANRPRL instances the configuration is mandatory requiredtargetCarrierFreq of ANRPRL - targetCarrierFreq must be unique within all ANRPRL instances
utraCarrierFreq of ANRPRW - ANRPRW with same utraCarrierFreq cellsToApplyList is not allowed to have duplicated entries nor is it allowed to have in more than one ANRPRW with omitted or empty cellsToApplyList
utraCarrierFreq of ANRPRW - all ANRPRW instances with same utraCarrierFreq must have identical lnRelWLimitForAnr
pscLast of ANRPRW - pscLast must be greater than psc, if pscLast is configured
On-line
On-line
On-line
On-line
On-line
On-line
BTS restart needed
On-line
BTS restart needed
BTS restart needed
BTS restart needed
Not modifiable
psc of ANRPRW - psc must be less than pscLast if this is configured
lnRelWLimitForAnr of ANRPRW - lnRelWLimitForAnr must be identical in all ANRPRW with same utraCarrierFreqcellsToApplyList of ANRPRW - cellsToApplyList is not allowed to have duplicated entries nor is it allowed to have in more than one ANRPRW with same utraCarrierFreq the list omitted or empty
On-line
BTS restart needed
BTS restart needed
BTS restart needed
On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
bfdActivation of BFD - Parameter bfdAdminUp is only relevant if parameter bfdActivation has value true.
Not modifiable
On-line
On-line
On-line
On-line
On-line
Not modifiable
On-line
On-line
On-line
On-line
On-line
bfdType of BFD - - For Multi Hop BFD, the value range is 4784, 49152...65535 and the default value = 4784. - For Single Hop BFD the value range is 3784, 49152...65535 and the default value = 3784.
faultName of BTSSCL - faultName must be unique in the list
alToggSuppList of BTSSCL - the faultName must be unique within alToggSuppList
On-line
BTS restart needed
On-line
BTS restart needed
Not modifiable
On-line
BTS restart needed
On-line
BTS restart needed
BTS restart needed
BTS restart needed
BTS restart needed
lnBtsId of LNBTS - btsId must be same as lnBtsId.btsId of IPNO - btsId must be same as btsid.mrbtsId of MRBTS - btsId must be same as mrbtsId.
gpsInUse of BTSSCL - if gpsInUse is 'true', btsSyncMode must be configuredgpsCableLength of BTSSCL - gpsCableLength must be configured if btsSynMode set to 'PhaseSync' (precondition: gpsTotalAntennaLineDelay not specified)
gpsInUse of BTSSCL - only if gpsInUse is 'true' (and additionally syncPropagationEnabled is 'true'), ext1ppsClkOutOn is allowed to be set to 'true'syncPropagationEnabled of BTSSCL - only if syncPropagationEnabled is 'true' (and additionally gpsInUse is 'true'), ext1ppsClkOutOn is allowed to be set to 'true'
syncPropagationEnabled of BTSSCL - only if syncPropagationEnabled is 'true', ext2M048ClkOutOn can be set to 'true'
gpsInUse of BTSSCL - gpsCableLength shall be configured only if gpsInUse is set to 'true' (precondition: btsSynMode set to 'PhaseSync')gpsTotalAntennaLineDelay of BTSSCL - If gpsTotalAntennaLineDelay is specified gpsCableLength shall not be configured (precondition: btsSynMode set to 'PhaseSync')
gpsInUse of BTSSCL - If gpsInUse is set to 'true' and synchronisation is delivered from co-located BTS then gpsCtrlBlockForCoLocatedBts shall be set to value 'true' to avoid unnecessary alarms, for gpsInUse set to 'false' - gpsCtrlBlockForCoLocatedBts must be set gpsCableLength of BTSSCL - the setting of gpsCableLength is only valid if gpsInUse is set to 'true' and gpsTotalAntennaLineDelay is not definedgpsTotalAntennaLineDelay of BTSSCL - the setting of gpsTotalAntennaLineDelay is only valid if gpsInUse is set to 'true' and gpsCableLength is not definedgpsInUse of BTSSCL - gpsTotalAntennaLineDelay shall be configured only if gpsInUse is set to 'true' (precondition: btsSynMode set to 'PhaseSync')gpsCableLength of BTSSCL - BTSSCL-gpsCableLength:If gpsCableLength is configured gpsTotalAntennaLineDelay value shall not be specified (precondition: btsSynMode set to
BTS restart needed
On-line
On-line
BTS restart needed
Not modifiable
On-line
On-line
Requires object locking
Not modifiable
On-line
On-line
On-line
btsSyncMode of BTSSCL - only if btsSyncMode is set to 'PhaseSync', holdOverModeUsed is allowed to be set to 'true'
resourceList of LCELL - if in resourceList more than 2 RX antenna lines are configured, rfSharingEnabled must be set to 'false'linkList of SMOD - When rfSharingEnabled is set to value 'true' the linkList must contain three items with linkId values 1, 2 and 3 (one value for each item)ext1ppsClkOutOn of BTSSCL - FSMr3: ext1ppsClkOutOn can only be set to 'true' if syncPropagationEnabled is 'true' (in addition to gpsInUse set to 'true')ext2M048ClkOutOn of BTSSCL - FSMr3: ext2M048ClkOutOn can only be set to 'true' if syncPropagationEnabled is 'true'
btsSyncMode of BTSSCL - if tdmInUse is 'true', btsSyncMode must be set to 'PhaseSync' (precondition: actTopPhaseSynch is 'true')
caSchedFairFact of CAREL - caSchedFairFact in P-LNCEL and S-LNCEL shall have the same value
cqiPerSbCycK of LNCEL - cqiPerSbCycK must be identical in P-LNCEL and S-LNCEL if carrier aggregation is configureddeltaPucchShift of LNCEL - deltaPucchShift in P-LNCEL must be <= 2 if carrier aggregation is configureddlChBw of LNCEL - for dlChBw of '1.4 MHz' or '3 MHz' the creation of a CDFIM instance is not allowedsiMessageSibType of LNCEL - If any siMessageSibType in sibSchedulingList is set to 'SIB8', a CDFIM instance is mandatory required (precondition: dlChBw is '5 MHz' or higher)act1xCsfb of LNBTS - if act1xCsfb is set to 'true' and additionally rttCsfbType is not set to 'forbidden' in the LNCEL instance csfbRegParam1xRtt must be configuredrttCsfbType of LNCEL - if rttCsfbType is not set to 'forbidden' in the LNCEL instance and additionally act1xCsfb is set to 'true' csfbRegParam1xRtt must be configured
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actHOtoHrpd of LNBTS - if actHOtoHrpd is set to 'true' hoRegParamHrpd must be configured
hrpdPreRegZoneId of CDFIM - hrpdPreRegZoneId must be configured if hrpdPreRegAllowed is set to 'true'
hrpdPreRegAllowed of CDFIM - if hrpdPreRegAllowed is set to 'true' hrpdPreRegZoneId must be configuredhrpdSecPreRegZoneId1 of CDFIM - hrpdSecPreRegZoneId1 can only be configured if hrpdPreRegZoneId is specifiedhrpdPreRegZoneId of CDFIM - only if hrpdPreRegZoneId is specified hrpdSecPreRegZoneId1 can be configuredhrpdSecPreRegZoneId2 of CDFIM - hrpdSecPreRegZoneId2 can only be configured if hrpdSecPreRegZoneId1 is specifiedhrpdSecPreRegZoneId1 of CDFIM - hrpdSecPreRegZoneId1 cannot be deleted if hrpdSecPreRegZoneId2 is still configured
tResHrpd of CDFIM - tResHrpd becomes mandatory if for this structure at least one entry is provided
hrpdBdClNcl of CDFIM - must be equal to one hrpdBdClBcl list entry
cellReSelPrio of LNCEL - must be unequalrttCResPrio of CDFIM - must be unequalgCelResPrio of GNFL - must be unequaleutCelResPrio of IRFIM - must be unequaluCelResPrio of UFFIM - must be unequal
dlChBw of LNCEL - dlChBw set to '5MHz' might impact the total number of hrpdNCListmaxCrSibDl of LNCEL - maxCrSibDl value impacts the total allowed number of hrpdNCListhrpdBdClList of CDFIM - If at least one element of this list is provided then hrpdBdClList structure with at least one entry is mandatory with all its mandatory parameters
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hrpdBdClBcl of CDFIM - hrpdBdClNcl must be equal to one hrpdBdClBcl list entry
tResRtt of CDFIMrttNCList of CDFIM
rttBdClNcl of CDFIM - rttBdClNcl must be equal to one rttBdClBcl in same CDFIM instance
cellReSelPrio of LNCEL - must be unequalhrpdCResPrio of CDFIM - must be unequalgCelResPrio of GNFL - must be unequaleutCelResPrio of IRFIM - must be unequaluCelResPrio of UFFIM - must be unequal
dlChBw of LNCEL - dlChBw set to '5MHz' might impact the total number of rttNCListmaxCrSibDl of LNCEL - maxCrSibDl value impacts the total allowed number of rttNCListhrpdNCList of CDFIM - total number of list items of hrpdNCList and rttNCList of all CDFIM per LNCEL depends on dandwidth and maxCrSibDl (please refer to rttNCList or hrpdNCList)
rttCellId of CDFIM - maximum 40 rttCellId per rttArfcnrttExSel of CDFIM - maximum 16 rttCellId and rttExSel set to 'R8ListPartOnly' per rttArfcn
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On-line rttArfcn of CDFIM - maximum 40 rttCellId per rttArfcn
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rttBdClBcl of CDFIM - rttBdClNcl must be equal to one rttBdClBcl in same CDFIM instancerttNCList of CDFIM - maximum 16 different rttBdClNcl per rttNCListrttArfcn of CDFIM - maximum 16 different rttArfcn per rttBdClNcl
rttArfcn of CDFIM - maximum 16 rttCellId with rttExSel set to 'R8ListPartOnly' per rttArfcn
hrpdBdClList of CDFIM - at least one list item in hrpdBdClList with all its mandatory parameters is required if tResHrpd is configuredhrpdNCList of CDFIM - at least one list item in hrpdNCList with all its mandatory parameters is required if tResHrpd is configured
rttBdClList of CDFIM - at least one list item in rttBdClList with all its mandatory parameters is required if tResRtt is configuredrttNCList of CDFIM - at least one list item in rttNCList with all its mandatory parameters is required if tResRtt is configured
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Requires object locking
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Requires object locking mncLength of CRGPR
cellResourceGroupPrId of LNCEL - if the cellResourceGroupId does refer on an CRGPR instance, the CRGPR instance must exist
plmnGroupId of CRGPR - a list item in plmnGroupShareList with the defaultPlmnGroupId must exist
mcc of LNBTS - the primary PLMN (mcc, mnc and mncLength) of the eNB must be a list item in plmnGroupListmnc of LNBTS - the primary PLMN (mcc, mnc and mncLength) of the eNB must be a list item in plmnGroupList
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plmnGroupId of CRGPR - a list item in plmnGroupShareList with the plmnGroupId must exist
plmnGroupId of CRGPR - for each plmnGroupList-plmnGroupId a list item in plmnGroupShareList must exist
plmnGroupId of CRGPR - for each plmnGroupList-plmnGroupId a list item with plmnGroupShareList-plmnGroupId must existdefaultPlmnGroupId of CRGPR - the defaultPlmnGroupId list item with plmnGroupShareList-plmnGroupId must existplmnGroupShare of CRGPR - sum of all plmnGroupShare per plmnGroupShareList must be 100%
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enableSoam of IPNO - The limitations shall be enforced when Service OAM (SOAM) is enabled.
linkOAMProfile of ETHLK - The value of linkOAMEnabled shall only be set to true, if the value of linkOAMProfile is not the empty string but references an existing instance of object class OAMPRF.
l2VlanIdList of ETHLK - Default VLAN id cannot be configured as a part of interface's configured VLAN id list
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On-line gerArfcnVal of GNFL
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dlChBw of LNCEL - for dlChBw of '1.4 MHz' the creation of a GFIM instance is not allowedsiMessageSibType of LNCEL - If any siMessageSibType in sibSchedulingList is set to 'SIB7', a GFIM instance is mandatory required
cellReSelPrio of LNCEL - must be unequalhrpdCResPrio of CDFIM - must be unequalrttCResPrio of CDFIM - must be unequaleutCelResPrio of IRFIM - must be unequaluCelResPrio of UFFIM - must be unequal
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dlChBw of LNCEL - the allowed number of GNFL instances depends on dlChBwmaxCrSibDl of LNCEL - the allowed number of GNFL instances depends on maxCrSibDl
gtpuPathSupint of GTPUgtpuT3Resp of GTPU
gtpuN3Reqs of GTPUgtpuPathSupint of GTPU - only applicable if gtpuPathSupint greater 0gtpuT3Resp of GTPU - gtpuT3Resp must be configured smaller than gtpuPathSupint if gtpuPathSupint is configured to a value greater than '0'
gtpuN3Reqs of GTPUgtpuPathSupint of GTPU - if gtpuPathSupint greater '0', gtpuPathSupint > gtpuT3Resp
sgwIpAddress of GTPU - sgwIpAddress must be unique in all sgwIpAddressList list items with identical transportNwIdtransportNwId of GTPU - transportNwId must be different for sgwIpAddressList list items having same sgwIpAddress
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sgwIpAddress of GTPU - sgwIpAddress must be unique in all sgwIpAddressList list items with identical transportNwIdtransportNwId of GTPU - transportNwId must be different for sgwIpAddressList list items having same sgwIpAddressdlChBw of LNCEL - dependent on the dlChBw maxCrSibDl might be restricted in the value rangemaxCrSibDl of LNCEL - maxCrSibDl might be restricted in the value range (dependent on the dlChBw)dlChBw of LNCEL - dependent on dlChBw and configured maxCrSibDl the total number of list items of intrFrNCList and intrFrBCList is restrictedmaxCrSibDl of LNCEL - dependent on maxCrSibDl and the configured dlChBw the total number of list items of intrFrNCList and intrFrBCList is restrictedphyCellId of LNCEL - phyCellId of the cell must not be included in the configured range intrFrNCList-rangeIntraPci
phyCellId of LNCEL - phyCellId of the cell must be different to startIntraPci
dlChBw of LNCEL - dependent on dlChBw and configured maxCrSibDl the total number of list items of intrFrNCList and intrFrBCList is restrictedmaxCrSibDl of LNCEL - dependent on maxCrSibDl and the configured dlChBw the total number of list items of intrFrNCList and intrFrBCList is restrictedphyCellId of LNCEL - physCellIdNcl must be different to the phyCellId of the LNCELphysCellIdNcl of IAFIM - value must be unique per LNCEL
serverIpAddress of IDNS - If the primary DNS is configured but not accessible then the secondary DNS is queried
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On-line trafficPathShapingEnable of IEIF
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localIpv6Addr of IEIF - When actIpv6 = TRUE and If M/S plane application are using this interface, then localIpAddr is mandatory
localIpAddr of IEIF - When actIpv6 = TRUE and C/U V6 plane application are using this interface, then localIpv6Addr is mandatory.
localIpv6Addr of IEIFuPlaneIpv6Address of IPNOcPlaneIpv6Address of IPNOlocalIpv6Addr of IVIF
localIpAddr of IEIF - When actIpv6 = TRUE and If M/S plane application are IEIF-localIpAddr interface, then netmask is mandatory.
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BTS restart needed
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cPlaneIpAddress of IPNO - If actIpv6=False parameters cplaneIpAddress must be configured.uPlaneIpAddress of IPNO - If actIpv6=False parameters uPlaneIpAddress must be configured.uPlaneIpv6Address of IPNO - If actIpv6=True parameters uPlaneIpv6Address must be configuredmainTransportNwId of IPNO - In case actSeparationRanSharing=TRUE parameter "maintransportNwId" in MOC "IPNO" must be configured
cPlaneIpAddress of IPNO - Additional operator's C-Plane address must not be equal to C-Plane address used by any other operator
uPlaneIpAddress of IPNO - Additional operator's U-Plane address must not be equal to U-Plane address used by any other operator
mainTransportNwId of IPNO - transportNwId must not be equal to mainTransportNwId
BTS restart needed
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BTS restart needed
BTS restart needed
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BTS restart needed
BTS restart needed
actFastIpRerouting of IPNOactIpv6 of IPNO - When actIpv6 = FALSE then cPlaneIpAddress is mandatory parameter else cPlaneIpAddress is optional parameter
actIpv6 of IPNO - When actIpv6 = TRUE, then cPlaneIpv6Address is mandatory parameter else cPlaneIpv6Address is optional parameter.
transportNwId of IPNO - mainTransportNwId may not be equal to transportNwId in MOC IPNO
transportNwId of LTAC - mainTransportNwId may not be equal to transportNwId in MOC IPNO
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BTS restart needed
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servingOms of IPNO - If more than 1 IP is configured, then to change the IP address of the current serving OMS (primary/secondary),1. Execute an OMS switchover2. Change the OMS IP that is not the current serving OMS
actTopFreqSynch of TOPF - If actTopFreqSynch is enabled then splaneIpAddress is mandatory .
servingOms of IPNO - If more than 1 IP is configured, then to change the IP address of the current serving OMS (primary/secondary),1. Execute an OMS switchover2. Change the OMS IP that is not the current serving OMS
secOmsIpAddr of IPNO - To be able to switch to the secondary OMS, either autonomously or via administrative switch-over, or to administratively assign/lock to the secondary OMS, the secondary OMS IP address must have a valid value.servingOmsAdminSetting of IPNO - If the configured secondary OMS IP address is unreachable, recovery via automatic OMS switch-over is possible only if servingOmsAdminSetting is "automatic".secOmsIpAddr of IPNO - To be able to switch to the secondary OMS, either autonomously or via administrative switch-over, or to administratively assign/lock to the secondary OMS, the secondary
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BTS restart needed
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actFastIpRerouting of IPNOactIpv6 of IPNO - When actIpv6 = FALSE then uPlaneIpAddress is mandatory parameter else uPlaneIpAddress is optional parameter.
actIpv6 of IPNO - When actIpv6 = TRUE, then uPlaneIpv6Address is mandatory parameter else uPlaneIpv6Address is optional parameter.
sourceTwoDiscr of IPRM - Parameter sourceTwoIpAddr is only relevant if parameter sourceTwoDiscr has value SINGLE or RANGE.
sourceTwoDiscr of IPRM - Parameter sourceTwoNetMask is only relevant if the parameter sourceTwoDiscr has the value RANGE.
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ipSecEmBypassEnabled of IPSECC - If ipSecEmBypassEnabled is true then parameter "ipSecEmBypassCtrlIpAddr " must be speicified with valid ip address
ipSecEmBypassCtrlIpAddr of IPSECC - If ipSecEmBypassEnabled is true then parameter "ipSecEmBypassCtrlIpAddr " must be speicified with valid ip address.
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On-line ipSecStatus of IPSECC - This parameter is mandatory if ipSecStatus is "PROTECT"
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On-line dlCarFrqEut of IRFIM - value per cell must be unique
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hrpdCResPrio of CDFIM - must be unequalrttCResPrio of CDFIM - must be unequalgCelResPrio of GNFL - must be unequaluCelResPrio of UFFIM - must be unequal
dlChBw of LNCEL - number of intFrBCList list item depend on dlChBwmaxCrSibDl of LNCEL - number of intFrBCList list item depend on maxCrSibDl (applicable for dlChBw set to '5MHz' only)
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dlChBw of LNCEL - number of intFrNCList list item depend on dlChBwmaxCrSibDl of LNCEL - number of intFrNCList list item depend on maxCrSibDl (applicable for dlChBw set to '5MHz' only)
threshServingLowQR9 of LNCEL - if threshServingLowQR9 is set in the parent LNCEL instance, interFrqQThrR9 is mandatory required in all existing IRFIM instances
dlChBw of LNCEL - number of allowed IRFIM instances depend on dlChBw and maxCrSibDlmaxCrSibDl of LNCEL - number of allowed IRFIM instances depend on dlChBw and maxCrSibDlintFrBCList of IRFIM - the number of list items of intFrBCList depend on the number of IRFIM instances of the LNCEL (please refer to the definition in intFrBCList)
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localIpv6Addr of IVIF - When actIpv6 = TRUE and If M/S plane application are using this interface, then localIpAddr is mandatory
actIpv6 of IPNO - When actIpv6 = TRUE and C/U V6 plane application are using this interface, then localIpv6Addr is mandatory.
actIpv6 of IPNO - When actIpv6 = TRUE and C/U V6 plane application are using this interface, then localIpv6Addr is mandatory.
localIpAddr of IVIF - When actIpv6 = TRUE and If M/S plane application are IVIF-localIpAddr interface, then netmask is mandatory
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BTS restart needed
BTS restart needed
BTS restart needed
BTS restart needed
BTS restart needed
lcrId of LNCEL - the LNCEL with lcrId must always have a related LCELL instance
actRepeaterMode of LNCEL - if actRepeaterMode is set to 'Dedicated' or 'Coupled' repeaterDelay must be configured, for actRepeaterMode set to 'none' repeaterDelay shall not be configured
dlMimoMode of LNCEL - if dlMimoMode is set 'Single TX' resourceList shall have one TX antenna, for dlMimoMode different to 'SingleTX' the resourceList shall have more than one TX antenna, where in case less than 4 TX antenna lines are configured, antlId of ANTL - Identifies the specific antenna line and it's ID assigned to the local cell.
actSuperCell of LNCEL - if actSuperCell is set to value 'true' in the related LCELL instance subCellId must be configured
BTS restart needed
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sectorId of LCELL - only applicable for carrier aggregation:P-LNCEL and S-LNCEL must have an identical sectorId definedactDLCAggr of LNBTS - if actDLCAggr is set to 'true' sectorId must be configured for all LCELL instances, same value for two cells that shall be aggregated, unique for non aggregated cells
lnAdjlId of LNADJL - a LNADJL instance can only be created if the related LNADJ does have the adjEnbId configuredadjEnbId of LNADJplmnId of LNADJadjEnbId of LNADJ - depends on existence of cPlaneIpAddrcPlaneIpAddr of LNADJ - must be uniquecPlaneIpAddrCtrl of LNADJ - cPlaneIpAddr must be set if cPlaneIpAddrCtrl is 'oamControlled'adjEnbId of LNADJ - adjEnbId must be set if cPlaneIpAddrCtrl is 'enbControlled'plmnId of LNADJ - plmnId must be set if cPlaneIpAddrCtrl is 'enbControlled'cPlaneIpAddr of LNADJ - cPlaneIpAddr must be set if cPlaneIpAddrCtrl is 'oamControlled'
maxNumOfLnadjLimit of LNBTS - maxNumOfLnadjLimit defines the total number of LNADJ instances per eNB
adjEnbId of LNADJplmnId of LNADJlnBtsId of LNBTSmcc of LNBTSmnc of LNBTS
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Not modifiable mnc of LNADJ
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eNACCAllowed of LNRELG - number of target cells for eNACC is restricted to maximal 32 per LTE cell and frequency bandsrvccAllowed of LNRELG - number of target cells for SRVCC is restricted to maximal 32 per LTE cell and frequency band
gTargetLac of LNADJGmcc of LNADJGmnc of LNADJGmncLength of LNADJG
gTargetCi of LNADJGmcc of LNADJGmnc of LNADJGmncLength of LNADJG
gTargetCi of LNADJGgTargetLac of LNADJGmnc of LNADJGmncLength of LNADJG
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On-line mncLength of LNADJL
On-line mnc of LNADJL
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gTargetCi of LNADJGgTargetLac of LNADJGmcc of LNADJGmncLength of LNADJG
gTargetCi of LNADJGgTargetLac of LNADJGmcc of LNADJGmnc of LNADJG
systemInfoType of LNADJG - the list must contain at least one element, when systemInfoType is set to 'si' or 'psi'
systemInfoListGeran of LNADJG - must contain at least one element, when systemInfoType is set to 'si' or 'psi'
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ecgiLcrId of LNADJL - the ecgiLcrId must be unique within all LNADJL instances of a neighbor eNB (LNADJ)
adjEnbId of LNADJ - a LNADJL instance can only be created if the related LNADJ does have the adjEnbId configuredplmnId of LNADJ - a LNADJL instance can only be created if the related LNADJ does have the plmnId configured
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On-line mncLength of LNADJW
On-line mnc of LNADJW
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uTargetCid of LNADJW - uTargetCid combined with primaryPlmnId and uTargetRncId must be unique within all LNADJW instances in the eNBuTargetRncId of LNADJW - uTargetRncId combined with primaryPlmnId and uTargetCid must be unique within all LNADJW instances in the eNB
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On-line mncLength of LNADJW
On-line mnc of LNADJW
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actSrvccToWcdma of LNBTS - if actSrvccToWcdma is 'true', srvccHoInd is mandatory required
uTargetRncId of LNADJW - uTargetRncId combined with uTargetCid and primaryPlmnId combined must be unique within all LNADJW instances in the eNB; for values of uTargetRncId greater than '4095', uTargetCid maximal value is '4095'uTargetScFdd of LNADJW - uTargetScFdd paired with uTargetFreq must be unique in all LNADJW instances referred by the LNRELW objects of one LNCELcsfbPsHoAllowed of LNRELW - The number of LNRELW objects with csfbPsHoAllowed set to 'allowed' and referring to LNADJW objects with equal uTargetFreq, must not exceed the configured
uTargetCid of LNADJW - uTargetCid combined with uTargetRncId and primaryPlmnId combined must be unique within all LNADJW instances in the eNB, where for uTargetRncId specified greater than '4095' uTargetCid is limited to maximal value '4095'uTargetFreq of LNADJW - uTargetFreq paired with uTargetScFdd must be unique in all LNADJW instances referred by the LNRELW objects of one LNCELplmnId of LNRELW - cell global identity (plmnId + uTargetRncId + uTargetCid) must be uniquerttCarrierFreq of LNHOX - restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to 'allowed')marketId of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTS
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Requires object locking
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rttCarrierFreq of LNHOX - restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to 'allowed')marketId of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTS
marketId of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTSswNo of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTS
marketId of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTSswNo of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTS
marketId of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTSswNo of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTS
marketId of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTSswNo of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTS
marketId of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTSswNo of LNADJX - LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same LNBTS
hrpdNCList of CDFIM - allowed number of list items of hrpdNCList in all CDFIM per LNCEL depends on act1xCsfb (please refer to hrpdNCList)actCSFBRedir of LNBTS - only if actCSFBRedir is set to 'false' act1xCsfb can be configured to 'true'actEnhAcAndGbrServices of LNBTS - only if actEnhAcAndGbrServices is set to 'true', act8EpsBearers can be configured to 'true'
actETWS of LNBTS - If actETWS is set to 'true', actCMAS must be set to 'false'pwsWithEmAreaId of LNBTS - If actCMAS is set to 'true', pwsWithEmAreaId is mandatory requiredsiMessageSibType of LNCEL - If actCMAS is set to 'true', an sibSchedulingList with siMessageSibType set to 'SIB12' is mandatory required
actRedirect of LNBTS - actCSFBRedir set to 'Disabled' depends on actRedirectredrtId of REDRT - if actCSFBRedir is 'Enabled', at least one REDRT instance must exist per LNCELactEmerCallRedir of LNBTS - actCSFBRedir set to 'Disabled' depends on actEmerCallRediractMDTCellTrace of LNBTS - actMDTCellTrace can be set to 'true' only if if actCellTrace is set to 'true'
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Requires object locking
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BTS restart needed
BTS restart needed
BTS restart needed
BTS restart needed
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cellSrPeriod of LNCEL - cellSrPeriod impacts validation for maxNumRrc (precondition: actCompChecks set to 'true')cqiPerNp of LNCEL - cqiPerNp impacts validation for maxNumRrc (precondition: actCompChecks set to 'true')dlChBw of LNCEL - actConvVoice must be configured to 'false' if at least one LNCEL instance is set to '3 MHz' or '1.4 MHz'maxNumRrc of LNCEL - maxNumRrc is impacted if actConvVoice is set to 'true' (calculation in maxNumRrc)ovlha of LNBTS - ovlha must be configured if actCplaneOvlHandling is set to 'true'
actHOtoWcdma of LNBTS - actCsfbPsHoToUtra can be set to 'true' only if actHOtoWcdma is set to 'true'actCSFBRedir of LNBTS - actCsfbPsHoToUtra can be set to 'true' only if actCSFBRedir is 'Enabled'act1xCsfb of LNBTS - only if act1xCsfb is set to 'false', actCsfbPsHoToUtra can be configured to 'true'actFlexBbUsage of LNBTS - FSMr2: only if actFlexBbUsage is set to 'true' actDLCAggr can be set to 'true'actEnhAcAndGbrServices of LNBTS - only if actEnhAcAndGbrServices is set to 'true' actDLCAggr can be set to 'true'
resourceList of LCELL - if in the resourceList more than 2 RX or 3 TX antenna lines are configured, actDualBand can only be set to 'false'
resourceList of LCELL - two LCELL instances can share the same antenna line (ANTL) with TXRX or TX –txRxUsage if actDualCarrier is configured to value 'true', for actDualCarrier set to 'false' one antenna line (ANTL) can be configured with TXRX or TX –actCSFBRedir of LNBTS - only if actCSFBRedir is set to 'Disabled', actDualRx1xCsfb is allowed to be configured to 'true'actEmerCallRedir of LNBTS - only if actEmerCallRedir is set to 'Disabled', actDualRx1xCsfb is allowed to be configured to 'true'actNonGbrServiceDiff of LNBTS - only if actNonGbrServiceDiff is set to 'true' actERabModify can be set to 'true'
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etwsPrimNotifBcDur of LNBTS - etwsPrimNotifBcDur is mandatory required if actETWS is set to true.pwsWithEmAreaId of LNBTS - If actETWS is set to 'true', pwsWithEmAreaId is mandatory requiredsiMessageSibType of LNCEL - 'SIB10' and 'SIB11' must be configured if actETWS is set to 'true'actRedirect of LNBTS - actEmerCallRedir set to 'Disabled' depends on actRedirectredrtId of REDRT - if actEmerCallRedir is 'Enabled', at least one REDRT instance must exist per LNCELmaxNumRrcEmergency of LNCEL - maxNumRrcEmergency is impacted if actEmerCallRedir is set to 'Enabled' (calculation in maxNumRrcEmergency)
dlChBw of LNCEL - actEnhAcAndGbrServices must be configured to 'false' if at least one LNCEL instance is set to '3 MHz' or '1.4 MHz'actMultBearers of LNBTS - actMultBearers must be 'true' if actEnhAcAndGbrServices is set to 'true'maxNumActUE of LNCEL - maxNumActUE is restricted to half if actFlexBbUsage is set to 'true' (precondition: dlChBw set to '5 MHz' or '10 MHz')maxNumRrc of LNCEL - maxNumRrc is restricted if actFlexBbUsage is set to 'true'actRedirect of LNBTS - actGsmRedirWithSI change to 'true' depends on actRedirectredirRat of REDRT - actGsmRedirWithSI change to 'true' depends on configured redirRatactCSFBRedir of LNBTS - actGsmRedirWithSI change to 'true' depends on actCSFBRediractHOtoWcdma of LNBTS - only if actHOtoWcdma is set to 'false' actHOtoHrpd can be configured to 'true'actImmHRPD of LNBTS - only if actImmHRPD is set to 'true' actHOtoHrpd can be configured to 'true'acteNACCtoGSM of LNBTS - only if acteNACCtoGSM is set to 'false' actHOtoHrpd can be configured to 'true'
prohibitPsHOtoWcdma of LNBTS - prohibitPsHOtoWcdma can be configured to 'true' if actHOtoWcdma is 'true'actCsfbPsHoToUtra of LNBTS - actHOtoWcdma change to 'false' depends on actCsfbPsHoToUtra
actIMSEmerSessR9 of LNBTS - only if actIMSEmerSessR9 is set to 'true' actHighPrioServices can be configured to 'true'actEnhAcAndGbrServices of LNBTS - only if actEnhAcAndGbrServices is set to 'true' actHighPrioServices can be configured to 'true'dlChBw of LNCEL - FSMr3:dlChBw must be '15 MHz' or '20 MHz' if actHighRrc is set to 'true'maxNumActUE of LNCEL - FSMr3:maxNumActUE must be less than or equal to 840 if actHighRrc is set to 'false'
maxNumRrcEmergency of LNCEL - maxNumRrcEmergency is impacted if actIMSEmerSessR9 is set to 'true' (calculation in maxNumRrcEmergency)actConvVoice of LNBTS - if actConvVoice is 'false', actIMSEmerSessR9 must be 'false'
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redirectPrio of REDRT - redirectPrio must be unique for all REDRT instances belonging to same LNCEL instance, when actIdleLB is set to 'false'csFallBPrio of REDRT - csFallBPrio must be unique for all REDRT instances belonging to same LNCEL instance, when actIdleLB is set to 'false'threshold2a of LNCEL - if actIfHo is 'enabled' threshold2a must be configureda1TimeToTriggerDeactInterMeas of LNCEL - if actIfHo is 'enabled' a1TimeToTriggerDeactInterMeas must be configuredactHOtoHrpd of LNBTS - actHOtoHrpd can only be configured to 'true' if actImmHRPD is set to 'true'
dlChBw of LNCEL - actInterFreqLB must be configured to 'false' if at least one LNCEL instance is set to '3 MHz' or '1.4 MHz'actIfHo of LNBTS - actIfHo must be set to 'enabled' if actInterFreqLB is set to 'true'upperMarginCIO of LNCEL - If upperMarginCIO is mandatory required if actIntraFreqLoadBal is set to 'true'lowerMarginCIO of LNCEL - If lowerMarginCIO is mandatory required if actIntraFreqLoadBal is set to 'true'actOtdoa of LNCEL - actOtdoa in at least one LNCEL instance must be configured to 'true' if actLPPaOTDOA is set to 'true'
actCellTrace of LNBTS - only if actCellTrace is set to 'true' actMDTCellTrace can be set to 'true'activateMeas of LNCEL - activateMeas for measurementType set to 'periodicIntraFreq' can only be set to 'true' if actMDTCellTrace is 'true'intFrBCList of IRFIM - allowed number of intFrBNCList list items depend on actMFBI (please refer to IRFIM-intFrBCList for details)intFrNCList of IRFIM - allowed number of intFrNCList list items depend on actMFBI (please refer to IRFIM-intFrNCList for details)maxNumRrc of LNCEL - maxNumRrc is impacted when actMultBearers is set to 'true' (calculation in maxNumRrc)maxNumRrcEmergency of LNCEL - maxNumRrcEmergency is impacted when actMultBearers is set to 'true' (calculation in maxNumRrcEmergency)
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actEnhAcAndGbrServices of LNBTS - actMultGbrBearers can only be set to 'true' if actEnhAcAndGbrServices is set to 'true'
qciSupp of LNBTS - need to be set to 'ENABLE' if actNonGbrServiceDiff is set to 'false'actOperatorQCI of LNBTS - actOperatorQCI can be set to 'true' only if actnonGbrServiceDiff is set to 'true'actERabModify of LNBTS - actERabModify can only be set to 'true' if actNonGbrServiceDiff is set to 'true'rfSharingEnabled of BTSSCL - rfSharingEnabled must be set to 'false', if actOTNRecovery is configured to 'true'
actNonGbrServiceDiff of LNBTS - actOperatorQCI must be set to 'false' if actnonGbrServiceDiff is set to 'false'
actEnhAcAndGbrServices of LNBTS - only if actEnhAcAndGbrServices is set to 'true', actOperatorQCIGbr is allowed to be configured to 'true'
redrtId of REDRT - an instance of REDRT must be created when actRedirect is set to 'enabled'actCSFBRedir of LNBTS - actRedirect set to 'disabled' depends on actCSFBRedir:pubic;LNBTS-actEmerCallRedir:actRedirect set to 'disabled' depends on actEmerCallRedir
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moDPrId of MODPR - only if a MODPR instance exist, actSelMobPrf can be set to 'true'
actConvVoice of LNBTS - only if actConvVoice is set to 'true', actSrvccToGsm can be set to 'true'actHOtoHrpd of LNBTS - actHOtoHrpd can only be configured to 'true' if actSrvcctoGSM is set to 'false'
actHOtoWcdma of LNBTS - actHOtoWcdma can be only set to 'false' if actSrvccToWcdma is set to 'false' actConvVoice of LNBTS - actSrvcctoWcdma can be set to 'true' only if actConvVoice is set to 'true'prohibitPsHOtoWcdma of LNBTS - actSrvcctoWcdma can be set to 'true' only if prohibitPsHOtoWcdma is set to 'false'
drxOnDuratT of LNCEL - drxOnDuratT must be configured to a value greater than '8' if actUeBasedAnrInterFreqLte is set to 'true' (precondition: cellResourceSharingMode is not set to 'none')drxRetransT of LNCEL - drxRetransT must be configured to a value greater than '8' if actUeBasedAnrIntraFreqLte is set to 'true' (precondition: cellResourceSharingMode is not set to 'none')filterCoefficientCpichEcn0 of LNCEL - filterCoefficientCpichEcn0 is mandatory required if actUeBasedAnrUtran is set to 'true'filterCoefficientCpichRscp of LNCEL - filterCoefficientCpichRscp is mandatory required if actUeBasedAnrUtran is set to 'true'actHighRrc of LNBTS - only if actHighRrc is set to 'false' actUlCoMp can be configured to 'true'ulCoMpId of ULCOMP - at least one ULCOMP instance must exist if actUlCoMp is set to 'true'
actHOtoHrpd of LNBTS - actHOtoHrpd can only be configured to 'true' if acteNACCtoGSM is set to 'false'
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mncLength of LNBTS - Value of mncLength parameter should determine whether mnc should contain 2 digts or 3digts
mnc of LNBTS - mnc should be of 2 digits or 3 digits based on the value of mncLength parameter
actEnhAcAndGbrServices of LNBTS - If actEnhAcAndGbrServices is set to 'true' congWeightAlg is mandatory required
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administrativeState of LNCEL - if administrativeState is set to 'shutting down', enableGrflShdn must be 'Enabled', no limitation otherwisepMax of LNCEL - enableGrflShdn can be set to 'Enabled' only if pMax is greater than 25 dBm, no limitation otherwise
actETWS of LNBTS - If actETWS is set to 'true', etwsPrimNotifBcDur is mandatory required
mncLength of LNBTS - Value of mncLength parameter should determine whether mnc should contain 2 digts or 3digts
mnc of LNBTS - mnc should be of 2 digits or 3 digits based on the value of mncLength parameter
hpsSessArpMin of LNBTS - hpsSessArpMin =< hpsSessArpMax
hpsSessArpMax of LNBTS - hpsSessArpMax >= hpsSessArpMin
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imsEmerPlmnConfig of LNBTS - PLMN-ID must be unique
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adjEnbId of LNADJbtsId of IPNO - lnBtsId must be same as btsid.mrbtsId of MRBTS - lnBtsId must be same as mrbtsId.btsId of BTSSCL - lnBtsId must be same as btsid.lnAdjId of LNADJ - the total number of LNADJ instances per eNB shall not exceed the configured value maxNumOfLnadjLimitunitList of MRBTS - unitList does contain the information of the used FSM release
adjEnbId of LNADJmcc of LNADJmcc of LNREL
adjEnbId of LNADJmnc of LNADJmncLength of LNBTSmnc of LNREL
adjEnbId of LNADJplmnId of LNADJmncLength of LNADJmncLength of LNREL
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actCplaneOvlHandling of LNBTS - if actCplaneOvlHandling is set to 'true' ovlha must be configured
pci of LNBTS - pci must be unique for all list entries having identical dlEarfcn
mcc of LNBTS - mcc must be configured when enbId is configuredmnc of LNBTS - mnc must be configured when enbId is configuredmncLength of LNBTS - mncLength must be configured when enbId is configured
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enbId of LNBTS - enbId must be configured when mcc is configured
enbId of LNBTS - enbId must be configured when mnc is configuredmncLength of LNBTS - Value of mncLength parameter should determine whether mnc should contain 2 digts or 3digtsenbId of LNBTS - enbId must be configured when mncLength is configuredmnc of LNBTS - mnc should be of 2 digits or 3 digits based on the value of mncLength parameter
dlEarfcn of LNBTS - for identical dlEarfcn the pci must be unique for all list entries
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actHOtoWcdma of LNBTS - if actHOtoWcdma is 'true', prohibitPsHOtoWcdma can be configured to 'true'actSrvccToWcdma of LNBTS - if actSrvccToWcdma is 'true' prohibitPsHOtoWcdma must be set to 'false'actETWS of LNBTS - If actETWS is set to 'true', pwsWithEmAreaId must be configured.actCMAS of LNBTS - If actCMAS is set to 'true', pwsWithEmAreaId must be configured.emAreaIdList of LNCEL - If pwsWithEmAreaId is set to 'true', emAreaIdList is mandatory required
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pdcpProfIdx of LNBTS - only values (1...5, 104) are allowed for qciTab4-pdcpProfIdxrlcMode of LNBTS - for qciTab4-rlcMode set to 'RLC_AM' qciTab4-pdcpProfIdx must be less than 100, for qciTab4-rlcMode set to 'RLC_UM' qciTab4-pdcpProfIdx must be greater than 100
pdcpProfIdx of LNBTS - for qciTab4-rlcMode set to 'RLC_AM' qciTab4-pdcpProfIdx must be less than 100, for qciTab4-rlcMode set to 'RLC_UM' qciTab4-pdcpProfIdx must be greater than 100rlcProfIdx of LNBTS - for qciTab4-rlcMode set to 'RLC_AM' qciTab4-rlcProfIdx must be less than 100, for qciTab4-rlcMode set to 'RLC_UM' qciTab4-rlcProfIdx must be greater than 100
rlcMode of LNBTS - for qciTab4-rlcMode set to 'RLC_AM' qciTab4-rlcProfIdx must be less than 100, for qciTab4-rlcMode set to 'RLC_UM' qciTab4-rlcProfIdx must be greater than 100rlcProfIdx of LNBTS - only values (1...5, 104) are allowed for qciTab4-rlcProfIdx
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schedulType of LNBTS - if schedulType is 'NON-GBR', lcgid must be at least set to '2', '0' otherwise
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schedulType of LNBTS - if schedulType is 'NON-GBR', schedulPrio must be at least set to '9'
lcgid of LNBTS - if schedulType is 'NON-GBR', lcgid must be at least set to '2', '0' otherwiseschedulPrio of LNBTS - if schedulType is 'NON-GBR', schedulPrio must be at least set to '9'actConvVoice of LNBTS - if actConvVoice is set to 'false', schedulType must be set to 'NON-GBR'
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actNonGbrServiceDiff of LNBTS - if 'false' qciSupp need to be set to ENABLED
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resType of LNBTS - if qciTabOperator-resType is set to 'GBR', delayTarget must be configured
resType of LNBTS - if qciTabOperator-resType is set to 'nonGBR', drxProfileIndex is not allowed to be configured to '2'; if qciTabOperator-resType is set to 'GBR', drxProfileIndex must be configured to a value less than '4'
actTtiBundling of LNCEL - if LNCEL-actTtiBundling is 'true' enforceTtiBundling is allowed to be configured to 'true'
resType of LNBTS - if qciTabOperator-resType is set to 'GBR', l2OHFactorDl must be configured
resType of LNBTS - if qciTabOperator-resType is set to 'GBR', l2OHFactorUl must be configured
resType of LNBTS - if qciTabOperator-resType is set to 'nonGBR', lcgid must be configured to a value greater than '1'; if qciTabOperator-resType is set to 'GBR', lcgid must be configured to a value less than '3'
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resType of LNBTS - if qciTabOperator-resType is set to 'GBR', maxGbrDl must be configured
resType of LNBTS - if qciTabOperator-resType is set to 'GBR', maxGbrUl must be configured
rlcMode of LNBTS - if qciTabOperator-rlcMode is set to 'RLC_AM', pdcpProfIdx must be configured to a value in the range {1,2,...,5}; if qciTabOperator-rlcMode is equal to 'RLC_UM', pdcpProfIdx must be configured to a value in the range {102, 103, 104}resType of LNBTS - if qciTabOperator-resType is set to 'GBR', prio must be configured
qci of LNBTS - qci must be unique within all list items of qciTabOperator
drxProfileIndex of LNBTS - qciTabOperator-rxProfileIndex must be configured different than '2' if resType is set to 'nonGBR'; drxProfileIndex must be less than '4' for resType set to 'GBR'lcgid of LNBTS - qciTabOperator-lcgid must be greater than '1' if resType is set to 'nonGBR'; lcgid must be less than '3' for resType set to 'GBR'
pdcpProfIdx of LNBTS - qciTabOperator-pdcpProfIdx allowed values depend on the configured rlcModeresType of LNBTS - if qciTabOperator-resType is set to 'nonGBR', rlcMode must be configured to 'RLC_AM'rlcMode of LNBTS - dependent on the value of rlcMode, rlcProfIdx is allowed to be configured only to a subset of the value range
resType of LNBTS - if qciTabOperator-resType is set to 'nonGBR', schedulPrio must be configured to a value greater than '8'
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shutdownWindow of LNBTS - shutdownWindow divided by shutdownStepAmount must be equal or greater than 6
shutdownStepAmount of LNBTS - shutdownWindow divided by shutdownStepAmount must be equal or greater than 6
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actUlpcMethod of LNCEL - if actUlpcMethod is set to 'PuschIAwPucchOL' or 'PuschIAwPucchCL', ulpcRssiMaxIAw must be configured
actIfHo of LNBTS - if actIfHo is 'enabled' then a1TimeToTriggerDeactInterMeas must be configuredlnRelWId of LNRELW - if an instance of LNRELW is configured in the LNCEL then a1TimeToTriggerDeactInterMeas must be configuredlnRelGId of LNRELG - if an instance of LNRELG is configured in the LNCEL, a2TimeToTriggerActGERANMeas must be configured
actHOtoHrpd of LNBTS - if actHOtoHrpd is set to 'true' a2TimeToTriggerActHrpdMeas must be configured
actIfHo of LNBTS - if actIfHo is 'enabled' a2TimeToTriggerActInterFreqMeas must be configured
lnRelWId of LNRELW - if an instance of LNRELW is configured in the LNCEL, a2TimeToTriggerActWcdmaMeas must be configured
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dlChBw of LNCEL - if dlChBw set to '1.4 MHz' acBarCsfbOc must not be configured in each conditionmaxCrSibDl of LNCEL - depends on set maxCrSibDl value acBarCsfbOc must not be configured dependent on dlChBwprobFac of LNCEL - If acBarAC has any bits for AC11 to 15 set to 1 then probFac can take only value 0 and so with this restriction values other than 0 for probFac can only be set if all bits of the corresponding acBarAC are set to 0
acBarAC of LNCEL - If acBarAC has any bits for AC11 to 15 set to 1 then probFac can take only value 0 and so with this restriction values other than 0 for probFac can only be set if all bits of the corresponding acBarAC are set to 0dlChBw of LNCEL - if dlChBw set to '1.4 MHz' acBarMMTelVideoOc must not be configured in each conditionmaxCrSibDl of LNCEL - depends on set maxCrSibDl value acBarMMTelVideoOc must not be configured dependent on dlChBwprobFac of LNCEL - If acBarAC has any bits for AC11 to 15 set to 1 then probFac can take only value 0 and so with this restriction values other than 0 for probFac can only be set if all bits of the corresponding acBarAC are set to 0
acBarAC of LNCEL - If acBarAC has any bits for AC11 to 15 set to 1 then probFac can take only value 0 and so with this restriction values other than 0 for probFac can only be set if all bits of the corresponding acBarAC are set to 0
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dlChBw of LNCEL - if dlChBw set to '1.4 MHz' acBarMMTelVoiceOc must not be configured in each conditionmaxCrSibDl of LNCEL - depends on set maxCrSibDl value acBarMMTelVoiceOc must not be configured dependent on dlChBwprobFac of LNCEL - If acBarAC has any bits for AC11 to 15 set to 1 then probFac can take only value 0 and so with this restriction values other than 0 for probFac can only be set if all bits of the corresponding acBarAC are set to 0
acBarAC of LNCEL - If acBarAC has any bits for AC11 to 15 set to 1 then probFac can take only value 0 and so with this restriction values other than 0 for probFac can only be set if all bits of the corresponding acBarAC are set to 0dlChBw of LNCEL - if dlChBw set to '1.4 MHz' acBarOc must not be configured in each conditioneCallAcBarred of LNCEL - parameter eCallAcBarred must be set to 'barred' or 'Not barred' if acBarOc is configuredocAcProbFac of LNCEL - ocAcProbFac must be '0%' if ocAcBarAC is different to '0000'
ocAcBarAC of LNCEL - if ocAcBarAC is different to '0000', ocAcProbFac must '0%'
dlChBw of LNCEL - if dlChBw set to '1.4 MHz' acBarSig must not be configured in each conditioneCallAcBarred of LNCEL - parameter eCallAcBarred must be set to 'barred' or 'Not barred' if acBarSig is configuredsigAcProbFac of LNCEL - sigAcProbFac must be '0%' if sigACBarAC is different to '0000'
sigAcBarAC of LNCEL - if sigACBarAC is different to '0000', sigAcProbFac must be '0%'
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dlsOldtcTarget of LNCEL - dlsOldtcTarget must be configured if actDlsOldtc is set to 'true'
cqiPerNp of LNCEL - cqiPerNp is for small bandwdth settings restricted in its range dependent on actDrxdlChBw of LNCEL - for dlChBw '1.4 MHz ' and '3 Mhz' additional restrictions are applicable based on configured actDrxriEnable of LNCEL - riEnable must be configured to 'true' if actFastMimoSwitch is set to 'true'riPerM of LNCEL - riPerM must be configured to '1' if actFastMimoSwitch is set to 'true'riPerOffset of LNCEL - riPerOffset must be configured to '-1' if actFastMimoSwitch is set to 'true'dlChBw of LNCEL - If dlChBw is set to '1.4 MHz', actLdPdcch must be configured to 'false'maxNrSymPdcch of LNCEL - actLdPdcch setting depends on maxNrSymPdcchphichDur of LNCEL - actLdPdcch setting depends on phichDur
dlOlqcEnable of LNCEL - only if dlOlqcEnable is 'true', actOlLaPdcch can be set to 'true'pdcchCqiShift of LNCEL - pdcchCqiShift must be configured if actOlLaPdcch is set to 'true'pdcchHarqTargetBler of LNCEL - pdcchHarqTargetBler must be configured if actOlLaPdcch is set to 'true'
dlChBw of LNCEL - if dlChBw is set to '1.4 MHz' or '3 MHz' actOtdoa must be configured to 'false'siWindowLen of LNCEL - if actOtdoa is set to 'true' siWindowLen depends on LNCEL-prsConfigurationIndexactOtdoa of LNCEL - if actOtdoa is set to 'true' actPrsTxDiv can be configured to 'true'
srsPwrOffset of LNCEL - srsPwrOffset must be configured if actPuschMask is set to 'false' (precondition: ulsSchedMethod set to 'channel aware')ulChBw of LNCEL - if ulChBw is set to '1.4 MHz' or '3 MHz' or '5 MHz', actPuschMask cannot be configured to 'true'
repeaterDelay of LCELL - repeaterDelay is mandatory required if actRepeaterMode is set to 'Coupled' or 'Dedicated'
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actDrx of LNCEL - if actDrx is set to 'true' actSmartDrx can be configured to 'true'drxProfilePriority of LNCEL - drxProfile1-drxProfilePriority > drxSmartProfile2-drxProfilePriority (precondition: actSmartDrx is set to 'true')dlChBw of LNCEL - dlChBw must be set to '10 MHz' or '20 MHz' if actSuperCell is set to 'true'dlMimoMode of LNCEL - dlMimoMode can only be configured to 'Dynamic Open Loop MIMO' or 'Closed Loop Mimo' if actSuperCell is set to 'true'dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', actTtiBundling must be configured to 'false'actUlLnkAdp of LNCEL - only if actUlLnkAdp is set to ('eUlLa' or 'fUlLa'), actTtiBundling is allowed to be configured to 'true'
deltaTfEnabled of LNCEL - deltaTfEnabled must be configured to 'false' if actUlLnkAdp is set to 'eUlLa' or 'fUlLa'srsPwrOffset of LNCEL - srsPwrOffset must be configured if actUlLnkAdp is set to 'fUlLa' (precondition: ulsSchedMethod is set to ('interference aware' or 'channel unaware') AND srsConfiguration is
deltaTfEnabled of LNCEL - deltaTfEnabled must be configured to 'false' if actUlpcMethod is set to 'PuschIAwPucchOL' or 'PuschIAwPucchCL'dlOlqcEnable of LNCEL - dlOlqcEnable must be configured to 'true' if actUlpcMethod is set to 'PuschIAwPucchOL' or 'PuschIAwPucchCL'dlChBw of LNCEL - Value depends on dlChBwmaxNumRrc of LNCEL - maxNumRrc is impacted by addAUeRrHo (calculation in maxNumRrc, precondition: riEnable set to 'true')ulChBw of LNCEL - Value depends on ulChBwdlChBw of LNCEL - Value depends on dlChBwmaxNumRrc of LNCEL - maxNumRrc is impacted by addAUeTcHo (calculation in maxNumRrc, precondition: riEnable set to 'true')ulChBw of LNCEL - Value depends on ulChBwdlChBw of LNCEL - value range depends on DL channel bandwidthmaxNumRrcEmergency of LNCEL - maxNumRrcEmergency is impacted by addEmergencySessions (calculation in maxNumRrcEmergency, precondition: maxGbrTrafficLimit of LNCEL - LNCEL-maxGbrTrafficLimit + max(LNCEL-addGbrTrafficRrHo, LNCEL-addGbrTrafficTcHo) must be less or equal to 90addGbrTrafficTcHo of LNCEL - LNCEL-maxGbrTrafficLimit + max(LNCEL-addGbrTrafficRrHo, LNCEL-addGbrTrafficTcHo) must be less or equal to 90
maxGbrTrafficLimit of LNCEL - LNCEL-maxGbrTrafficLimit + max(LNCEL-addGbrTrafficRrHo, LNCEL-addGbrTrafficTcHo) must be less or equal to 90addGbrTrafficRrHo of LNCEL - LNCEL-maxGbrTrafficLimit + max(LNCEL-addGbrTrafficRrHo,LNCEL-addGbrTrafficTcHo) must be less or equal to 90
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dlChBw of LNCEL - dependent onmaxNumRrc of LNCEL - maxNumRrc is impacted by addNumDrbRadioReasHo (calculation in maxNumRrc)ulChBw of LNCEL - dependent ondlChBw of LNCEL - dependent onmaxNumRrc of LNCEL - maxNumRrc is impacted by addNumDrbTimeCriticalHo (calculation in maxNumRrc)ulChBw of LNCEL - dependent ondlChBw of LNCEL - value depends on dlChBwmaxNumRrc of LNCEL - maxNumRrc is impacted by addNumQci1DrbRadioReasHo (calculation in maxNumRrc, precondition: actConvVoice set to 'true')ulChBw of LNCEL - value depends on ulChBwdlChBw of LNCEL - value depends on dlChBwmaxNumRrc of LNCEL - maxNumRrc is impacted by addNumQci1DrbTimeCriticalHo (calculation in maxNumRrc, precondition: actConvVoice set to 'true')ulChBw of LNCEL - value depends on ulChBw
enableGrflShdn of LNBTS - administrativeState can be set to 'shutting down' only if enableGrflShdn is set to 'Enabled'
actUeBasedAnrUtran of LNBTS - if actUeBasedAnrUtran is set to 'true' anrUtraRscpThres is mandatory required
dlChBw of LNCEL - if dlChBw set to '1.4 MHz', applyOutOfSyncState must be 'extendedDrxOnly'
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maxNumRrc of LNCEL - in some conditions for maxNumRrc configuration the blankedPucch value is considered (please refer to maxNumRrc, precondition: actCompChecks set to 'true')nCqiRb of LNCEL - blankedPucch must be less then nCqiRb and is used in calculation of MaxPucchResourceSize (calculation in nCqiRb)
act1xCsfb of LNBTS - if act1xCsfb is set to 'true' and additionally rttCsfbType for the LNCEL instance set to 'R9e1xCsfb', c2KTimers is mandatory requiredrttCsfbType of LNCEL - if rttCsfbType for the LNCEL instance is set to 'R9e1xCsfb' and additionally act1xCsfb is set to 'true', c2KTimers is mandatory required
actIntraFreqLoadBal of LNBTS - if actIntraFreqLoadBal is set to 'true', cellCapClass is mandatory required
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hrpdCResPrio of CDFIM - must be unequalrttCResPrio of CDFIM - must be unequalgCelResPrio of GNFL - must be unequaluCelResPrio of UFFIM - must be unequal
crgPrId of CRGPR - the CRGPR instance with the configured cellResourceGroupPrId must existcellResourceSharingMode of LNCEL - if cellResourceSharingMode is set not to 'none', cellResourceGroupPrId must be configureddlChBw of LNCEL - cellResourceSharingMode depends on dlChBwactDrx of LNCELdrxInactivityT of LNCEL - drxInactivityT must be configured to a value greater than '8' if cellResourceSharingMode is set different from 'none' (precondition: actDrx set to 'true')
threshServingLowQR9 of LNCEL - if threshServingLowQR9 is set, cellSelectionInfoV920 is mandatory required
maxNumRrc of LNCEL - maxNumRrc restricts or will be restricted by cellSrPeriod (calculation in maxNumRrc)riEnable of LNCEL - for carrier aggregation when riEnable is set to 'true' restrictions are to be considered (calculation defined in maxNumRrc)
dlChBw of LNCEL - if dlChBw set to '1.4 MHz', cqiAperEnable must be configured to 'false'
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dlChBw of LNCEL - for dlChBw '1.4 MHz ' and '3 Mhz' additional restrictions are applicable based on configured actDrxdlMimoMode of LNCEL - for dlMimoMode 'Closed Loop Mimo' or 'Dynamic Open Loop MIMO' additional restrictions are applicable based on configured actDrxlcrId of LNCEL - primary and secondary cells (same lcrId) must have identical cqiPerSbCycKperiodicCqiFeedbackType of LNCEL - if periodicCqiFeedbackType is specified to 'UE_selected', cqiPerSbCycK must be specified
modPeriodCoeff of LNCEL - The product of parameter modPeriodCoeff and defPagCyc (givin in rf) must not exceed 1024
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actIntraFreqLoadBal of LNBTS - if actIntraFreqLoadBal is set to 'true', deltaMargin is mandatory required
deltaPucchShift of LNCEL - if the cell is a primary cell (CAREL instance does exist in the LNCEL) deltaPucchShift must be <= 2dlChBw of LNCEL - if dlChBw is set to '1.4 MHz' or '3 MHz', deltaPucchShift must be set to '1'actUlLnkAdp of LNCEL - if actUlLnkAdp is set to 'eUlLa' or 'fUlLa' deltaTfEnable must be configured to 'false'actUlpcMethod of LNCEL - if actUlpcMethod is set to 'PuschIAwPucchCL' or 'PuschIAwPucchOL' deltaTfEnable must be configured to 'false'iniMcsDl of LNCEL - The highest value is 16 if dl64QamEnable is falseenableDl16Qam of LNCEL - if false, dl64QamEnable must be false
pMax of LNCEL - power reduction depends on output power setting
cqiAperEnable of LNCEL - cqiAperEnable range depends on dlChBwcqiPerNp of LNCEL - cqiPerNp range depends on dlChBwdeltaPucchShift of LNCEL - deltaPucchShift range depends on dlChBw
dl64QamEnable of LNCEL - this parameter has to be set to true before 64QAM can be selected for Interference GenerationenableDl16Qam of LNCEL - this parameter has to be set to true before 16QAM can be selected for Interference GenerationcqiPerNp of LNCEL - the allowed values for cqiPerNp depends on the specified dlMimoMode (for details please refer to cqiPerNp)dlpcMimoComp of LNCEL - dlpcMimoComp must be configured if dlMimoMode is not set to 'SingleTX'dlTargetBler of LNCEL - dlTargetBler must be configured if dlOlqcEnable is set to 'true'iniMcsDl of LNCEL - iniMcsDl must be configured only if dlOlqcEnable is set to 'false' (precondition: dlamcEnable is also set to 'false')
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dlChBw of LNCEL - if dlChBw set to '1.4 MHz', dlPcfichBoost must be configured to 0 dB
dlChBw of LNCEL - if dlChBw set to '1.4 MHz', dlPhichBoost must be configured to 0 dB
dlChBw of LNCEL - if dlChBw set to '1.4 MHz', dlRsBoost must be configured to '0dB'dlMimoMode of LNCEL - If dlMimoMode is set to 'SingleTX', dlRsBoost must be different to '1.77dB'dlpcMimoComp of LNCEL - if dlpcMimoComp is set to '3dB', dlRsBoost must be less than or equal to '3dB', if dlRsBoost is not set to '0dB', dlpcMimoComp is restricted to values '0 dB' and '3 dB'
dlOlqcEnable of LNCEL - if dlOlqcEnable is set to 'true', dlTargetBler must be configuredpdcchHarqTargetBler of LNCEL - if pdcchHarqTargetBler is greater than 1%, dlTargetBler value shall be at least twice of pdcchHarqTargetBler
iniMcsDl of LNCEL - iniMcsDl must be configured only if dlamcEnable is set to 'false' (precondition: dlOlqcEnable is also set to 'false')
dlMimoMode of LNCEL - dlpcMimoComp must be configured if dlMimoMode set different to 'Single TX'dlRsBoost of LNCEL - if dlpcMimoComp is set to '3dB', dlRsBoost must be less than or equal to '3dB', if dlRsBoost is not set to '0dB', dlpcMimoComp is restricted to values '0 dB' and '3 dB'
actDlsOldtc of LNCEL - f actDlsOldtc is set to 'true', dlsOldtcTarget must be configured
dlChBw of LNCEL - if dlChBw is set to '1.4 MHz', dlsUsePartPrb must be configured to 'PRBs with PSS or SSS and PBCH used'
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drxProfilePriority of LNCEL - drxProfilePriority must be greater than drxProfile4-drxProfilePriorityactSmartDrx of LNCEL - only if actSmartDrx is set to 'true' drxProfile1-drxProfilePriority > drxSmartProfile2-drxProfilePriority is applicable
actUeBasedAnrIntraFreqLte of LNBTS - if actUeBasedAnrIntraFreqLte is set to 'true' drxOnDuratT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')
actUeBasedAnrIntraFreqLte of LNBTS - if actUeBasedAnrIntraFreqLte is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')
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actUeBasedAnrInterFreqLte of LNBTS - if actUeBasedAnrInterFreqLte is set to 'true' drxOnDuratT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')
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actUeBasedAnrInterFreqLte of LNBTS - if actUeBasedAnrInterFreqLte is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')
actDrx of LNCEL - if actDrx is set to 'true' drxInactivityT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxInactivityT must be configured to a value greater than '8' (precondition: actDrx is set to 'true')
dlChBw of LNCEL - if dlChBw is set to '1.4 MHz' or '3MHz' drxProfile2-drxOnDuratT must be greater than 3actDrx of LNCEL - if actDrx is set to 'true' drxOnDuratT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')
drxProfilePriority of LNCEL - drxProfilePriority (drxProfile2) must be greaterdrxProfilePriority of LNCEL - drxProfilePriority (drxProfile2) must be greater
actDrx of LNCEL - if actDrx is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxRetransT must be configured to a value greater than '8' (precondition: actDrx is set to 'true')
taTimer of LNCEL - if taTimer is less than 1280, drxLongCycle must be '40ms'
dlChBw of LNCEL - if dlChBw is set to '1.4 MHz' or '3MHz' drxProfile3-drxOnDuratT must be greater than 3actDrx of LNCEL - if actDrx is set to 'true' drxOnDuratT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')
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drxProfilePriority of LNCEL - drxProfilePriority (drxProfile3) must be greaterdrxProfilePriority of LNCEL - drxProfilePriority (drxProfile3) must be greater
actDrx of LNCEL - if actDrx is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxRetransT must be configured to a value greater than '8' (precondition: actDrx is set to 'true')
drxLongCycle of LNCEL - drxInactivityT depends on drxLongCycle setting
drxInactivityT of LNCEL - drxInactivityT depends on drxLongCycle setting
drxProfilePriority of LNCEL - drxProfilePriority (drxProfile1) must be greaterdrxProfilePriority of LNCEL - drxProfilePriority (drxProfile2) must be greaterdrxProfilePriority of LNCEL - drxProfilePriority (drxProfile3) must be greateractDrx of LNCEL - if actDrx is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxRetransT must be configured to a value greater than '8' (precondition: actDrx is set to 'true')
drxLongCycle of LNCEL - drxInactivityT depends on drxLongCycle setting
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drxInactivityT of LNCEL - drxInactivityT depends on drxLongCycle setting
drxProfilePriority of LNCEL - own drxProfilePriority must be lowerdrxProfilePriority of LNCEL - own drxProfilePriority must be lowerdrxProfilePriority of LNCEL - own drxProfilePriority must be loweractDrx of LNCEL - if actDrx is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxRetransT must be configured to a value greater than '8' (precondition: actDrx is set to 'true')
actSmartDrx of LNCEL - if actSmartDrx is set to 'true' drxInactivityT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxInactivityT must be configured to a value greater than '8' (precondition: actSmartDrx is set to 'true')
drxShortCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)smartStInactFactor of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)cqiPerNp of LNCEL - drxOnDuratT depends on cqiPerNp (calculation in cqiPerNp)actOtdoa of LNCEL - If actOtdoa is set to 'true', then drxOnDuratT must be greater than 3actSmartDrx of LNCEL - if actSmartDrx is set to 'true' drxOnDuratT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')
drxProfilePriority of LNCEL - drxSmartProfile2-drxProfilePriority must be less than drxProfile1-drxProfilePriority (precondition: actSmartDrx is set to 'true')actSmartDrx of LNCEL - only if actSmartDrx is set to 'true' drxProfile1-drxProfilePriority > drxSmartProfile2-drxProfilePriority is applicable
actSmartDrx of LNCEL - if actSmartDrx is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxRetransT must be configured to a value greater than '8' (precondition: actSmartDrx is set to 'true')
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cqiPerNp of LNCEL - drxShortCycle depends on cqiPerNp (calculation in cqiPerNp)drxLongCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)
drxLongCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)drxShortCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)
drxShortCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)smartStInactFactor of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)cqiPerNp of LNCEL - drxOnDuratT depends on cqiPerNp (calculation in cqiPerNp)actOtdoa of LNCEL - If actOtdoa is set to 'true', then drxOnDuratT must be greater than 3actSmartDrx of LNCEL - if actSmartDrx is set to 'true' drxOnDuratT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')
drxProfilePriority of LNCEL - drxSmartProfile3-drxProfilePriority must be less than drxSmartProfile2-drxProfilePrioritydrxProfilePriority of LNCEL - drxSmartProfile3-drxProfilePriority must be greater than drxSmartProfile4-drxProfilePriorityactSmartDrx of LNCEL - if actSmartDrx is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxRetransT must be configured to a value greater than '8' (precondition: actSmartDrx is set to 'true')
cqiPerNp of LNCEL - drxShortCycle depends on cqiPerNp (calculation in cqiPerNp)drxLongCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)
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drxLongCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)drxShortCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)
actSmartDrx of LNCEL - if actSmartDrx is set to 'true' drxInactivityT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxInactivityT must be configured to a value greater than '8' (precondition: actSmartDrx is set to 'true')
drxShortCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)smartStInactFactor of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)cqiPerNp of LNCEL - drxOnDuratT depends on cqiPerNp (calculation in cqiPerNp)
drxProfilePriority of LNCEL - drxSmartProfile4-drxProfilePriority must be less than drxSmartProfile3-drxProfilePrioritydrxProfilePriority of LNCEL - drxSmartProfile4-drxProfilePriority must be greater than drxSmartProfile5-drxProfilePriorityactSmartDrx of LNCEL - if actSmartDrx is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxRetransT must be configured to a value greater than '8' (precondition: actSmartDrx is set to 'true')
cqiPerNp of LNCEL - drxShortCycle depends on cqiPerNp (calculation in cqiPerNp)drxLongCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)
drxLongCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)drxShortCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)
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actSmartDrx of LNCEL - if actSmartDrx is set to 'true' drxInactivityT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxInactivityT must be configured to a value greater than '8' (precondition: actSmartDrx is set to 'true')
drxShortCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)smartStInactFactor of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)cqiPerNp of LNCEL - drxOnDuratT depends on cqiPerNp (calculation in cqiPerNp)
drxProfilePriority of LNCEL - drxSmartProfile5-drxProfilePriority must be less than drxSmartProfile4-drxProfilePriority
actSmartDrx of LNCEL - if actSmartDrx is set to 'true' drxRetransT must be configured to a value greater than '8' (precondition: cellResourceSharingMode is not set to 'none')cellResourceSharingMode of LNCEL - if cellResourceSharingMode is not set to 'none' drxRetransT must be configured to a value greater than '8' (precondition: actSmartDrx is set to 'true')
cqiPerNp of LNCEL - drxShortCycle depends on cqiPerNp (calculation in cqiPerNp)drxLongCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)
drxLongCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)drxShortCycle of LNCEL - smartStInactFactor*drxShortCycle >= max(200ms, drxLongCycle)acBarOc of LNCEL - If structure acBarOc is present, then eCallAcBarred must be set to 'barred' or 'Not barred'acBarSig of LNCEL - If structure acBarSig is present, then eCallAcBarred must be set to 'barred' or 'Not barred'preRegLoadBalFactor of LNCEL - the value of preRegLoadBalFactor depends on the number of eHrpdSectList list itemsactHOtoHrpd of LNBTS - if actHOtoHrpd is set to 'true' eHrpdSectList must be configuredeHrpdSectList of LNCEL - the value of preRegLoadBalFactor depends on the number of eHrpdSectList list items
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actUlLnkAdp of LNCEL - eUlLaAtbPeriod must be configured if actUlLnkAdp is set to 'eUlLa'
actUlLnkAdp of LNCEL - eUlLaBlerAveWin must be configured if actUlLnkAdp is set to 'eUlLa'
actUlLnkAdp of LNCEL - eUlLaDeltaMcs must be configured if actUlLnkAdp is set to 'eUlLa'
actUlLnkAdp of LNCEL - eUlLaLowMcsThr must be configured if actUlLnkAdp is set to 'eUlLa' OR (actUlLnkAdp is set to 'fUlLa' AND actTtiBundling is set to 'true')actTtiBundling of LNCEL - eUlLaLowMcsThr must be configured if actTtiBundling is set to 'true' (precondition: actUlLnkAdp is set to 'fUlLa')
dlChBw of LNCEL - if dlChBw set to '1.4 MHz', eUlLaLowPrbThr =< 4actUlLnkAdp of LNCEL - eUlLaLowPrbThr must be configured if actUlLnkAdp is set to 'eUlLa' OR (actUlLnkAdp is set to 'fUlLa' AND actTtiBundling is set to 'true')actUlLnkAdp of LNCEL - eUlLaPrbIncDecFactor must be configured if actUlLnkAdp is set to 'eUlLa'
earfcnUL of LNCEL - earfcnDL = earfcnUL - 18000phyCellId of LNCEL - must be unique for all LNCEL instances having identical earfcnDLeutraCarrierInfo of LNHOIF - eutraCarrierInfo of each LNHOIF instance belonging to the LNCEL must be different to the earfcnDLearfcnDL of LNCEL - earfcnUL = earfcnDL + 18000ulCoMpCellList of ULCOMP - all LNCEL instances referred by the same ulCoMpCellList must use the same uplink band (earfcnUL) (precondition: actUlCoMp set to 'true')pwsWithEmAreaId of LNBTS - If pwsWithEmAreaId is set to 'true', emAreaIdList is mandatory required
pdcchCqiAvg of LNBTS ( hidden )- enableLowAgg must be configured to 'false' if enableAmcPdcch is set to 'false'pdcchCqiShift of LNCEL - pdcchCqiShift must be configured if enableAmcPdcch is set to 'true'
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dl64QamEnable of LNCEL - If true, enableDl16Qam must be true. dl64QamEnable is not applicable if enableDl16Qam is false and must be set to false in this caseiniMcsDl of LNCEL - Max is 9, if enableDl16Qam is falseenableAmcPdcch of LNCEL - if enableAmcPdcch is set to 'false', enableLowAgg must be configured to 'false'enablePcPdcch of LNCEL - if enablePcPdcch is set to 'false', enableLowAgg must be configured to 'false'dlChBw of LNCEL - if dlChBw set to '1.4 MHz', enablePcPdcch must be configured to 'true'enableLowAgg of LNCEL - enableLowAgg must be configured if enablePcPdcch is set to 'false'
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actUlLnkAdp of LNCEL - if actUlLnkAdp is set to 'fUlLa', fUlLAAtbTrigThr must be configured
measQuantityCSFBUtra of LNCEL - filterCoefficientCSFBCpichEcn0 becomes mandatory if measQuantityCSFBUtra is set to 'cpichEcN0'
measQuantityCSFBUtra of LNCEL - filterCoefficientCSFBCpichRscp becomes mandatory if measQuantityCSFBUtra is set to 'cpichRSCP'
measQuantityUtra of LNCEL - impacts setting for filterCoefficientCpichEcn0lnRelWId of LNRELW - an instance of LNRELW impacts setting for filterCoefficientCpichEcn0actUeBasedAnrUtran of LNBTS - if actUeBasedAnrUtran is set to 'true' filterCoefficientCpichEcn0 is mandatory required
measQuantityUtra of LNCEL - impacts setting for filterCoefficientCpichRscplnRelWId of LNRELW - an instance of LNRELW impacts setting for filterCoefficientCpichRscpactUeBasedAnrUtran of LNBTS - if actUeBasedAnrUtran is set to 'true' filterCoefficientCpichRscp is mandatory required
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lnRelGId of LNRELG - if in instance of LNRELG is configured in the LNCEL, filterCoefficientRSSI must be configured
dlChBw of LNCEL - for dlChBw set to '3 MHz' or '1.4 MHz' the number of allowed list items depends on maxCrSibDlmaxCrSibDl of LNCEL - the number of allowed list items depends on maxCrSibDl for dlChBw set to '3 MHz' or '1.4 MHz'
actEnhAcAndGbrServices of LNBTS - if actEnhAcAndGbrServices is configured to 'false' gbrCongHandling must be set to 'none'
harqMaxTrUlTtiBundling of LNCEL - if harqMaxTrUlTtiBundling is configured, it must be greater than or equal harqMaxTrUl
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harqMaxTrUl of LNCEL - harqMaxTrUlTtiBundling >= harqMaxTrUlactTtiBundling of LNCEL - if actTtiBundling is set to 'true' harqMaxTrUlTtiBundling is mandatory required
actHOtoHrpd of LNBTS - if actHOtoHrpd is set to 'true' hrpdTimers must be configured
prachHsFlag of LNCEL - if prachHsFlag is set to 'true', hsScenario is mandatory required, in case of prachHsFlag set to 'false' hsScenario is not allowed to be configured
threshold2GERAN of LNCEL - if threshold2GERAN is set, hysThreshold2GERAN must be set
actHOtoHrpd of LNBTS - if actHOtoHrpd is set to 'true' hysThreshold2Hrpd must be configured
actIfHo of LNBTS - if actIfHo is 'enabled' hysThreshold2InterFreq must be configured
lnRelWId of LNRELW - if an instance of LNRELW is configured in the LNCEL, hysThreshold2Wcdma must be configured
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actIfHo of LNBTS - if actIfHo is 'enabled', hysThreshold2a must be configuredlnRelWId of LNRELW - if an instance of LNRELW is configured in the cell, hysThreshold2a must be configured
actInterFreqLB of LNBTS - if actInterFreqLB is set to ‘true’ iFLBLoadThresholds must be configured
iFLBTargetLoadGBRDL of LNCEL - iFLBTargetLoadGBRDL =< iFLBHighLoadGBRDL
iFLBTargetLoadNonGBRDL of LNCEL - iFLBHighLoadNonGBRDL >= iFLBTargetLoadNonGBRDL
iFLBTargetLoadPdcch of LNCEL - iFLBHighLoadPdcch >= iFLBTargetLoadPdcch
iFLBHighLoadGBRDL of LNCEL - iFLBHighLoadGBRDL >= iFLBTargetLoadGBRDL
iFLBHighLoadNonGBRDL of LNCEL - iFLBHighLoadNonGBRDL >= iFLBTargetLoadNonGBRDL
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iFLBHighLoadPdcch of LNCEL - iFLBHighLoadPdcch >= iFLBTargetLoadPdcch
dl64QamEnable of LNCEL - if dl64QamEnable is set to 'true' iniMcsDl can be configured to a higher value than '16'dlOlqcEnable of LNCEL - if dlOlqcEnable is set to 'false' and in addition dlamcEnable is set to 'false' iniMcsDl must be configuredactModulationSchemeUL of LNCEL - If actModulationSchemeUL is 'QPSK', iniMcsUl max value is 10
ulChBw of LNCEL - ulChBw restricts the allowed value range for iniPrbsUlredBwMinRbUl of LNCEL - redBwMinRbUl must be less than or equal to iniPrbsUl
lcrId of LNCEL - value must be unique in eNBlCellId of LCELL - the LNCEL must always have a related LCELL instance
ulCoMpCellList of ULCOMP - at least two existing LNCEL instances must be configured to an ulCoMpCellList (precondition: actUlCoMp set to 'true')
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actIntraFreqLoadBal of LNBTS - If actIntraFreqLoadBal is set to 'true', loadBalancingProfile is mandatory required
actIntraFreqLoadBal of LNBTS - if actIntraFreqLoadBal is set to 'true', lowerMarginCIO is mandatory required
minBitrateDl of LNCEL - minBitRateDl shall be less than or equal to maxBitrateDl
minBitrateUl of LNCEL - minBitRateUl shall be less than or equal to maxBitrateUl
furtherPlmnIdL of LNCEL - number of furtherPlmnIdL list items depend on maxCrSibDl and dlChBwgnflId of GNFL - the maximum number of GNFL instances depends on on maxCrSibDl and dlChBwiafimId of IAFIM - the maximum number of IAFIM instances depends on on maxCrSibDl and dlChBwaddGbrTrafficRrHo of LNCEL - LNCEL-maxGbrTrafficLimit + max(LNCEL-addGbrTrafficRrHo, LNCEL-addGbrTrafficTcHo) must be less or equal to 90addGbrTrafficTcHo of LNCEL - LNCEL-maxGbrTrafficLimit + max(LNCEL-addGbrTrafficRrHo, LNCEL-addGbrTrafficTcHo) must be less or equal to 90
dlChBw of LNCEL - dependent on set dlChBw, maxNrSymPdcch is restriced n its rangenCqiRb of LNCEL - maxNrSymPdcch is used in calculation of MaxPucchResourceSize (calculation in nCqiRb)dlChBw of LNCEL - dependent onmaxNumActUE of LNCEL - maxNumActUE must be less than or equal to maxNumActDrbmaxNumRrc of LNCEL - maxNumRrc is impacted by maxNumActDrb (calculation in maxNumRrc)dlChBw of LNCEL - Range depends on dlChBwmaxNumRrc of LNCEL - maxNumRrc restricts or will be restricted by maxNumActUE (calculation in maxNumRrc)ulChBw of LNCEL - Range depends on ulChBw
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maxNumActUE of LNCEL - maxNumActUE >= maxNumCaConfUeDc
dlChBw of LNCEL - Value depends on dlChBwmaxNumRrc of LNCEL - maxNumRrc is impacted by maxNumQci1Drb (calculation in maxNumRrc, precondition: actConvVoice set to 'true')maxNumActDrb of LNCEL - maxNumQci1Drb <= maxNumActDrb/2cellSrPeriod of LNCEL - for carrier aggregation cellSrPeriod must be considered (precondition: riEnable set to 'true', calculation defined in maxNumRrc)cqiPerNp of LNCEL - for carrier aggregation cqiPerNp must be considered (precondition: riEnable set to 'true', calculation defined in maxNumRrc)
cellSrPeriod of LNCEL - for carrier aggregation cellSrPeriod must be considered (precondition: riEnable set to 'true', calculation defined in maxNumRrcEmergency)cqiPerNp of LNCEL - for carrier aggregation cqiPerNp must be considered (precondition: riEnable set to 'true', calculation defined in maxNumRrcEmergency)
dlChBw of LNCEL - maxNumUeDl range and default value depend on dlChBw
dlChBw of LNCEL - maxNumUeUl range and default value depend on dlChBw
filterCoefficientCSFBCpichEcn0 of LNCEL - filterCoefficientCSFBCpichEcn0 is mandatory required if measQuantityCSFBUtra is set to 'cpichEcN0'.filterCoefficientCSFBCpichRscp of LNCEL - filterCoefficientCSFBCpichRscp is mandatory required if measQuantityCSFBUtra is set to 'cpichRSCP'.
b2Threshold2UtraRscp of LNHOW - if measQuantityUtra is 'cpichRSCP' then b2Threshold2UtraRscp must be configuredfilterCoefficientCpichEcn0 of LNCEL - if an instance of LNRELW is configured in the LNCEL and measQuantityUtra is 'cpichEcN0' then filterCoefficientCpichEcn0 must be configured
dlMimoMode of LNCEL - if dlMimoMode is set to ('Closed Loop Mimo' or 'Closed Loop MIMO (4x2)') and actFastMimoSwitch set to 'false', mimoClConfig must be configuredactFastMimoSwitch of LNCEL - if actFastMimoSwitch set to 'false' and dlMimoMode is set to ('Closed Loop Mimo' or 'Closed Loop MIMO (4x2)'), mimoClCmust be configured
mimoClCqiThU of LNCEL - mimoClCqiThU value must be equal or greater than mimoClCqiThD
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mimoClCqiThD of LNCEL - mimoClCqiThU value must be equal or greater than mimoClCqiThD
mimoClRiThU of LNCEL - mimoClRiThU must be greater than or equal to mimoClRiThD
mimoClRiThD of LNCEL - mimoClRiThD value must be less than or equal to mimoClRiThU
dlMimoMode of LNCEL - if dlMimoMode is set to 'Dynamic Open Loop MIMO', mimoOlCconfig must be specified
mimoOlCqiThU of LNCEL - mimoOlCqiThU must be equal or greater than mimoOlCqiThD
mimoOlCqiThD of LNCEL - mimoOlCqiThU must be equal or greater than mimoOlCqiThD
mimoOlRiThU of LNCEL - mimoOlRiThU must be equal or greater than mimoOlRiThD
mimoOlRiThD of LNCEL - mimoOlRiThU must be equal or greater than mimoOlRiThD
maxBitrateDl of LNCEL - value shall be less than or equal to maxBitrateDl
maxBitrateUl of LNCEL - value shall be less than or equal to maxBitrateUl
moPrId of MOPR - the MOPR instance must exist when assigned to SPID
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spid of LNCEL - each spid cannot be included in more than one range defined in moPrMappingList (one range is defined between spid and spidLast)spidLast of LNCEL - if spidLast specified, spid must be less than spidLastspid of LNCEL - spid must be smaller than spidLast, if spidLast is configuredspidLast of LNCEL - spidLast cannot be included in more than one range defined in moPrMappingList (one range is defined between spid and spidLast)
defPagCyc of LNCEL - The product of parameter modPeriodCoeff and defPagCyc (given in rf) must not exceed 1024
deltaPucchShift of LNCEL - n1PucchAn value depends on deltaPucchShiftdlChBw of LNCEL - dependent on dlChBw setting n1PucchAn is restricted in the value rangemaxNumRrc of LNCEL - maxNumRrc restricts or will be restricted by n1PucchAn (calculation in maxNumRrc)
deltaPucchShift of LNCEL - used in calculation of MaxPucchResourceSize (calculation in nCqiRb)dlChBw of LNCEL - used in calculation of MaxPucchResourceSize (calculation in nCqiRb)dlMimoMode of LNCEL - dlMimoMode value impacts calculation of MaxPucchResourceSize (calculation in nCqiRb)
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dlCellPwrRed of LNCELenableGrflShdn of LNBTS - enableGrflShdn can be set to 'Enabled' only if pMax is greater than 25 dBm
dlChBw of LNCEL - for dlChBw set to '1.4 MHz', pdcchAggDefUe =< 4
dlChBw of LNCEL - dependent on dlChBw the pdcchAggMsg4 value might be restrictedmaxNrSymPdcch of LNCEL - dependent on maxNrSymPdcch the pdcchAggMsg4 value might be restricteddlChBw of LNCEL - dependent on dlChBw the pdcchAggPaging value might be restrictedmaxNrSymPdcch of LNCEL - dependent on maxNrSymPdcch the pdcchAggPaging value might be restricteddlChBw of LNCEL - dependent on dlChBw the pdcchAggPreamb value might be restrictedmaxNrSymPdcch of LNCEL - dependent on maxNrSymPdcch the pdcchAggPreamb value might be restricteddlChBw of LNCEL - dependent on dlChBw the pdcchAggRaresp value might be restrictedmaxNrSymPdcch of LNCEL - dependent on maxNrSymPdcch the pdcchAggRaresp value might be restricted
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dlChBw of LNCEL - dependent on dlChBw the pdcchAggSib value might be restrictedmaxNrSymPdcch of LNCEL - dependent on maxNrSymPdcch the pdcchAggSib value might be restricted
enableAmcPdcch of LNCEL - if enableAmcPdcch is set to 'true', pdcchCqiShift must be configuredactOlLaPdcch of LNCEL - if actOlLaPdcch is set to 'true', pdcchCqiShift must be configured; pdcchCqiShift is adjusted in runtime and uses the configured value as start valuedlTargetBler of LNCEL - if pdcchHarqTargetBler is greater than 1%, dlTargetBler value shall be at least twice of pdcdhHARQtargetBleractOlLaPdcch of LNCEL - if actOlLaPdcch is 'true', pdcchHarqTargetBler must be configuredactLdPdcch of LNCEL - if actLdPdcch is 'false', pdcchUlDlBal setting is fixed used for UL and DL split
cqiPerSbCycK of LNCEL - cqiPerSbCycK must be specified if periodicCqiFeedbackType is set to 'UE_selected'dlChBw of LNCEL - if dlChBw set to '1.4 MHz', periodicCqiFeedbackType must be configured to 'wideband'
actMDTCellTrace of LNBTS - only if actMDTCellTrace is 'true' activateMeas for measurementType set to 'periodicIntraFreq' can be set to 'true'
reportInterval of LNCEL - reportInterval value restricts the allowed values of reportAmount
reportAmount of LNCEL - reportAmount values are restricted by the configured reportInterval
maxNrSymPdcch of LNCEL - maxNrSymPdcch must be set to value 3 if phichDur is set to 'Extended'actLdPdcch of LNCEL - if phichDur is 'Extended', actLdPdcch can not be set to 'true'
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dlChBw of LNCEL - if dlChBw is set to '1.4 MHz', phichRes must be configured to 'N = 1/6'nCqiRb of LNCEL - phichRes is used in calculation of MaxPucchResourceSize (calculation in nCqiRb)
earfcnDL of LNCEL - phyCellId must be unique for all LNCEL instances having identical earfcnDlrangeIntraPci of IAFIM - the configured range intrFrNCList-rangeIntraPci must not include phyCellIdstartIntraPci of IAFIM - startIntraPci must be different to phyCellIdprachConfIndex of LNCEL - value depends on prachConfIndexprachHsFlag of LNCEL - if prachHsFlag is set to 'true', allowed value for rootSeqIndex depends on prachCS valueprachCS of LNCEL - own value determines value range of prachCS
nCqiRb of LNCEL - MaxPucchResourceSize calculated in nCqiRb is used to calculate the range of prachFreqOffulChBw of LNCEL - maximum value for prachFreqOff is ulChBw in PRBs-6prachCS of LNCEL - prachCS value restricts rootSeqIndex range when prachHsFlag is set to 'true'rootSeqIndex of LNCEL - allowed value for rootSeqIndex when prachHsFlag is set to 'true' depends on prachCS value
dlChBw of LNCEL - prsBandwidth depends on dlChBwactOtdoa of LNCEL - if actOtdoa is set to 'true' prsBandwidth is mandatory required
siWindowLen of LNCEL - siWindowLen depends on setting of prsConfigurationIndexactOtdoa of LNCEL - if actOtDoa is 'true' prsConfigurationIndex must be configured
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actOtdoa of LNCEL - if actOtdoa is set to 'true' prsNumDlFrames is mandatory required
actOtdoa of LNCEL - if actOtdoa is set to 'true' prsPowerBoost is mandatory required
nCqiRb of LNCEL - pucchNAnCs is used in calculation of MaxPucchResourceSize (calculation in nCqiRb)
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actModulationSchemeUL of LNCEL - If actModulationSchemeUL is 'QPSK', raLargeMcsUl max value is 10
raPreGrASize of LNCEL - shall be less than or equal to raNondedPreamb
raNondedPreamb of LNCEL - shall be equal or greater than raPreGrASize
ulChBw of LNCEL - if ulChBw set to '1.4 MHz', raRespWinSize must be configured to '5' or higheractFlexBbUsage of LNBTS - if actFlexBbUsage is 'true' raRespWinSize must be configured to '10' (precondition min(ulChBw,dlChBw) is ('5 MHz' or '10 MHz'))raSmallVolUl of LNCEL - dependent on configured raSmallVolUl for ulchBw set to '1.4 MHz' and '3 MHz' raSmallMcsUl range is restrictedulChBw of LNCEL - for ulchBw set to '1.4 MHz' and '3 MHz' dependent on raSmallVolUl raSmallMcsUl range is restrictedraSmallMcsUl of LNCEL - raSmallMcsUl range is limited dependent on configured raSmallVolUl for ulchBw set to '1.4 MHz' and '3 MHz'ulChBw of LNCEL - for ulchBw set to '1.4 MHz' and '3 MHz' dependent on raSmallVolUl raSmallMcsUl range is restrictedact1xCsfb of LNBTS - if act1xCsfb is set to 'true' and additionally rttCsfbType is not set to 'forbidden' in the LNCEL instance parameter rand is mandatory required in the LNCEL instancerttCsfbType of LNCEL - if rttCsfbType is not set to 'forbidden' in the LNCEL instance and additionally act1xCsfb is set to 'true' parameter rand is mandatory required in the LNCEL instance
rcEnableDl of LNCEL - if rcEnableDl is set to 'true', rcAmbrMgnDl must be configured
rcEnableUl of LNCEL - if rcEnableUl is set to 'true', rcAmbrMgnUl must be configured
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dlChBw of LNCEL - if dlChBw set to '1.4 MHz', rcEnableDl must be configured to 'false'rcAmbrMgnDl of LNCEL - rcAmbrMgnDl must be configured if rcEnableDl is set to 'true'
dlChBw of LNCEL - if dlChBw set to '1.4 MHz', rcEnableUl must be configured to 'false'rcAmbrMgnUl of LNCEL - rcAmbrMgnUl must be configured if rcEnableUl is set to 'true'
dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', redBwEnDl must be configured to 'false'redBwMaxRbDl of LNCEL - redBwMaxRbDl must be configured if redBwEnDl is set to 'true'
dlChBw of LNCEL - redBwMaxRbDl range depends on dlChBwredBwEnDl of LNCEL - if redBwEnDl is set to 'true', redBwMaxRbDl must be configured
redBwRpaEnUl of LNCEL - if redBwRpaEnUl is set to 'true', redBwRbUlConfig must be configured
ulChBw of LNCEL - Range and default value of redMaxRbUl depend on ulChBw
iniPrbsUl of LNCEL - redBwMinRbUl must be less than or equal to iniPrbsUlulChBw of LNCEL - Range of redMinRbUl depends on ulChBwactUlLnkAdp of LNCEL - redBwMinRbUl is restricted when actUlLnkAdp is set to 'eUlLa' OR (if actUlLnkAdp is set to value 'fUlLa' and actTtiBundling is set to 'true')
dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', redBwRpaEnUl must be configured to 'false'redBwRbUlConfig of LNCEL - redBwRbUlConfig must be configured if redBwRpaEnUl is set to 'true'
cqiPerNp of LNCEL - cqiPerNp restricted under specific conditiondlMimoMode of LNCEL - If dlMimoMode is set to 'SingleTX', 'TXDiv' or '4-way TXDiv' riEnable must be set to 'false', otherwise riEnable must be 'true'cqiPerNp of LNCEL - cqiPerNp is restricted under specific conditiondlChBw of LNCEL - for dlChBw '1.4 MHz ' and '3 Mhz' additional restrictions are applicable based on configured actDrxdlChBw of LNCEL - for dlChBw '1.4 MHz ' and '3 Mhz' additional restrictions are applicable based on configured actDrxdlMimoMode of LNCEL - for dlMimoMode 'Closed Loop Mimo' or 'Dynamic Open Loop MIMO' additional restrictions are applicable based on configured actDrxprachCS of LNCEL - prachCS value restricts rootSeqIndex range when prachHsFlag is set to 'true'prachHsFlag of LNCEL - if prachHsFlag is set to 'true', allowed value for rootSeqIndex depends on prachCS value
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threshold4Rsrq of LNCEL - threshold4Rsrq < threshold2MobRsrqthreshold2aRsrq of LNCEL - threshold2aRsrq > threshold2MobRsrq
threshold2MobRsrq of LNCEL - threshold2MobRsrq < threshold2aRsrq
actRedirect of LNBTS - only if actRedirect is set to 'Enabled' rsrqRedirectParams is allowed to be configured
threshold2MobRsrq of LNCEL - threshold2MobRsrq > threshold4Rsrq (precondition: rsrqMobilityParams is configured)
act1xCsfb of LNBTS - if act1xCsfb is set to 'true', rttCellIdInfo must be configured (precondition: rttCsfbType for the cell is set to 'R9e1xCsfb')rttCsfbType of LNCEL - if rttCsfbType for the cell is set to 'R9e1xCsfb', rttCellIdInfo must be configured (precondition: act1xCsfb is set to 'true')dlChBw of LNCEL - if dlChBw is set '1.4 MHz' or '3 MHz' and act1xCsfb is set to 'true' rttCsfbType in the LNCEL must be set to 'forbidden'cdfimId of CDFIM - an instance of CDFIM must be created if act1xCsfb is set to 'true' and rttCsfbType is not set to 'forbidden'
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act1xCsfb of LNBTS - if act1xCsfb is set to 'true' and additionally rttCsfbType is not set to 'forbidden' in the LNCEL instance rttPreregRefCellId is mandatory required in the LNCEL instancerttCsfbType of LNCEL - if rttCsfbType is not set to 'forbidden' in the LNCEL instance and additionally act1xCsfb is set to 'true' rttPreregRefCellId is mandatory required in the LNCEL instance
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dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', siWindowLen >= '10ms'siMessagePeriodicity of LNCEL - The maximum size of siWindowLen is influenced by LNCEL-sib2Scheduling-siMessagePeriodicity
dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', siMessagePeriodicity must be configured >= '160ms'
dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', siMessageRepetition must be configured to '1'
dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', siMessagePeriodicity must be configured >= '160ms'
dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', siMessageRepetition must be configured to '1'
siWindowLen of LNCEL - The maximum size of siWindowLen is influenced by "number of sets in structure sibSchedulingList". The related check is defined under parameter LNCEL-siWindowLenact1xCsfb of LNBTS - if act1xCsfb is set to 'true' (and additionally rttCsfbType not set to 'forbidden'), sibSchedulingList must contain a siMessageSibType 'SIB8' configuration
dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', siMessagePeriodicity must be configured >= '160ms'
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Requires object locking
dlChBw of LNCEL - if dlChBw set to '1.4 MHz' or '3 MHz', siMessageRepetition must be configured to '1'
dlChBw of LNCEL - for dlChBw set to '1.4 MHz' and '3 MHz', some siMessageSibType values are not allowed to be configuredsiWindowLen of LNCEL - siWindowLen shall not be less than 3ms if siMessageSibType is configured to 'SIB10'
nCellChgMed of LNCEL - nCellChgHigh >= nCellChgMed
nCellChgHigh of LNCEL - nCellChgHigh >= nCellChgMed
ulChBw of LNCEL - srsConfiguration range depends on ulChBwulsSchedMethod of LNCEL - srsConfiguration range depends on ulsSchedMethod (partially in addition to specified actPuschMask)
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ulsSchedMethod of LNCEL - srsPwrOffset must be configured if ulsSchedMethod is set to 'channel aware' (precondition: actPuschMask set to 'false') OR (ulsSchedMethod is set to ('interference aware' or 'channel unaware') AND actUlLnkAdp set to 'fUlLa'
dlMimoMode of LNCEL - if dlMimoMode is SingleTX, syncSigTxMode must be set to SingleTx
lnRelWId of LNRELW - if an instance of LNRELW is configured in the LNCEL, t304InterRAT must be configured
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actHighPrioServices of LNBTS - if actHighPrioServices is set to 'true' tPageCorrInt must be configured
ulsSchedMethod of LNCEL - if ulsSchedMethod is set to 'channel aware' or 'interference aware', tPeriodicPhr cannot be configured to 'infinity'actUlLnkAdp of LNCEL - if actUlLnkAdp is set to 'fUlLa', tPeriodicPhr cannot be configured to 'infinity'(precondition: ulsSchedMethod is set to 'interference aware' or 'channel unaware')
taTimerMargin of LNCEL - Must be less than or equal to (taTimer-300ms)drxLongCycle of LNCEL - drxLonCycle must be 40 if taTimer is less than 1280
taTimer of LNCEL - taTimerMargin must be less or equal to (taTimer-300ms)
BTS restart needed
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intFrBCList of IRFIM - modified SIB size restrictions of intFrBCList and intFrNCList are applicable when threshServingLowQR9 is configuredintFrNCList of IRFIM - modified SIB size restrictions of intFrBCList and intFrNCList are applicable when threshServingLowQR9 is configured
threshold2a of LNCEL - threshold2a must be less than threshold1threshold3 of LNCEL - threshold3 must be less than threshold1 (precondition: threshold2a not configured)
threshold2a of LNCEL - threshold2a must be greater than or equal to threshold2GERANlnRelGId of LNRELG - if in instance of LNRELG is configured in the LNCEL, threshold2GERAN must be configuredthreshold2a of LNCEL - threshold2a >= threshold2HrpdactHOtoHrpd of LNBTS - if actHOtoHrpd is set to 'true' threshold2Hrpd must be configured
threshold2a of LNCEL - threshold2a must be greater than or equal to threshold2InterFreqactIfHo of LNBTS - if actIfHo is 'enabled' threshold2InterFreq must be configured
threshold2a of LNCEL - threshold2a must be greater than or equal to threshold2WcdmalnRelWId of LNRELW - if an instance of LNRELW is configured in the LNCEL, threshold2Wcdma must be configuredthreshold1 of LNCEL - threshold1 must be greater than threshold2athreshold2InterFreq of LNCEL - threshold2InterFreq must be less than or equal to threshold2aactIfHo of LNBTS - if actIfHo is 'enabled', threshold2a must be configuredthreshold3a of LNCEL - threshold3a must be greater than threshold3
threshold3 of LNCEL - threshold3 must be less than threshold3a
threshold3InterFreq of LNHOIF - threshold3InterFreq must be greater than threshold4b2Threshold1GERAN of LNHOG - b2Threshold1GERAN must be greater than threshold4
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BTS restart needed
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actTtiBundling of LNCEL - if actTtiBundling is set to 'true' ttiBundlingBlerTarget is mandatory required
ulTargetBler of LNCEL - ulTargetBler must be less than ttiBundlingBlerThresholdactTtiBundling of LNCEL - if actTtiBundling is set to 'true' ttiBundlingBlerThreshold is mandatory required
actTtiBundling of LNCEL - if actTtiBundling is set to 'true' ttiBundlingSinrThreshold is mandatory required
dlChBw of LNCEL - value must be identicaliniPrbsUl of LNCEL - iniPrbsUl depends on ulChBwmaxNumActUE of LNCEL - maxNumActUE depends on ulChBwmaxNumRrc of LNCEL - maxNumRrc depends on the configured ulChBw (please refer to maxNumRrc)prachHsFlag of LNCEL - prachHsFlag can only be set to ‘true’ if ulCombinationMode is set to 'MRC' and maximal 2 RX antennas are configured in resourceListresourceList of LCELL - prachHsFlag can only be set to ‘true’ if maximal 2 RX antennas are configured in resourceList and ulCombinationMode is set to 'MRC'
ttiBundlingBlerThreshold of LNCEL - if ttiBundlingBlerThreshold is configured, it must be greater than ulTargetBler
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actUlpcMethod of LNCEL - if parameter actUlpcMethod is set to 'PuschIAwPucchCL' or 'PuschIAwPucchOL' ulpcAlpha must be configured to 'alpha 1'
actUlpcMethod of LNCEL - if actUlpcMethod is set to 'PuschIAwPucchOL' or 'PuschIAwPucchCL' ulpcIAwConfig must be configured
actUlpcMethod of LNCEL - if actUlpcMethod is set to 'PuschOLPucchCL', 'PuschCLPucchCL', 'PuschCLSrsPucchCL' or 'PuschIAwPucchCL', ulpcPucchConfig must be configured
ulpcUplevCch of LNCEL - ulpcUplevCch must be greater than or equal to ulpcLowlevCch
ulpcUpqualCch of LNCEL - ulpcUpqualCch must be equal to or greater than ulpcLowqualCch
ulpcLowlevCch of LNCEL - ulpcLowlevCch must be less than or equal to ulpcUplevCch
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ulpcLowqualCch of LNCEL - ulpcLowqualCch value must be less than or equal to ulpcUpqualCch
actUlpcMethod of LNCEL - if actUlpcMethod is set to 'PuschCLPucchOL', 'PuschCLPucchCL', 'PuschCLSrsPucchOL' or 'PuschCLSrsPucchCL', ulpcPuschConfig must be configured
ulpcUplevSch of LNCEL - ulpcUplevSch must be greater than or equal to ulpcLowlevSch
ulpcUpqualSch of LNCEL - ulpcUpqualSch must be greater than or equal to ulpcLowqualSch
ulpcLowlevSch of LNCEL - Parameter must be less than or equal to ulpcUplevSch
ulpcLowqualSch of LNCEL - ulpcLowqualSch must be less than or equal to ulpcUpqualSch
actUlpcMethod of LNCEL - if actUlpcMethod is set to 'PuschOLPucchCL', 'PuschCLPucchOL', 'PuschCLPucchCL', 'PuschCLSrsPucchOL', 'PuschCLSrsPucchCL' or 'PuschIAwPucchCL', ulpcReadPeriod must be configuredulsSchedMethod of LNCEL - if ulsSchedMethod is set to 'channel aware' or 'interference aware' ulsFdPrbAssignAlg must be set to 'MixedFD'ulsMaxPacketAgg of LNCEL - ulsMaxPacketAgg must be set to '1' if ulsFdPrbAssignAlg is set to 'RoundRobinFD'ulsFdPrbAssignAlg of LNCEL - If ulsFdPrbAssignAlg is set to 'RoundRobinFD' ulsMaxPacketAgg must be set to ‘1’
ulChBw of LNCEL - range depends on UL channel bandwidth
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actPuschMask of LNCEL - if actPuschMask is set to 'true' at least one list item of ulsPuschMask must be configured
prachFreqOff of LNCEL - PRACH allocation (prachFreqOff) and PUSCH mask allocation (ulsPuschMask) must be mutually exclusive (for details please refer to ulsPuschMask)ulChBw of LNCEL - the ulChBw determines the allowed range for ulsPuschMaskLengthprachFreqOff of LNCEL - PRACH allocation (prachFreqOff) and PUSCH mask allocation (ulsPuschMask) must be mutually exclusive (for details please refer to ulsPuschMask)ulChBw of LNCEL - the ulChBw determines the allowed range for ulsPuschMaskStartsrsPwrOffset of LNCEL - srsPwrOffset must be configured if ulsSchedMethod is set to 'channel aware' OR (ulsSchedMethod is set to ('interference aware' or 'channel unaware') AND actUlLnkAdp is set to 'fUlLa' AND srsConfiguration is specified)
actIntraFreqLoadBal of LNBTS - if actIntraFreqLoadBal is set to 'true', upperMarginCIO is mandatory required
pciFirst of LNHENB - if pciLast-pciFirst is greater than or equal to 32, cellIndOff must be configured to 0pciLast of LNHENB - if pciLast-pciFirst is greater than or equal to 32, cellIndOff must be configured to 0
freqEutra of LNHENB - freqEutra must be unique within all LNHENB instances of the eNB
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cellIndOff of LNHENB - cellIndOff must be configured to 0, if pciLast-pciFirst is greater than or equal to 32pciLast of LNHENB - pciLast must be greater than or eqal to pciFirst
cellIndOff of LNHENB - cellIndOff must be configured to 0, if pciLast-pciFirst is greater than or equal to 32pciFirst of LNHENB - pciFirst must be smaller than or equal to pciLast
eNACCAllowed of LNRELG - number of target cells for eNACC is restricted to maximal 32 per LTE cell and frequency bandsrvccAllowed of LNRELG - number of target cells for SRVCC is restricted to maximal 32 per LTE cell and frequency bandthreshold4 of LNCEL - threshold4 must be smaller than b2Threshold1GERANlnRelGId of LNRELG - b2Threshold1GERAN depends on existence of a LNRELG instance
threshold4 of LNCEL - threshold4 < b2Threshold1Hrpd
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hrpdCarrierFreq of LNHOH - LNHOH identity (combination of: hrpdBandClass + hrpdArfcn) must be unique within all LNHOH instances belonging to same LNCEL
hrpdBandClass of LNHOH - LNHOH identity (combination of: hrpdBandClass + hrpdArfcn) must be unique within all LNHOH instances belonging to same LNCELhrpdArfcn of LNHOH - LNHOH identity (combination of: hrpdBandClass + hrpdArfcn) must be unique within all LNHOH instances belonging to same LNCEL
hrpdBandClass of LNHOH - LNHOH identity (combination of: hrpdBandClass + hrpdArfcn) must be unique within all LNHOH instances belonging to same LNCELhrpdArfcn of LNHOH - LNHOH identity (combination of: hrpdBandClass + hrpdArfcn) must be unique within all LNHOH instances belonging to same LNCEL
hrpdPreRegZoneId of CDFIM - hrpdPreRegZoneId within CDFIM is mandatory required if hrpdPreRegAllowed is set to 'true'
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measQuantInterFreq of LNHOIF - if measQuantInterFreq is set to 'rsrp' or 'both' a3OffsetRsrpInterFreq must be configured
measQuantInterFreq of LNHOIF - if measQuantInterFreq is set to 'rsrq' or 'both' a3OffsetRsrqInterFreq must be configured
measQuantInterFreq of LNHOIF - if measQuantInterFreq is set to 'rsrp' or 'both' a3ReportIntervalRsrpInterFreq must be configured
measQuantInterFreq of LNHOIF - if measQuantInterFreq is set to 'rsrq' or 'both' a3ReportIntervalRsrqInterFreq must be configured
measQuantInterFreq of LNHOIF - if measQuantInterFreq is set to 'rsrp' or 'both' a3TimeToTriggerRsrpInterFreq must be configured
measQuantInterFreq of LNHOIF - if measQuantInterFreq is set to 'rsrq' or 'both' a3TimeToTriggerRsrqInterFreq must be configured
earfcnDL of LNCEL - earfcnDL of the superior LNCEL instance must be different to the eutraCarrierInfoeutraCarrierInfo of LNHOIF - eutraCarrierInfo must be unique per LNCEL instance
measQuantInterFreq of LNHOIF - if measQuantInterFreq is set to 'rsrp' or 'both' hysA3OffsetRsrpInterFreq must be configured
measQuantInterFreq of LNHOIF - if measQuantInterFreq is set to 'rsrq' or 'both' hysA3OffsetRsrqInterFreq must be configured
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a3OffsetRsrpInterFreq of LNHOIF - a3OffsetRsrpInterFreq must be configured if measQuantInterFreq = 'rsrp' or 'both', otherwise not specifieda3OffsetRsrqInterFreq of LNHOIF - a3OffsetRsrqInterFreq must be configured if measQuantInterFreq = 'rsrq' or 'both', otherwise not specified
threshold1 of LNCEL - threshold1 must be greater than threshold3InterFreqthreshold4 of LNCEL - threshold4 must be smaller than threshold3InterFreq
thresholdRsrqIFLBFilter of LNHOIF - if thresholdRsrqIFLBFilter is not configured and actInterFreqLB is set to ‘true’ thresholdRsrpIFLBFilter must be specifiedactInterFreqLB of LNBTS - if actInterFreqLB is set to ‘true’ and thresholdRsrqIFLBFilter is not specified thresholdRsrpIFLBFilter must be configured
thresholdRsrpIFLBFilter of LNHOIF - if thresholdRsrpIFLBFilter is not configured and actInterFreqLB is set to ‘true’ thresholdRsrqIFLBFilter must be specifiedactInterFreqLB of LNBTS - if actInterFreqLB is set to ‘true’ and thresholdRsrpIFLBFilter is not specified thresholdRsrqIFLBFilter must be configured
actCsfbPsHoToUtra of LNBTS - b1ThresholdCSFBUtraEcn0 depends on actCsfbPsHoToUtrameasQuantityCSFBUtra of LNCEL - b1ThresholdCSFBUtraEcn0 depends on measQuantityCSFBUtraactCsfbPsHoToUtra of LNBTS - b1ThresholdCSFBUtraRscp depends on actCsfbPsHoToUtrameasQuantityCSFBUtra of LNCEL - b1ThresholdCSFBUtraRscp depends on measQuantityCSFBUtra
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threshold4 of LNCEL - threshold4 must be smaller than b2Threshold1UtralnRelWId of LNRELW - b2Threshold1Utra depends on configured LNRELW instance for this LNCEL
measQuantityUtra of LNCEL - if measQuantityUtra is set to 'cpichEcN0' b2Threshold2UtraEcn0 must be configuredlnRelWId of LNRELW - b2Threshold2UtraEcn0 depends on configured LNRELW instance for this LNCELmeasQuantityUtra of LNCEL - if measQuantityUtra is set to 'cpichRSCP' b2Threshold2UtraRscp must be configuredlnRelWId of LNRELW - b2Threshold2UtraRscp depends on configured LNRELW instance for this LNCEL
b2Threshold2UtraRscp of LNHOW - if b2Threshold2UtraRscp is set, hysB2ThresholdUtra must be configuredb2Threshold2UtraEcn0 of LNHOW - if b2Threshold2UtraEcn0 is set, hysB2ThresholdUtra must be configured
uTargetFreq of LNADJW - restricts number of LNRELW instances together with maxNumCsfbTargetsutraCarrierFreq of LNHOW - restricts number of LNRELW instances together with maxNumCsfbTargets
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bandClass of LNADJX - combination of bandclass + arfcn restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to 'allowed')
rttCarrierFreq of LNHOX - restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to 'allowed')bandClass of LNADJX - combination of bandclass + arfcn restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to
mncLength of LNMME - Value of mncLength parameter should determine whether mnc should contain 2 digts or 3digts.
mnc of LNMME - mnc should be of 2 digits or 3 digits based on the value of mncLength parameter.
transportNwId of LNMME - transportNwId must be different for LNMME instances having same ipAddrPrimipAddrPrim of LNMME - ipAddrPrim must be unique in all LNMME instances with identical transportNwId
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lnMmeId of LNMME - LNMME instance with lnMmeId '0' must existipAddrPrim of LNMME - the combination of ipAddrPrim and transportNwId must be unique within all LNMME instances
ipAddrPrim of LNMME - ipAddrPrim must be unique in all LNMME instances with identical transportNwId
hrpdBandClass of LNNEIH - LNNEIH identity (combination of: hrpdBandClass + hrpdArfcn + hrpdPnOffset) must be unique within all LNNEIH instances belonging to same LNCEL instancehrpdPnOffset of LNNEIH - LNNEIH identity (combination of: hrpdBandClass + hrpdArfcn + hrpdPnOffset) must be unique within all LNNEIH instances belonging to same LNCEL instance
hrpdArfcn of LNNEIH - LNNEIH identity (combination of: hrpdBandClass + hrpdArfcn + hrpdPnOffset) must be unique within all LNNEIH instances belonging to same LNCEL instancehrpdPnOffset of LNNEIH - LNNEIH identity (combination of: hrpdBandClass + hrpdArfcn + hrpdPnOffset) must be unique within all LNNEIH instances belonging to same LNCEL instance
hrpdBandClass of LNNEIH - LNNEIH identity (combination of: hrpdBandClass + hrpdArfcn + hrpdPnOffset) must be unique within all LNNEIH instances belonging to same LNCEL instancehrpdArfcn of LNNEIH - LNNEIH identity (combination of: hrpdBandClass + hrpdArfcn + hrpdPnOffset) must be unique within all LNNEIH instances belonging to same LNCEL instance
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lnBtsId of LNBTSmcc of LNBTSmnc of LNBTSmncLength of LNBTSlcrId of LNCELlnBtsId of LNBTSmcc of LNBTSmnc of LNBTSmncLength of LNBTSlcrId of LNCELlnBtsId of LNBTSmcc of LNBTSmnc of LNBTSmncLength of LNBTSlcrId of LNCEL
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ci of LNRELG - cell global identity (plmnId + lac + ci) must be unique within all LNRELG objects of a LNCELlac of LNRELG - cell global identity (plmnId + lac + ci) must be unique within all LNRELG objects of a LNCEL
ci of LNRELGlac of LNRELG - cell global identity (plmnId + lac + ci) must be unique within all LNRELG objects of a LNCELplmnId of LNRELG - cell global identity (plmnId + lac + ci) must be unique within all LNRELG objects of a LNCEL
threshold2a of LNCEL - if a LNRELG instance is configured in the LNCEL, threshold2a must be configureda1TimeToTriggerDeactInterMeas of LNCEL - if a LNRELG instance is configured in the LNCEL, a1TimeToTriggerDeactInterMeas must be configured
ci of LNRELG - cell global identity (plmnId + lac + ci) must be unique within all LNRELG objects of a LNCELlac of LNRELG - cell global identity (plmnId + lac + ci) must be unique within all LNRELG objects of a LNCEL
redirWithSysInfoAllowed of LNRELG - maximal 16 LNRELG instance per LNCEL with redirWithSysInfoAllowed set to 'allowed' can be configured
uTargetFreq of LNADJW - restricts number of LNRELW instances together with csfbPsHoAllowedutraCarrierFreq of LNHOW - restricts number of LNRELW instances together with csfbPsHoAllowedmaxNumCsfbTargets of LNHOW - restricts number of LNRELW instances together with csfbPsHoAllowed
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a2TimeToTriggerActWcdmaMeas of LNCEL - if a LNRLEW instance is configured, a2TimeToTriggerActWcdmaMeas must be configuredt304InterRAT of LNCEL - if a LNRLEW instance is configured, t304InterRAT must be configured
uTargetFreq of LNADJW - uTargetFreq paired with uTargetScFdd must be unique in all LNADJW instances referred by the LNRELW objects of one LNCELuTargetScFdd of LNADJW - uTargetScFdd paired with uTargetFreq must be unique in all LNADJW instances referred by the LNRELW objects of one LNCEL
uTargetFreq of LNADJW - The number of LNRELW objects with psHoAllowed or srvccAllowed set to 'allowed' and referring to LNADJW objects with equal uTargetFreq parameter, must not exceed 32srvccAllowed of LNRELW - The number of LNRELW objects with psHoAllowed or srvccAllowed set to 'allowed' and referring to LNADJW objects with equal uTargetFreq parameter, must not exceed 32
uTargetFreq of LNADJW - the number of LNRELW objects with psHoAllowed or srvccAllowed set to 'allowed' and referring to LNADJW objects with equal uTargetFreq parameter, must not exceed 32psHoAllowed of LNRELW - the number of LNRELW objects with psHoAllowed or srvccAllowed set to 'allowed' and referring to LNADJW objects with equal uTargetFreq parameter, must not exceed 32
uTargetFreq of LNADJW - uTargetFreq paired with uTargetScFdd must be unique in all LNADJW instances referred by the LNRELW objects of one LNCELuTargetScFdd of LNADJW - uTargetScFdd paired with uTargetFreq must be unique in all LNADJW instances referred by the LNRELW objects of one LNCEL
uTargetFreq of LNADJW - uTargetFreq paired with uTargetScFdd must be unique in all LNADJW instances referred by the LNRELW objects of one LNCELuTargetScFdd of LNADJW - uTargetScFdd paired with uTargetFreq must be unique in all LNADJW instances referred by the LNRELW objects of one LNCEL
rttCarrierFreq of LNHOX - restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to 'allowed')bandClass of LNADJX - combination of bandclass + arfcn restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to
rttCarrierFreq of LNHOX - restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to 'allowed')bandClass of LNADJX - combination of bandclass + arfcn restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to
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marketId of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instanceswNo of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instance
rttCarrierFreq of LNHOX - restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to 'allowed')bandClass of LNADJX - combination of bandclass + arfcn restricts number of LNRELX instances together with rttMaxNumCsfbTargets (precondition:e1xCsfbAllowed in LNRELX set to
marketId of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instanceswNo of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instance
marketId of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instanceswNo of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instance
marketId of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instanceswNo of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instance
marketId of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instanceswNo of LNRELX - LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same LNCEL instance
tacLimitGbrNormal of LTAC - TAC LIMIT GBR normal <= TAC LIMIT GBR handover <= TAC LIMIT GBR emergency
tacLimitGbrNormal of LTAC - TAC LIMIT GBR normal <= TAC LIMIT GBR handover <= TAC LIMIT GBR emergency
transportNwId of IPNO - transportNwId must be equal to IPNO::addTransportNwIpAddrList::transportNwId in case this LTAC instance is used for additional operator.mainTransportNwId of IPNO - transportNwId must be equal to IPNO::mainTransportNwId in case this LTAC instance is used for main operator.
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BTS restart needed
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dlChBw of LNCEL - all frequencies within dlChBw must be fully within addFreqBandInd (please refer to addFreqBandInd)earfcnDL of LNCEL - earfcnDL must be within the addFreqBandInd (please refer to addFreqBandInd)earfcnDL of LNCEL - if in at least LNCEL instance the earfcnDL is identical to the specified eutraCarrierFreq in the MFBIPR instance, addSpectrEmissReq must be configuredeutraCarrierFreq of MFBIPR - if eutraCarrierFreq in the MFBIPR instance is identical to at least one earfcnDL in an LNCEL instance, addSpectrEmissReq must be configured
addFreqBandInd of MFBIPR - eutraCarrierFreq must be within the addFreqBandInd (please refer to addFreqBandInd)eutraCarrierFreq of MFBIPR - configured eutraCarrierFreq must be unique within all MFBIPR instances
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antlId of ANTL - Identifies the specific antenna line id.connection of MHA - when connection is set to 'External' antlId must be set to the value of scannedantennaInterfacescannedAntennaInterface of MHA - when connection is set to 'External' antlId must be set to the value of scannedantennaInterface
antlId of MHA - antlId must be set to the value of scannedantennaInterface when connection is set to 'External'scannedAntennaInterface of MHA
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antlId of MHA - when connection is set to 'External' antlId must be set to the value of scannedantennaInterfaceconnection of MHA - when connection is set to 'External' antlId must be set to the value of scannedantennaInterface
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cdmaHrpdBdClL of MODIMP - only one MODIMP instance can have a cdmaHrpdBdClL configured
cdmaRttBdClL of MODIMP - only one MODIMP instance can have a cdmaRttBdClL configured
dlCarFrqEutL of MODIMP - only one MODIMP instance can have a dlCarFrqEutL configured
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geranCarFrqIdleModeL of MODIMP - if geranCarFrqIdleModeL is configured in same MODIMP instance, geranCarFrqBd is mandatory required
geranCarFrqBd of MODIMP - if geranCarFrqBd is configured in same MODIMP geranCarFrqIdleModeL must be configured
utrFddCarFrqL of MODIMP - only one MODIMP instance can have a utrFddCarFrqL configured
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On-line refFreqListNaccGeran of MODPR
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On-line refFreqListSrvccGsm of MODPR
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actSelMobPrf of LNBTS - requires a MODPR instance
redirRAT of MODRED - if actGsmRedirWithSI is set to 'true' and redirRAT is set to 'geran', addGsmSIToRedirMsg must be configuredactGsmRedirWithSI of LNBTS - if actGsmRedirWithSI is set to 'true' and redirRAT is set to 'geran', addGsmSIToRedirMsg must be configuredcsFallBPrio of MODRED - csFallBPrio must be unique within all MODRED belonging to same MODPR (precondition:actIdleLB set to 'false')redirRAT of MODRED - if csFallBPrio is configured, redirRAT must be 'geran' or 'utraFDD' in this MODRED instance
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emerCallPrio of MODRED - must be unique within all MODRED belonging to same MODPRredirRAT of MODRED - if emerCallPrio is configured, redirRAT must be 'geran' or 'utraFDD' in this MODRED instance
redirRAT of MODRED - if redirRAT is 'cdma2000HRPD' or 'cdma20001xRTT', redirBandCdma must be configured
redirRAT of MODRED - if redirRAT is 'cdma2000HRPD' or 'cdma20001xRTT', redirFreqCdma must be configured
redirRAT of MODRED - if redirRAT is 'eutra', redirFreqEutra must be configured
redirRAT of MODRED - if redirRAT is 'utraFDD' or 'utraTDD', redirFreqUtra must be configured
redirRAT of MODRED - if redirRAT is 'geran', redirGeranArfcnValueL is mandatory
redirRAT of MODRED - if redirRAT is 'geran', redirGeranBandIndicator must be configured
csFallBPrio of MODRED - csFallBPrio must be configured if redirRAT is to 'geran' or 'utraFDD' if emerCallBPrio and redirectPrio are both not configured in this MODRED instanceemerCallPrio of MODRED - emerCallPrio must be configured if redirRAT is 'geran' or 'utraFDD' if csFallBPrio and redirectPrio are both not configured in this MODRED instance
redirectPrio of MODRED - redirectPrio must be unique within all MODRED belonging to same MODPR (precondition:actIdleLB set to 'false')actIdleLB of LNBTS - if actIdleLB is set to 'false' redirectPrio must be unique within all MODRED belonging to same MODPRcdmaHrpdBdClL of MOIMP - only one MOIMP instance of same MOPR can have a cdmaHrpdBdClL configured
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cdmaRttBdClL of MOIMP - only one MOIMP instance of same MOPR can have a cdmaRttBdClL configured
dlCarFrqEutL of MOIMP - only one MOIMP instance of same MOPR can have a dlCarFrqEutL configured
geranCarFrqIdleModeL of MOIMP - if geranCarFrqIdleModeL is configured in same MOIMP instance, geranCarFrqBd is mandatory required
geranCarFrqBd of MOIMP - if geranCarFrqBd is configured in same MOIMP geranCarFrqIdleModeL must be configured
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On-line refFreqListNaccGeran of MOPR
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utrFddCarFrqL of MOIMP - only one MOIMP instance of same MOPR can have a utrFddCarFrqL configured
moPrId of LNCEL - the MOPR instance must exist when assigned to SPID
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redirRAT of MORED - if actGsmRedirWithSI is set to 'true' and redirRAT is set to 'geran', addGsmSIToRedirMsg must be configuredactGsmRedirWithSI of LNBTS - if actGsmRedirWithSI is set to 'true' and redirRAT is set to 'geran', addGsmSIToRedirMsg must be configuredcsFallBPrio of MORED - csFallBPrio must be unique within all MORED belonging to same MOPR (precondition:actIdleLB set to 'false')redirRAT of MORED - if csFallBPrio is configured, redirRAT must be 'geran' or 'utraFDD' in this MORED instanceemerCallPrio of MORED - must be unique within all MORED belonging to same MOPRredirRAT of MORED - if emerCallPrio is configured, redirRAT must be 'geran' or 'utraFDD' in this MORED instance
redirRAT of MORED - if redirRAT is 'cdma2000HRPD' or 'cdma20001xRTT', redirBandCdma must be configured
redirRAT of MORED - if redirRAT is 'cdma2000HRPD' or 'cdma20001xRTT', redirFreqCdma must be configured
redirRAT of MORED - if redirRAT is 'eutra', redirFreqEutra must be configured
redirRAT of MORED - if redirRAT is 'utraFDD' or 'utraTDD', redirFreqUtra must be configured
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redirRAT of MORED - if redirRAT is 'geran', redirGeranArfcnValueL is mandatory
redirRAT of MORED - if redirRAT is 'geran', redirGeranBandIndicator must be configured
csFallBPrio of MORED - csFallBPrio must be configured if redirRAT is to 'geran' or 'utraFDD' if emerCallBPrio and redirectPrio are both not configured in this MORED instanceemerCallPrio of MORED - emerCallPrio must be configured if redirRAT is 'geran' or 'utraFDD' if csFallBPrio and redirectPrio are both not configured in this MORED instance
redirectPrio of MORED - redirectPrio must be unique within all MORED belonging to same MOPR (precondition:actIdleLB set to 'false')actIdleLB of LNBTS - if actIdleLB is set to 'false' redirectPrio must be unique within all MORED belonging to same MOPR
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lnBtsId of LNBTS - mrbtsId must be same as lnBtsId.btsId of IPNO - mrbtsId must be same as btsid.btsId of BTSSCL - mrbtsId must be same as btsid.
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rfSharingEnabled of BTSSCL - When rfSharingEnabled parameter is set to value 'true' then this parameter must be set.
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eutranTraceId of MTRACE - eutranTraceId list item combination of ("eutranTraceIdMcc"+"eutranTraceIdMnc"+"eutranTraceIdMncLen"+"traceId") must be unique within the BTS
traceRrcNonUeSpecMsgList of MTRACE - Only if traceRrcMsgCategory has been set to 'nonUEspecific' or 'All', trace RRC non-UE specific message list shall be presenttraceRrcSetting of MTRACE - Only if traceRrcSetting has been set to 'Specific', trace RRC Msg Category parameter shall be present
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traceRrcMsgCategory of MTRACE - Only if traceRrcMsgCategory has been set to 'nonUEspecific' or 'All', trace RRC non-UE specific message list shall be present
traceRrcMsgCategory of MTRACE - Only if traceRrcSetting has been set to 'Specific', trace RRC Msg Category parameter shall be present
traceRrcMsgCategory of MTRACE - Only if traceRrcMsgCategory has been set to 'UEspecific' or 'All', trace RRC UE specific message list shall be present
traceS1NonUeSpecMsgList of MTRACE - Only if traceS1MsgCategory has been set to 'nonUEspecific' or 'All', trace S1 non-UE specific message list shall be presenttraceS1Setting of MTRACE - Only if traceS1Setting has been set to 'Specific', trace S1 Msg Category parameter shall be present
traceS1MsgCategory of MTRACE - Only if traceS1MsgCategory has been set to 'nonUEspecific' or 'All', trace S1 Non UE specific message list shall be present
traceS1MsgCategory of MTRACE - Only if traceS1Setting has been set to 'Specific', trace S1 Msg Category parameter shall be present
traceS1MsgCategory of MTRACE - Only if traceS1MsgCategory has been set to 'UEspecific' or 'All', trace S1 UE specific message list shall be present
traceX2NonUeSpecMsgList of MTRACE - Only if traceX2MsgCategory has been set to 'nonUEspecific' or 'All', trace X2 non-UE specific message list shall be presenttraceX2Setting of MTRACE - Only if traceX2Setting has been set to 'Specific', trace X2 Msg Category parameter shall be present
traceX2MsgCategory of MTRACE - Only if traceX2MsgCategory has been set to 'nonUEspecific' or 'All', trace X2 non-UE specific message list shall be present
traceX2MsgCategory of MTRACE - Only if traceX2Setting has been set to 'Specific', trace X2 Msg Category parameter shall be present
traceX2MsgCategory of MTRACE - Only if traceX2MsgCategory has been set to 'UEspecific' or 'All', trace X2 UE specific message list shall be present
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vlanEnabled of OAMMA - Parameter can be used when vlanEnabled is set to true
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efpEventWindow of OAMPRF - Configured value for efpEventThreshold should be within configured value for OAMPRF-efpEventWindow to enable the possibility of generating Errored Frame Period Event Notifications
activeMode of OAMPRF - Parameter eventRepetition is only relevant in Link OAM active mode (parameter activeMode = true)
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unitTypeActual of UNIT - When setting the PDH Line Type to another interface type, FTM switches on all interfaces of this unit the PDH Line Type to the default value for that interface type. In the second configuration step the framing format within this
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redirRat of REDRT - if actGsmRedirWithSI is set to 'true' and redirRat is set to 'geran', addGsmSIToRedirMsg must be configuredactGsmRedirWithSI of LNBTS - if actGsmRedirWithSI is set to 'true' and redirRAT is set to 'geran', addGsmSIToRedirMsg must be configuredredirRat of REDRT - dependent on redirRat value and activated features the allowed values for csFallBPrio are restrictedactCSFBRedir of LNBTS - if actCSFBRedir is 'Enabled', at least one REDRT instance must exist per LNCEL with configured csFallBPrio, for REDRT instances with redirRat is set to 'geran' or 'utraFDD'
redirRat of REDRT - dependent on redirRat value and activated features the allowed values for emerCallPrio are restrictedactEmerCallRedir of LNBTS - if actEmerCallRedir is 'Enabled', at least one REDRT instance must exist per LNCEL with configured emerCallPrio, for REDRT instances with redirRat is set to 'geran' or 'utraFDD'
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BTS restart needed
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redirRat of REDRT - redirBandCdma must be configured if redirRat is set to 'cdma2000HRPD' or 'cdma20001xRTT'
redirRat of REDRT - redirFreqCdma must be configured if redirRat is set to 'cdma2000HRPD' or 'cdma20001xRTT'
redirRat of REDRT - redirFreqEutra must be configured if redirRat is set to 'eutra'
redirRat of REDRT - redirFreqUtra must be configured if redirRat is set to 'utraFDD' or 'utraTDD'
redirRat of REDRT - redirGeranArfcnValueL must be configured if redirRat is set to 'geran'
redirRat of REDRT - redirGeranBandIndicator must be configured if redirRat is set to 'geran'
redirBandCdma of REDRT - if redirRat is 'cdma2000HRPD' or 'cdma20001xRTT', redirBandCdma must be configuredredirFreqCdma of REDRT - if redirRat set to 'cdma2000HRPD' or 'cdma20001xRTT', redirFreqCdma must be configuredactRedirect of LNBTS - if actRedirect is set to 'enabled', at least one REDRT instance per LNCEL must exist with configured redirectPrioredirectPrio of REDRT - must be unique for all REDRT instances when actIdleLB is set to 'false'actRedirect of LNBTS - Not applicable if actRedirect is 'disabled'actCSFBRedir of LNBTS - if actCSFBRedir is 'Enabled', at least one REDRT instance must exist per LNCEL
maxAngle of RET - value of parameter 'angle' should be less or equal than thisminAngle of RET - value of parameter 'angle' should be less or equal than this
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antlId of ANTL - Identifies the specific antenna line id.connection of RET - when connection is set to 'External' antlIdList must be set to the value of scannedantennaInterfacescannedAntennaInterface of RET - when connection is set to 'External' antlIdList must be set to the value of scannedantennaInterface
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calibrationDone of RET - When calibrationDone = FALSE, calibrate is requiredconfigFileDlNeeded of RET - When configFileDlNeeded is required, user shall be recommended (not mandatory) to request calibration also
configurationFile of RET - When configFileDlNeeded = TRUE, configurationFile is required
configurationFile of RET - When configurationDone = FALSE, configurationFile is required
configFileDlNeeded of RET - configurationFile is downloaded if configFileDlNeeded = TRUE also
antlIdList of RET - antlIdList must be set to the value of scannedantennaInterface when connection is set to 'External'scannedAntennaInterface of RET
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retDeviceType of RET - if retDeviceType is set to 'SingleAntennaDevice', retAntUnitNumber must be configured to '1'
retAntUnitNumber of RET - retAntUnitNumber must be configured to '1' if retDeviceType is set to 'SingleAntennaDevice'
antlIdList of RET - when connection is set to 'External' antlIdList must be set to the value of scannedantennaInterfaceconnection of RET - when connection is set to 'External' antlIdList must be set to the value of scannedantennaInterface
rfSharingEnabled of BTSSCL - If rfSharingEnabled value is set to 'true' the connectionList must contain another list item for the share radio module
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rfSharingEnabled of BTSSCL - If rfSharingEnabled parameter value is 'true' and external alarms shall be delivered via the LTE BTS, usedInEutra needs to be set to value 'true'
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BTS restart needed
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pathMaxRetrans of SCTP - assocMaxRetrans must be smaller than or equal two times of pathMaxRetrans
assocMaxRetrans of SCTP - assocMaxRetrans must be smaller than or equal two times of pathMaxRetrans
BTS restart needed rtoMin of SCTP - rtoMax>=rtoMin
BTS restart needed rtoMax of SCTP - rtoMax>=rtoMin
BTS restart needed
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rfSharingEnabled of BTSSCL - If rfSharingEnabled parameter value is 'true' linkList must be defined.
rfSharingEnabled of BTSSCL - if rfSharingEnabled is set to value 'true' then radioMaster parameter should be set to value 'true' for LTE SMOD in 2G-LTE RF sharing and 'false' for 3G-LTE RF sharing . The other technology SMOD radioMaster need to be configured
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technology of SMOD - syncMaster setting depends on the technology in the SMOD instance and RF sharing configuration: in 2G-LTE RF sharing: in LTE SMOD syncMaster must be set to 'true', 'false' in 2G SMOD, LTE-3G RF sharing: in LTE SMOD syncMaster of SMOD - syncMaster setting depends on the technology in the SMOD instance and RF sharing configuration: in 2G-LTE RF sharing: in LTE SMOD syncMaster must be set to 'true', 'false' in 2G SMOD, LTE-3G RF sharing: in LTE SMOD
clockProtocol of STPG - For physical interfaces, the interfaceNumber also depends on the clock protocol selected.unitNumber of STPG - For physical interfaces, the interfaceNumber depends on the referenced unitNumber.
Not modifiable
Not modifiable
Not modifiable
On-line
On-line
On-line
Not modifiable
On-line
On-line
On-line
On-line
On-line
sPlaneIpAddress of IPNO - If actTopFreqSynch is enabled then sPlaneIpAddress is mandatory.
actTopFreqSynch of TOPF - masterIpAddr must be configured if actTopFreqSynch = TRUE.
synchroSourceList of STPG - one of the 2 entries parameter "clockProtocol" is set to "clkTop" and actToPPhase Sync = true then actToPFreqSynch = false.
topComMode of TOPP - Only applicable if topComMode = IP Unicast (0)
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On-line
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Not modifiable
On-line
Requires object locking
Requires object locking
On-line
On-line
On-line
On-line
topComMode of TOPP - Only applicable if topComMode = Ethernet Multicast (1)
topComMode of TOPP - "Only applicable if topComMode = IP Unicast (0)masterIpAddr must be configured if actTopPhaseSynch = TRUE"
administrativeState of TWAMP - The TWAMP session must be locked, before its destination IP address can be changed (set administrativeState to "locked")
administrativeState of TWAMP - Changing the destination port of the session requires locking it.
mtu of IEIF - The value of the parameter messageSize shall not exceed the Maximum Transfer Unit value.
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Not modifiable
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On-line
On-line
Not modifiable
On-line
On-line
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administrativeState of TWAMP - The TWAMP session must be locked, before its source IP address can be changed (set administrativeState to "locked").
dlChBw of LNCEL - for dlChBw of '1.4 MHz' or '3 MHz' the creation of an UFFIM instance is not allowedsiMessageSibType of LNCEL - If any siMessageSibType in sibSchedulingList is set to 'SIB6', an UFFIM instance is mandatory required
dlCarFrqUtra of UFFIM - must be unique in all instances of structure utrFddCarFrqL
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BTS restart needed
BTS restart needed
On-line
BTS restart needed
Not modifiable
Not modifiable
cellReSelPrio of LNCEL - must be unequalhrpdCResPrio of CDFIM - must be unequalrttCResPrio of CDFIM - must be unequalgCelResPrio of GNFL - must be unequaleutCelResPrio of IRFIM - must be unequalthreshServingLowQR9 of LNCEL - if threshServingLowQR9 is set in the parent LNCEL instance, utraFrqQThrHighR9 is mandatory required
threshServingLowQR9 of LNCEL - if threshServingLowQR9 is set in the parent LNCEL instance, utraFrqQThrLowR9 is mandatory requiredutraFrqQThrHighR9 of UFFIM - utraFrqQThrHighR9 is mandatory required if utraFrqQThrLowR9 in this utrFddCarFrqL list set is configured
earfcnUL of LNCEL - all cells of an Uplink CoMP must have same earfcnULlnCelId of LNCEL - the LNCEL instances must exist and can only be included to one ulcoMpCellList per eNBactUlCoMp of LNBTS - if actUlCoMp is set to 'true' at least one ULCOMP instance must exist
unitTypeExpected of UNIT - This parameter is applicable only when unitTypeExpected is one of FSM, or FSI.
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On-line gcsnaSequenceContextTimer of XPARAM - gcsnaSequenceContextTimer > gcsnaL2AckTimer
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On-line
gcsnaL2AckTimer of XPARAM - gcsnaL2AckTimer < gcsnaSequenceContextTimer
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On-line
Not modifiable act1xCsfb of LNBTS - if act1xCsfb is set to 'true' and additionally rttCsfbType is not set to 'forbidden' in the LNCEL instance an instance of XPARAM is mandatory required for this LNCELrttCsfbType of LNCEL - if in the LNCEL instance rttCsfbType is not set to 'forbidden' and additioonally act1xCsfb is set to 'true' an instance of XPARAM is mandatory required for this LNCEL
Parameter Relationships Related Features
• LTE666 LTE User Account Management (standard)
• LTE666 LTE User Account Management (standard)
• LTE666 LTE User Account Management (standard)
• LTE1383 ANR Robustness (standard)
• LTE1383 ANR Robustness (standard)
• LTE1383 ANR Robustness (standard)
• LTE150 LTE OAM Transport Layer Security (standard)
• LTE1383 ANR Robustness (standard)• LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional)
For the default profile, ANRPRL-0 following conditions need to be fulfilled:- this instance (with anrPrLId set to '0') must always be existing in the eNB database- the targetCarrierFreq must be omitted.
• LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional)• LTE1383 ANR Robustness (standard)
• LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional)
• LTE1383 ANR Robustness (standard)
• LTE1383 ANR Robustness (standard)targetCarrierFreq must be unique within all ANRPRL instances.
targetCarrierFreq must be omitted in the ANRPRL instance with anrPrLId=0 (default profile). In all other ANRPRL instances the targetCarrierFreq must be configured.
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
Within all ANRPRW instances having same utraCarrierFreq value:- maximal one ANRPRW instance with empty or omitted cellsToApplyList is allowed.- no duplicated lnCelIds in the cellsToApplyList of all those instances is allowed.
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
Within all ANRPRW instances with same utraCarrierFreq the value of the parameter lnRelWLimitForAnr must be identical.
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
The value of psc must be less than pscLast if pscLast is set.
The value of pscLast must be greater than psc.
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
Within all ANRPRW instances having same utraCarrierFreq value:- maximal one ANRPRW instance with empty or omitted cellsToApplyList is allowed.- no duplicated lnCelIds in the cellRestrictionList of all those instances is allowed.
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
• LTE1072 Flexi Lite BTS 750 (optional)
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) • LTE1072 Flexi Lite BTS 750 (optional)• LTE435 SW support for RF sharing WCDMA-LTE (optional)• LTE145 LTE Configuration Management (standard)
• LTE145 LTE Configuration Management (standard) • LTE1072 Flexi Lite BTS 750 (optional)• LTE495 OTDOA (optional)
• LTE145 LTE Configuration Management (standard) • LTE1072 Flexi Lite BTS 750 (optional)• LTE435 SW support for RF sharing WCDMA-LTE (optional) • LTE106 6 cell support with one System Module (standard)• LTE1247 Multiradio System Module extended LTE configurations (standard)
• LTE1072 Flexi Lite BTS 750 (optional)
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) • LTE1072 Flexi Lite BTS 750 (optional)• LTE435 SW support for RF sharing WCDMA-LTE (optional)• LTE1072 Flexi Lite BTS 750 (optional)• LTE435 SW support for RF sharing WCDMA-LTE (optional)
• LTE106 6 cell support with one System Module (standard)• LTE1195 FHCC Repeater Interface Module (standard) • LTE1072 Flexi Lite BTS 750 (optional)
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) • LTE435 SW support for RF sharing WCDMA-LTE (optional)• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional) • LTE435 SW support for RF sharing WCDMA-LTE (optional)• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)• LTE125 IPv4/IPv6 dual stack (standard)• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)
• LTE656 LTE Fault Management (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)• LTE125 IPv4/IPv6 dual stack (standard)• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE592 Bidirectional Forwarding Detection (standard)
• LTE592 Bidirectional Forwarding Detection (standard)• LTE866 Fast IP rerouting (Transport Path Protection) (optional)
The configured values for faultName must be unique.
The configured faultName must be unique within alToggSuppList.
• LTE145 LTE Configuration Management (standard)
• LTE145 LTE Configuration Management (standard)
• LTE612-b Synchronization Hub for FSMr3 (optional)
• LTE612 Synchronization Hub for FSMr2 (optional)
• LTE80b Frame synchronized operation (standard)
• LTE80b Frame synchronized operation (standard)
btsId must be same as LNBTS/lnBtsId, MRBTS/mrbtsId and IPNO/btsid.
If gpsInUse is set to value 'true', btsSyncMode must be configured.If actTopPhaseSynch is set to 'true', btsSyncMode must be configured to 'PhaseSync'.If actTopFreqSynch is set to 'true', btsSyncMode must be configured to 'FreqSync'.
• LTE80b Frame synchronized operation (standard)• LTE891 Timing over Packet with phase synchronization (optional)
• LTE145 LTE Configuration Management (standard)• LTE447 SW support for RF sharing GSM-LTE (optional)
Restriction dependent on System Module types:FSMr2: ext1ppsClkOutOn must be set fix to 'false'.FSMr3: ext1ppsClkOutOn can only be set to 'true' if syncPropagationEnabled and gpsInUse are both set to 'true'. • LTE711 Synchronization from 2.048MHz signal
(standard)
ext2M048ClkOutOn can be set to 'true' only if syncPropagationEnabled is set to 'true'.
gpsCableLength is used only if gpsInUse is set to value true.The cable length is a primary parameter.
If btsSyncMode is set to 'PhaseSync':If gpsInUse is set to value 'true' and synchronisation is delivered from co-located BTS then gpsCtrlBlockForCoLocatedBts parameter shall be set to value 'true' to avoid unnecessary alarms.
• LTE612 Synchronization Hub for FSMr2 (optional)• LTE1698 1PPS&ToD Sync Slave Mode of Operation (standard)
The parameter specified if GPS is used. If the value is set to 'true' either gpsTotalAntennaLineDelay or gpsCableLength will be used.
• LTE145 LTE Configuration Management (standard)• LTE891 Timing over Packet with phase synchronization (optional)
gpsTotalAntennaLineDelay is used only if gpsInUse is set to value true.The cable length is a primary parameter.
If btsSyncMode is set to 'PhaseSync':
• LTE80b Frame synchronized operation (standard)holdOverModeUsed can only be set to 'true' if btsSyncMode is set to 'PhaseSync'
(1) When rfSharingEnabled is set to value 'true' linkList must contain three list items with linkId 1, 2 and 3 (one value for each item) with following setting for parameter radiomaster:- value 'true' in LTE-2G RF sharing
• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE980 IRC for 4 RX paths (optional)• LTE1542 FDD Supercell (standard)• LTE1895 LTE-GSM and LTE-WCDMA RF sharing for dual band and 4Rx configurations (standard)
FSMr3: Only if syncPropagationEnabled is set to 'true' - ext2M048ClkOutOn can be set to 'true'.- ext1ppsClkOutOn can be set to 'true' (if additionally gpsInUse is set to 'true').
• LTE612 Synchronization Hub for FSMr2 (optional)• LTE612-b Synchronization Hub for FSMr3 (optional)
If tdmSyncInUse is set to 'true' and additionally actTopPhaseSynch is set to 'true', btsSyncMode must be configured to 'PhaseSync'.
Please note: actTopPhaseSynch is configured in Transport domain and there is no validation over the domains.
• LTE710 Synchronization from PDH interface (standard)• LTE891 Timing over Packet with phase synchronization (optional)
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
If CAREL exists in P-LNCEL, the following definitions are used in below parameter relationships:- P-LNCEL: the parent LNCEL instance of the CAREL instance
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
Definitions used in below parameter relationships:- P-LNCEL: the parent LNCEL instance of the CAREL instance- S-LNCEL: the LNCEL instance referred by the CAREL instance having identical lcrId in the LNCEL instance
• LTE1089 Downlink carrier aggregation - 2 CC (optional)• LTE1332 Downlink carrier aggregation - 40 MHz (standard)
If SIB8 is scheduled in sibSchedulingList an instance of MOC CDFIM is mandatory required (precondition: dlChBw set to '5 MHz or higher).
The creation of a CDFIM instance for the LNCEL instance is not allowed if the cell bandwidth dlChBw is equal to '1.4 MHz' or '3 MHz'.
• LTE39 System information broadcast (standard)• LTE762 Idle mode mobility from LTE to WCDMA, GSM or other LTE bands (standard)• LTE654 LTE Configuration Management (standard)• LTE843 ETWS broadcast (optional)If act1xCsfb is set to 'true' and rttCsfbType for the
cell is not set to 'forbidden' structure csfbRegParam1xRtt must be configured for the CDFIM instance.
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
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If actHOtoHrpd is set to 'true' hoRegParamHrpd must be configured.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
If hrpdPreRegAllowed is set to 'true' hrpdPreRegZoneId must be configured.
hrpdPreRegZoneId must be configured if at least one of the following conditions is fulfilled.- hrpdPreRegAllowed is set to 'true' in the CDFIM instance- hrpdPreRegAllowed is set to 'true' in at least one LNHOH instance.Only if hrpdPreRegZoneId is specified hrpdSecPreRegZoneId1 is allowed to be configured.
Only if hrpdSecPreRegZoneId1 is specified hrpdSecPreRegZoneId2 can be configured, i.e. hrpdSecPreRegZoneId1 cannot be deleted if hrpdSecPreRegZoneId2 is still configured.
hrpdSecPreRegZoneId2 can only be configured if hrpdSecPreRegZoneId1 is specified, i.e. hrpdSecPreRegZoneId1 cannot be deleted if hrpdSecPreRegZoneId2 is still configured.
If for this structure at least one entry is provided with all its mandatory parameters then at least one element of list hrpdNcl must be createdtResHrpd becomes mandatory if for this structure at least one entry is provided
• LTE39 System information broadcast (standard)• LTE870 Idle mode mobility from LTE to CDMA/eHRPD (optional)• LTE654 LTE Configuration Management (standard)• LTE487 Idle mode mobility load balancing (standard)each hrpdBdClNcl list entry must be equal to one
hrpdBdClBcl in the same CDFIM instance
hrpdCResPrio must be unequal to the setting of - cellReSelPrio in each LNCEL instance,- eutCelResPrio in each IRFIM instance,- uCelResPrio in each UFFIM instance,- gCelResPrio in each GNFL instance,
If at least one element of hrpdNCList is provided then hrpdBdClList structure with at least one entry is mandatory with all its mandatory parameters.tResHrpd becomes mandatory if for hrpdNCList at least one element is provided.
• LTE39 System information broadcast (standard)• LTE870 Idle mode mobility from LTE to CDMA/eHRPD (optional)• LTE654 LTE Configuration Management (standard)• LTE576 3GPP baseline R9 03/2010 (standard)
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each hrpdBdClNcl list entry must be equal to one hrpdBdClBcl in the same CDFIM instance
If for this structure at least one entry is provided with all its mandatory parameters then at least one element of list rttNCList must be createdtResRtt becomes mandatory if for this structure at least one entry is provided
• LTE39 System information broadcast (standard)• LTE807 Idle mode mobility from LTE to CDMA/1xRTT (optional)• LTE654 LTE Configuration Management (standard)• LTE487 Idle mode mobility load balancing (standard)
rttBdClBcl must be equal to one rttBdClNcl in the same CDFIM instance
rttCResPrio must be unequal to the setting of - cellReSelPrio in each LNCEL instance,- eutCelResPrio in each IRFIM instance,- uCelResPrio in each UFFIM instance,- gCelResPrio in each GNFL instance,
If at least one element of rttNCList is provided then rttBdClList structure with at least one entry is mandatory with all its mandatory parameters.- tResRtt becomes mandatory if for rttNCList at least one element is provided.
• LTE39 System information broadcast (standard)• LTE807 Idle mode mobility from LTE to CDMA/1xRTT (optional)• LTE654 LTE Configuration Management (standard)• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
the maximum of rttCellId per rttArfcn is 40the maximum of rttCellId, where rttExSel is set to 'R8ListPartOnly', per rttArfcn is 16
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the maximum of different rttBdClNcl per rttNCList is 16the maximum of different rttArfcn per rttBdClNcl is 16rttBdClNcl must be equal to one rttBdClBcl in the same CDFIM instancethe maximum of rttCellId per rttArfcn is 40the maximum of rttCellId, where rttExSel is set to 'R8ListPartOnly', per rttArfcn is 16
the maximum of rttCellId, where rttExSel is set to 'R8ListPartOnly', per rttArfcn is 16
• LTE39 System information broadcast (standard)• LTE870 Idle mode mobility from LTE to CDMA/eHRPD (optional)• LTE654 LTE Configuration Management (standard)
If tResHrpd is configured following conditions need to be fulfilled:- at least one hrpdNCList list item must be specified- at least one hrpdBdClList list item must be specified
• LTE39 System information broadcast (standard)• LTE870 Idle mode mobility from LTE to CDMA/eHRPD (optional)• LTE654 LTE Configuration Management (standard)
• LTE39 System information broadcast (standard)• LTE870 Idle mode mobility from LTE to CDMA/eHRPD (optional)• LTE654 LTE Configuration Management (standard)
If tResRtt is configured following conditions need to be fulfilled:- at least one rttNCList list item must be configured- at least one rttBdClList list item must be configured
• LTE39 System information broadcast (standard)• LTE807 Idle mode mobility from LTE to CDMA/1xRTT (optional)• LTE654 LTE Configuration Management (standard)
• LTE39 System information broadcast (standard)• LTE807 Idle mode mobility from LTE to CDMA/1xRTT (optional)• LTE654 LTE Configuration Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE665 LTE Certificate Management (optional)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE1245 Trust Anchor and Revocation Management (standard)
• LTE665 LTE Certificate Management (optional)• LTE523 Multi-layered Certificate Authorities (standard)
• LTE665 LTE Certificate Management (optional)
• LTE665 LTE Certificate Management (optional)
• LTE665 LTE Certificate Management (optional)
• LTE665 LTE Certificate Management (optional)
• LTE665 LTE Certificate Management (optional)
• LTE1382 Cell resource groups (standard)
• LTE1382 Cell resource groups (standard)
• LTE1382 Cell resource groups (standard)
• LTE1382 Cell resource groups (standard)
• LTE523 Multi-layered Certificate Authorities (standard)
A CRGPR instance must exist as long as it is assigned to a LNCEL instance, i.e. as long as a LNCEL instance with cellResourceGroupId equal to crgPrId exists.
A list item with the default PLMN group identifier (defaultPlmnGroupId) must exist in plmnGroupShareList with plmnGroupId equal to defaultPlmnGroupId.
plmnGroupList must contain at least 2 list items.Each PLMN id in the plmnGroupList (mcc, mnc and mncLength) must be unique within the list.
One list item must be the primary PLMN ID of the eNB itself (LNBTS: mcc, mnc and mncLength).
The actual range depends on the MNClength: if length=2, then range is 00..99, if length=3, then range is 000..999
Determines length of MNC.
• LTE1382 Cell resource groups (standard)
• LTE163 Subscriber and Equipment Trace (optional)
• LTE163 Subscriber and Equipment Trace (optional)
• LTE163 Subscriber and Equipment Trace (optional)
• LTE163 Subscriber and Equipment Trace (optional)
A list item with the PLMN group identifier (plmnGroupId) must be configured in plmnGroupShareList (same plmnGroupId).
A plmnGroupShareList list item must be configured for each PLMN group identifier (plmnGroupId) used in plmnGroupList.
A list item must be configured for all of the following cases:- for each PLMN group identifier in PLMN group list (plmnGroupList-plmnGroupId).- for the default plmn group (defaultPlmnGroupId), i.e an entry with plmnGroupId equal to defaultPlmnGroupId of the CRGPR instance
The sum of all plmnGroupShare values per plmnGroupShareList must be equal to 100%.
• LTE163 Subscriber and Equipment Trace (optional)• LTE162 Cell Trace with IMSI (standard)• LTE433 Basic LTE Cell Trace (optional)
• LTE163 Subscriber and Equipment Trace (optional)
• LTE163 Subscriber and Equipment Trace (optional)
• LTE163 Subscriber and Equipment Trace (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE163 Subscriber and Equipment Trace (optional)• LTE163-b Subscriber and Equipment Trace (vendor specific extensions) (optional)• LTE459 LTE Timing Advance Evaluation (standard)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE147 LTE Hardware Management (standard)
• LTE655 LTE Software Management (standard)
• LTE147 LTE Hardware Management (standard)
• LTE147 LTE Hardware Management (standard)
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If SIB7 is scheduled in sibSchedulingList an instance of MOC GFIM is mandatory required.
The creation of a GFIM instance for the LNCEL instance is not allowed if the cell bandwidth dlChBw is equal to '1.4 MHz'.
• LTE39 System information broadcast (standard)• LTE762 Idle mode mobility from LTE to WCDMA, GSM or other LTE bands (standard)• LTE654 LTE Configuration Management (standard)• LTE843 ETWS broadcast (optional)• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
gCelResPrio must be unequal to the setting of - cellReSelPrio in each LNCEL instance,- eutCelResPrio in each IRFIM instance,- uCelResPrio in each UFFIM instance,- hrpdCResPrio in each CDFIM instance,
• LTE39 System information broadcast (standard)• LTE762 (standard)
All frequencies in gerArfcnVal of one GNFL instance are considered to belong to the same frequency band.
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
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• LTE1 S1/X2 data path management (standard)
• LTE1 S1/X2 data path management (standard)
• LTE1 S1/X2 data path management (standard)
• LTE1 S1/X2 data path management (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
The following checks are applicable on LNCEL instance level.
Following restrictions apply dependent on the DL channel bandwith:
• LTE39 System information broadcast (standard)• LTE762 (standard)• LTE654 LTE Configuration Management (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)
• LTE1677 Idle mode mobility balancing extensions (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
Parameter gtpuN3Reqs is only used if gtpuPathSupint is different to '0' (GTP-U supervision is switched ON)
The number of unanswered requests of parameter gtpuN3Reqs relates to the timeframe defined in parameter gtpuT3Resp.
If GTP-U path supervision is switched OFF, gtpuPathSupint must be set to value '0'In this case the configured values for gtpuT3Resp and gtpuN3Reqs are not relevant.
If gtpuPathSupint is set to - value '0': the value of gtpuT3Resp is not relevant (GTP-U supervision is switched OFF)- a value geater than '0': gtpuT3Resp must be configured to a value smaller than gtpuPathSupint (representing the waiting time for the calculation of path supervision interval)
• LTE1 S1/X2 data path management (standard)• LTE505 Transport Separation for RAN Sharing (optional)• LTE125 IPv4/IPv6 dual stack (standard)
The specified combination of sgwIpAddress and transportNwId must be unique defined in all sgwIpAddressList items.
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The specified combination of transportNwId and sgwIpAddress must be unique defined in all sgwIpAddressList items.
The following checks are applicable on LNCEL instance level.
If SIB4 is scheduled in sibSchedulingList, an instance of MOC IAFIM is mandatory required.
• LTE39 System information broadcast (standard)• LTE843 ETWS broadcast (optional)• LTE654 LTE Configuration Management (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)The following checks are applicable on LNCEL
instance level.
If an IAFIM instance is created at least - one element in the list of structure intraFreqNeighCellList (intrFrNCList) OR
• LTE39 System information broadcast (standard)• LTE654 LTE Configuration Management (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
The physical layer cell identity (PCI) phyCellId of the cell must not be within the configured range starting at intrFrBCList-startIntraPci.
The physical layer cell identity (PCI) phyCellId of the cell must be diffetrent to startIntraPci.
The following checks are applicable on LNCEL instance level.
If an IAFIM instance is created at least - one element in the list of structure intraFreqNeighCellList (intrFrNCList) OR
• LTE39 System information broadcast (standard)• LTE654 LTE Configuration Management (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
The value of physCellIdNcl must be unique in all lists intrFrNCList of the IAFIM instance belonging to the same LNCEL instance.The list must not contain the physical layer cell identity of the cell itself, i.e. any physCellIdNcl value in the list must be different from the phyCellId of the related LNCEL.
• LTE482 DNS support for certificate examination (standard)
• LTE482 DNS support for certificate examination (standard)
• LTE482 DNS support for certificate examination (standard)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE138 Traffic Shaping (UL) (standard)
• LTE138 Traffic Shaping (UL) (standard)
• LTE138 Traffic Shaping (UL) (standard)
• LTE138 Traffic Shaping (UL) (standard)
• LTE138 Traffic Shaping (UL) (standard)
• LTE138 Traffic Shaping (UL) (standard)
• LTE664 LTE transport protocol stack on IPv4 (optional)• LTE125 IPv4/IPv6 dual stack (standard)
If localIpAddr=0.0.0.0localIpv6Addr must be also 0::0
The IPv4-mapped-IPv6 Address, as representation of an IPv4 address in an IPv6 address field, is not supported and shall be rejected.
• LTE664 LTE transport protocol stack on IPv4 (optional)• LTE125 IPv4/IPv6 dual stack (standard)
If parameter uPlaneIpv6Address and/or cPlaneIpv6Address in MOC IPNO and/or parameter localIpv6Addr in MOC IVIF or IEIF is configured parameter mtu must be equal or greater than 1280
• LTE664 LTE transport protocol stack on IPv4 (optional)• LTE931 Ethernet Jumbo Frames (standard)• LTE125 IPv4/IPv6 dual stack (standard)
• LTE664 LTE transport protocol stack on IPv4 (optional)• LTE125 IPv4/IPv6 dual stack (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
Parameter sirTotal is only relevant in case parameter trafficPathShapingEnable has value TPS_WFQ.
• LTE132 VLAN based traffic differentiation (optional)• LTE138 Traffic Shaping (UL) (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE684 DHCP Server for Flexi LTE BTS Site Devices (standard)
• LTE158 NTP clock time synchronization (standard)
• LTE574 Transport network measurement (optional)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)
• LTE505 Transport Separation for RAN Sharing (optional)
• LTE505 Transport Separation for RAN Sharing (optional)
addCPlaneIpv4Address must not be equal to cPlaneIpAddress
• LTE644 Configurable cell trace content (standard)• LTE505 Transport Separation for RAN Sharing (optional)
• LTE125 IPv4/IPv6 dual stack (standard)• LTE505 Transport Separation for RAN Sharing (optional)
addUPlaneIpv4Address must not be equal to uPlaneIpAddress
• LTE505 Transport Separation for RAN Sharing (optional)
• LTE505 Transport Separation for RAN Sharing (optional)• LTE125 IPv4/IPv6 dual stack (standard)
transportNwId must not be equal to mainTransportNwId
• LTE505 Transport Separation for RAN Sharing (optional)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE140 Ethernet OAM (optional)
• LTE692-a LTE Firewall Support (optional)
• LTE664 LTE transport protocol stack on IPv4 (optional)
• LTE875 Different IP addresses for U/C/M-plane (standard)• LTE125 IPv4/IPv6 dual stack (standard)
The IPv4-mapped-IPv6 Address, as representation of an IPv4 address in an IPv6 address field, is not supported and shall be rejected.
• LTE664 LTE transport protocol stack on IPv4 (optional)
• LTE664 LTE transport protocol stack on IPv4 (optional)
• LTE875 Different IP addresses for U/C/M-plane (standard)
• LTE505 Transport Separation for RAN Sharing (optional)
• LTE475 Automatic iOMS resiliency (standard)
• LTE140 Ethernet OAM (optional)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE475 Automatic iOMS resiliency (standard)
• LTE475 Automatic iOMS resiliency (standard)
• LTE475 Automatic iOMS resiliency (standard)
• LTE475 Automatic iOMS resiliency (standard)
• LTE574 Transport network measurement (optional)
• LTE150 LTE OAM Transport Layer Security (standard)
• LTE875 Different IP addresses for U/C/M-plane (standard)
• LTE574 Transport network measurement (optional)• LTE125 IPv4/IPv6 dual stack (standard)
• LTE574 Transport network measurement (optional)
• LTE574 Transport network measurement (optional)
• LTE574 Transport network measurement (optional)
• LTE574 Transport network measurement (optional)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE875 Different IP addresses for U/C/M-plane (standard)• LTE125 IPv4/IPv6 dual stack (standard)
The IPv4-mapped-IPv6 Address, as representation of an IPv4 address in an IPv6 address field, is not supported and shall be rejected.
• LTE140 Ethernet OAM (optional)• LTE138 Traffic Shaping (UL) (standard)
• LTE746 IP based Filtering for BTS Site Support Equipment (standard)
• LTE746 IP based Filtering for BTS Site Support Equipment (standard)
• LTE746 IP based Filtering for BTS Site Support Equipment (standard)
• LTE746 IP based Filtering for BTS Site Support Equipment (standard)
• LTE746 IP based Filtering for BTS Site Support Equipment (standard)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE1390 IPSec Emergency Bypass (optional)
• LTE1390 IPSec Emergency Bypass (optional)
• LTE1390 IPSec Emergency Bypass (optional)
• LTE1390 IPSec Emergency Bypass (optional)
• LTE1390 IPSec Emergency Bypass (optional)
The management system prevents manually configuring routes that include link-local IPv6 addresses as gateway address.
• LTE866 Fast IP rerouting (Transport Path Protection) (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE125 IPv4/IPv6 dual stack (standard)
The parameter antiReplayWindowSize is only relevant if the parameter antiReplayEnabled has the value True.
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)• LTE125 IPv4/IPv6 dual stack (standard)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE125 IPv4/IPv6 dual stack (standard)
no relations
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)• LTE125 IPv4/IPv6 dual stack (standard)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
• LTE689 LTE IPsec Support for control and user plane (optional)
The dlCarFrqEut must be set uniquely in all IRFIM instances belonging to the same LNCEL
• LTE39 System information broadcast (standard)• LTE762 (standard)
eutCelResPrio must be unequal to the setting of - uCelResPrio in each UFFIM instance,- gCelResPrio in each GNFL instance,- hrpdCResPrio in each CDFIM instance,- rttCResPrio in each CDFIM instance
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE1677 Idle mode mobility balancing extensions (standard)
All below checks are applicable per LNCEL instance, where following maxima shall not be exceeded:
"N_intFrNCList_intFrBCList_items" in below equation does represent "the total number of list items of intFrNCList and intFrBCList of all IRFIM instances of the cell".
• LTE39 System information broadcast (standard)• LTE762 (standard)• LTE1036 RSRQ Based Cell Reselection (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
no relations
no relations
no relations
• LTE1036 RSRQ Based Cell Reselection (standard)
no relations
no relations
no relations
no relations
All below checks are applicable per LNCEL instance, where following maxima shall not be exceeded:
"N_intFrNCList_intFrBCList_items" in below equation does represent "the total number of list items of intFrNCList and intFrBCList of all IRFIM instances of the cell".
• LTE39 System information broadcast (standard)• LTE762 (standard)• LTE1036 RSRQ Based Cell Reselection (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
interFrqQThrR9 must be configured if threshServingLowQR9 of the LNCEL instance this IRFIM instance belongs to is specified.
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
The following checks are applicable on LNCEL instance level.
If SIB5 is scheduled in sibSchedulingList an instance of MOC IRFIM is mandatory required.
• LTE39 System information broadcast (standard)• LTE762 Idle mode mobility from LTE to WCDMA, GSM or other LTE bands (standard)• LTE654 LTE Configuration Management (standard)• LTE843 ETWS broadcast (optional)
no relations
no relations
no relations
• LTE1036 RSRQ Based Cell Reselection (standard)
no relations
no relations
no relations
no relations
• LTE125 IPv4/IPv6 dual stack (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE132 VLAN based traffic differentiation (optional)• LTE125 IPv4/IPv6 dual stack (standard)
The IPv4-mapped-IPv6 Address, as representation of an IPv4 address in an IPv6 address field, is not supported and shall be rejected.
• LTE132 VLAN based traffic differentiation (optional)• LTE125 IPv4/IPv6 dual stack (standard)
The IPv4-mapped-IPv6 Address, as representation of an IPv4 address in an IPv6 address field, is not supported and shall be rejected.
• LTE132 VLAN based traffic differentiation (optional)• LTE125 IPv4/IPv6 dual stack (standard)
• LTE132 VLAN based traffic differentiation (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)• LTE132 VLAN based traffic differentiation (optional)
• LTE132 VLAN based traffic differentiation (optional)• LTE138 Traffic Shaping (UL) (standard)
• LTE132 VLAN based traffic differentiation (optional)• LTE138 Traffic Shaping (UL) (standard)
• LTE132 VLAN based traffic differentiation (optional)• LTE505 Transport Separation for RAN Sharing (optional)
• LTE132 VLAN based traffic differentiation (optional)• LTE138 Traffic Shaping (UL) (standard)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
• LTE649 QoS aware ethernet switching (optional)
It is required that always the pair of LNCEL object and related LCELL object exists, i.e. the LNCEL object with matching lcrId must be created respectively deleted with the same plan file.
• LTE145 LTE Configuration Management (standard)• LTE447 SW support for RF sharing GSM-LTE (optional) • LTE106 6 cell support with one System Module (standard)
if actRepeaterMode is set to value 'Dedicated' or 'Coupled' repeaterDelay is mandatory required.For non-RIU configuration where actRepeaterMode is set to 'none' repeaterDelay value shall not be specified.
• LTE1195-e FHCC Repeater Interface Module -Info model update and merge for RL40 (standard)• LTE72 4-way RX diversity (optional)• LTE980 IRC for 4 RX paths (optional)
If dlMimoMode is set to 'SingleTX' one TX antenna shall be mapped to the cell (one TX in the resourceList), for any other dlMimoMode setting more than one TX antenna must be mapped to the cell (more than one TX in the resourceList).
• LTE447 SW support for RF sharing GSM-LTE (optional) • LTE106 6 cell support with one System Module (standard)Identifies the specific antenna line and it's ID
assigned to the local cell.
If actSuperCell is set to value 'true', the subCellId in the related LCELL instance of the LNCEL must be configured.Within this LCELL instance just two different subCellIds can be assigned, i.e. two resourceList items must have the same subCellId assigned,
no relations
no relations
no relations
determines the length of MNC.
If actDLCAggr is set to 'true' sectorId shall be configured to LCELL instances- same value shall be specified in those LCELL instances which shall be aggregated, where same sectorId value is allowed to two LCELL instances simultaneously
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
adjEnbId is mandatory required if cPlaneIpAddr is empty.
adjEnbId is mandatory if cPlaneIpAddrCtrl is set to 'enbControlled'.
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
cPlaneIpAddr is mandatory if cPlaneIpAddrCtrl is set to 'oamControlled'.
adjEnbId must be specified if cPlaneIpAddr is not configured.
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)• LTE2 S1 Flex (optional)• LTE505 Transport Separation for RAN Sharing (optional)if cPlaneIpAddrCtrl is set to
- 'oamControlled', cPlaneIpAddr must be configured- 'enbControlled', plmnId and adjEnbId must be configured
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
• LTE724a RROM support of Neighbor Cell Configuration (standard)
The actual range depends on MNClength: if length=2, then range is 00...99, if length=3, then range is 000...999
The total number of LNADJ instances per eNB shall not exceed the configured limit maxNumOfLnadjLimit.
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)• LTE1708 Extend maximum number of X2 Links (standard)
The plmnId is mandatory if cPlaneIpAddrCtrl is 'enbControlled'.
The global eNB Id of the adjacent eNB must be different to the global eNB Id of other adjacent eNBs as well as those of the own eNB, i.e.
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
Determines length of MNC.
• LTE873 SRVCC to GSM (optional)
The actual range depends on the MNC length: if length=2, then range is 00...99, if length=3, then range is 000...999
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
The number of target cells for eNACC (LNRELG-eNACCAllowed) and SRVCC (LNRELG-srvccAllowed) is restricted to maximum 32 per LTE cell and frequency band. For a detailed description see LNRELG parameters eNACCAllowed and
• LTE442 Network Assisted Cell Change to GSM (optional)• LTE873 SRVCC to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
The combination of mcc, mnc, mncLength, gTargetLac and gTargetCi must be unique within all LNADJG instances of the eNB.
• LTE442 Network Assisted Cell Change to GSM (optional)
The combination of mcc, mnc, mncLength, gTargetLac and gTargetCi must be unique within all LNADJG instances of the eNB.
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE498 RAN Information Management for GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)• LTE984 GSM redirect with system information (optional)
The combination of mcc, mnc, mncLength, gTargetLac and gTargetCi must be unique within all LNADJG instances of the eNB.
• LTE442 Network Assisted Cell Change to GSM (optional)
no relations
no relations
Determines length of MNC
The combination of mcc, mnc, mncLength, gTargetLac and gTargetCi must be unique within all LNADJG instances of the eNB.
The actual range depends on the MNClength: if length=2, then range is 00..99, if length=3, then range is 000..999
• LTE442 Network Assisted Cell Change to GSM (optional)
The combination of mcc, mnc, mncLength, gTargetLac and gTargetCi must be unique within all LNADJG instances of the eNB.
Determines length of MNC.
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE498 RAN Information Management for GSM (optional)
The list must contain at least one element if systemInfoType is set to 'si' or 'psi'.
• LTE442 Network Assisted Cell Change to GSM (optional)• LTE984 GSM redirect with system information (optional)• LTE498 RAN Information Management for GSM (optional)
The list systemInfoListGeran must contain at least one element if systemInfoType is set to 'si' or 'psi'.
• LTE442 Network Assisted Cell Change to GSM (optional)• LTE498 RAN Information Management for GSM (optional)
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
The actual range depends on the MNC length: if length=2, then range is 00...99, if length=3 then range is 000...999
• LTE724-a RROM support of Neighbor Cell Configuration (standard)• LTE1060 TDD - FDD handover (standard)
no relations
no relations
• LTE724-a RROM support of Neighbor Cell Configuration (standard)• LTE1060 TDD - FDD handover (standard)
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE1060 TDD - FDD handover (standard)
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
The configured ecgiLcrId must be unique within all LNADJL instances of a neighbor eNB (LNADJ).
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)• LTE1383 ANR Robustness (standard)
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
• LTE724-a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)• LTE1060 TDD - FDD handover (standard)• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE1060 TDD - FDD handover (standard)
A LNADJL instance can only be created if the related LNADJ does have the adjEnbId and plmnId configured.
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional) • LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
no relations
• LTE56 Inter RAT handover to WCDMA (optional)
Determines length of MNC.
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
• LTE724-a RROM support of Neighbor Cell Configuration (standard)• LTE1060 TDD - FDD handover (standard)
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
• LTE724-a RROM support of Neighbor Cell Configuration (standard)• LTE1060 TDD - FDD handover (standard)
• LTE724-a RROM support of Neighbor Cell Configuration (standard)
• LTE724a RROM support of Neighbor Cell Configuration (standard)• LTE1060 TDD - FDD handover (standard)
• LTE56 Inter RAT handover to WCDMA (optional)• LTE736 CS fallback to UTRAN (optional)• LTE872 SRVCC to WCDMA (optional)
The combination of uTargetCid, uTargetRncId and primaryPlmnId must be unique within all LNADJW objects of the eNB.
The actual range depends on the MNClength: if length=2, then range is 00..99, if length=3, then range is 000..999
Determines length of MNC.
• LTE872 SRVCC to WCDMA (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
The actual range depends on the MNClength: if length=2, then range is 00..99, if length=3, then range is 000..999
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
if parameter actSrvccToWCDMA is set to 'true' srvccHoInd must be configured.
The combination of uTargetCid, uTargetRncId and primaryPlmnId must be unique within all LNADJW objects of the eNB.
If the value of uTargetRncId is greater than '4095', the allowed range for uTargetCid is reduced to 0..4095.
• LTE56 Inter RAT handover to WCDMA (optional)• LTE1342 Extended RNC ID (standard)
In an LNCEL instance the number of LNRELW instances where - parameter srvccAllowed is set to 'allowed' OR- parameter psHoAllowed is set to 'allowed' AND where the carrier frequency (uTargetfreq) in the LNADJW instance this LNRELW refers to is identical
• LTE56 Inter RAT handover to WCDMA (optional)• LTE736 CS fallback to UTRAN (optional)• LTE872 SRVCC to WCDMA (optional)
The combination of uTargetCid, uTargetRncId and primaryPlmnId must be unique within all LNADJW objects of the eNB.
If uTargetRncId is configured greater than '4095' the range of uTargetCid is reduced to 0..4095.
• LTE56 Inter RAT handover to WCDMA (optional)• LTE1342 Extended RNC ID (standard)
The pair of uTargetFreq and uTargetScFdd must be unique within all LNADJW instances which are referred by the LNRELW instances of one LNCEL.
Note: References are realized by (LNRELW-plmnId, LNRELW-uTargetRncId and LNRELW-uTargetCid) to identical values in (LNADJW-primaryPlmnId, LNADJW-uTargetRncId and
In an LNCEL instance the number of LNRELX instances where - parameter e1xCsfbAllowed is set to 'allowed' AND - the carrier frequency (combination of: bandclass + arfcn) in the LNADJX instance this LNRELX refers to is identical
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE520 8 EPS bearers per UE (standard)
• LTE494 Commercial Mobile Alert System (optional)
• LTE433 Basic LTE Cell Trace (optional)
In an LNCEL instance the number of LNRELX instances where - parameter e1xCsfbAllowed is set to 'allowed' AND - the carrier frequency (combination of: bandclass + arfcn) in the LNADJX instance this LNRELX refers to is identical
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNADJX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNADJX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
act1xCsfb can only be configured to 'true' if all of the following conditions are fulfilled: - actCsfbPsHoToUtra is set to 'false' - actCSFBRedir is set to 'false ' - actEmerCallRedir is set to 'Disabled '
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
act8EpsBearers can only be configured to 'true' if actEnhAcAndGbrServices is set to 'true.
If actCMAS is set to 'true' following condition need to be fulfilled- the sibSchedulingList must contain 'SIB12' configuration, i.e. siMessageSibType of one set must be set to 'SIB12'If actCSFBRedir is set to 'Enabled' following conditions need to be fulfilled:- at least one instance of REDRT must be created per LNCEL where csFallBPrio is configured- in each additional REDRT instance csFallBPrio must be configured if redirRat is set to 'geran' or 'utraFDD' AND if in the REDRT instance redirectPrio AND emerCallPrio are both not
• LTE736 CS fallback to UTRAN (optional)• LTE562 CSFB to UTRAN or GSM via redirect (optional)• LTE984 GSM redirect with system information (optional)Only if actCellTrace is set to 'true'
actMDTCellTrace can only be set to 'true', i.e. if actCellTrace is changed to 'false' actMDTCellTrace must be changed to 'false' as well.
• LTE1047 Control plane overload handling (standard)
• LTE1732 CRL1018 Feature flag for Cell trace with IMSI (standard)
• LTE37-c Ciphering (optional)• LTE38-b Integrity protection (standard)
If actCompChecks is set to 'true' following checks must be fulfilled:
(1.1) If riEnable is set to 'true'- maxNumRrc + max (addAUeRrHo,addAUeTcHo) <= n1PucchAn * cellSrPeriod
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
actConvVoice must be configured to 'false' if at least one of the following conditions is fulfilled:- actMultBearers is set to 'false'- at least one LNCEL instance does exist with set dlChBw to '1.4 MHz' or '3 MHz'
• LTE10 EPS bearers for conversational voice (optional)• LTE872 SRVCC to WCDMA (optional)• LTE873 SRVCC to GSM (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)if actCplaneOvlHandling is set to 'true' the
structure ovlha must be configured
(1) The parameter actCsfbPsHoToUtra can only be configured to 'true' if all of the following conditions are fulfilled- actCSFBRedir is set to 'Enabled'- actHOtoWcdma is set to 'true'
• LTE736 CS fallback to UTRAN (optional)• LTE898 TDD inter-RAT handover to TD-SCDMA (optional)• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)actDLCAggr can only be configured to 'true' if
actEnhAcAndGbrServices is set to 'true'
Applicable for FSMr2:actDLCAggr can only be configured to 'true' if actFlexBbUsage is set to 'true' in addition to previous conditions.
• LTE1089 Downlink carrier aggregation - 2 CC (optional)• LTE1542 FDD Supercell (standard)• LTE1332 Downlink carrier aggregation - 40 MHz (standard)• LTE614 Distributed Site (optional)• LTE1072 Flexi Lite BTS 750 (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)If more than 2 RX or 3 TX antenna lines are
configured in the resourceList then actDualBand can only be set to 'false'.
• LTE179-a CRL0665 Dual band operation with one System Module - 6*10Mhz (optional)• LTE1247 Multiradio System Module extended LTE configurations (standard)• CRL1487 Optimized dual sector with dual band configuration on single FSP in RL60 (standard)
Two LCELL instances can share the same antenna line (ANTL) with TXRX or TX –txRxUsage (configured in the LCELL-resourceList) if actDualCarrier is configured to value 'true'.For actDualCarrier set to 'false' one antenna line (ANTL) can be configured with TXRX or TX –txRxUsage (configured in the LCELL-resourceList) only in one LCELL instance.
• LTE471 LTE Dual carrier operation within one RF band (standard)
actDualRx1xCsfb can only be configured to 'true' if all of the following conditions are fulfilled:- actEmerCallRedir is set to 'Disabled'- actCSFBRedir is set to 'Disabled'- actCsfbPsHoToUtra is set to 'false'.
• LTE874 CSFB to CDMA/1xRTT for dual RX UEs (standard)
actERabModify can only be set to 'true' if actNonGbrServiceDiff is set to 'true'.
• LTE519 E-RAB Modifcation without GBR modification (optional)
• LTE843 ETWS broadcast (optional)
• LTE1074 Multimedia Priority Services (standard)
• LTE57 Inter RAT handover from UTRAN (optional)
if actETWS is set to 'true' following condition need to be fulfilled:- SIB10' and 'SIB11' must be present in sibSchedulingList-siMessageSibType - pwsWithEmAreaId is mandatory requiredIf actEmerCallRedir is set to 'Enabled' following conditions must be fulfilled:- at least one REDRT must be created per LNCEL where emerCallPrio is configured- maxNumRrcEmergency >= maxNumRrc + max(addAUeRrHo, addAUeTcHo)
• LTE22 Emergency Call handling (optional)• LTE984 GSM redirect with system information (optional)• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)actEnhAcAndGbrServices can only be configured
to 'true' if all following conditions are fulfilled:- actMultBearers is equal to 'true'- congWeightAlg is configured.
• LTE496 Support of QCI 2, 3 and 4 (optional)• LTE497 Smart Admission Control (optional)• LTE534 ARP based admission control for E-RABs (optional)• LTE587 Multiple GBR EPS bearers per UE (optional)(1) If actFlexBbUsage is set to 'true' following
condition need to be fulfilled:- when in addition ((ulChBw,dlChBw) is '5 MHz' or '10 MHz') the value range for maxNumRrc, addAUeRrHo, addAUeTcHo and maxNumActUE is limited according to following conditions:
• LTE106 6 cell support with one System Module (standard) The parameter actGsmRedirWithSI can only be
set to 'true' if- at least one of the parameters actRedirect, actCSFBRedir is set to 'true' OR actEmerCallRedir is set to 'Enabled' AND
• LTE984 GSM redirect with system information (optional)
actHOtoHrpd can only be configured to 'true' if all of the following conditions are fulfilled: - actImmHRPD is set to 'true'- actHOtoWcdma is set to 'false'- acteNACCtoGSM is set to 'false'
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
if actHOtoWcdma is set to 'true' the prohibitPsHOtoWcdma is allowed to be configured to 'true'
actHOtoWcdma can only be configured to 'false' if actSrvccToWcdma and actCsfbPsHoToUtra are set to 'false'.
• LTE56 Inter RAT handover to WCDMA (optional)• LTE1073 Measurement based redirect to UTRAN (optional)• LTE736 CS fallback to UTRAN (optional)• LTE872 SRVCC to WCDMA (optional)• LTE1442 Open access home eNode B mobility (standard)
actHighPrioServices can only be configured to 'true' if actIMSEmerSessR9 and actEnhAcAndGbrServices are both set to 'true'.
If actHighPrioServices is set to 'true' tPageCorrInt must be configured.Only on several FSMr3 variants actHighRrc can be configured to 'true', where following conditions have to be fulfilled:if actHighRrc is set to 'true':- ulChBw must be '15 MHz' or '20 MHz'
• LTE1327 RL50 FSMr3 Capacity and Dimensioning (standard)
actConvVoice can only be set to 'false' if actIMSEmerSessR9 is configured to 'false'.
Only if actIMSEmerSessR9 is set to 'true' actHighPrioServices can be configured to 'true'.
• LTE572 IMS emergency sessions (optional)• LTE1074 Multimedia Priority Services (standard)
• LTE487 Idle mode mobility load balancing (standard)
no relations
• LTE1140 Intra-frequency load balancing (optional)
• LTE1433 LPPa support for OTDOA (standard)
• LTE54 Intra-LTE handover via S1 (optional)
If actIdleLB is set to 'false' all of the following conditions need to be fulfilled(1) for all REDRT instances of the superior LNCEL- redirectPrio must be unique- csFallBPrio must be uniqueif actIfHo is 'enabled' all of the following conditions need to be fullfilled- a1TimeToTriggerDeactInterMeas must be configured- a2TimeToTriggerActInterFreqMeas must be configured
• LTE55 Inter-frequency handover (optional)• LTE1387 Intra eNB Inter-frequency load balancing (optional)• LTE1170 Inter-frequency load balancing (optional)• LTE1060 TDD - FDD handover (standard)Only if actImmHRPD is set to 'true' actHOtoHrpd
can only be configured to 'true'.• LTE870 Idle mode mobility from LTE to CDMA/eHRPD (optional)
• LTE807 Idle mode mobility from LTE to CDMA/1xRTT (optional)
actInterFreqLB must be configured to 'false' if at least one LNCEL instance does exist with set dlChBw to '1.4 MHz' or '3 MHz'.
If actInterFreqLB is set to 'true' all of the following conditions must be fulfilled
• LTE1387 Intra eNB Inter-frequency load balancing (optional)• LTE1170 Inter-frequency load balancing (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)Important information:
Currently actIntraFreqLoadBal must always be configured to 'false'.
Following parameter are mandatory required in all cells of the eNB if actIntraFreqLoadBal is set to ‘true’
If actLPPaOTDOA is set to 'true' in at least one LNCEL instance actOtdoa must be configured to 'true'.
• LTE68 Support of cell based location service (optional)
actMDTCellTrace can only be set to 'true' if actCellTrace is set to 'true', otherwise it must be set to 'false'.The modification of actMDTCellTrace from 'true' to 'false' requires that in all LNCEL instances activateMeas is set to 'false'.
• LTE570 Periodic UE measurements (optional)• LTE953 MDT (Minimization of Drive Test) (standard)
The allowed number of list entries in IRFIM instances in intFrBCList and intFrNCList depend among others on the value of actMFBI. For details please refer to intFrBCList and intFrNCList.
• LTE1534 Multiple Frequency Band Indicator (standard)
(1) actMultBearers can only be set to ’false’ if actEnhAcAndGbrServices is set to ’false’.Only if actMultBearers is set to ’true’ actEnhAcAndGbrServices can be set to ’true’.
• LTE7 Support of multiple EPS bearer (optional)• LTE496 Support of QCI 2, 3 and 4 (optional)• LTE497 Smart admission control (optional)• LTE534 ARP based admission control for E-RABs (optional)
• LTE587 Multiple GBR EPS bearers per UE (optional)
• LTE518 Operator specific QCI (optional)
• LTE1231 Operator specific GBR QCIs (standard)
• LTE1043 3GPP baseline R10 06/2011 (standard)
• LTE11 Robust header compression (optional)
• LTE440 S1 Overload handling (standard)
actMultGbrBearers can only be set to 'true' if actEnhAcAndGbrServices is set to 'true'.
qciSupp in structure qciTab9 must be set to 'ENABLE' if actNonGbrServiceDiff is set to 'false'
actOperatorQCI must be set to 'false' if actNonGbrServiceDiff is set to 'false'.
• LTE9 Service differentiation (optional)• LTE519 E-RAB Modifcation without GBR modification (optional)
The feature does not support dual fibers and shared configuration.
• LTE1439 Automatic recovery/optical delay compensation of OBSAI link problems (standard)
If actNonGbrServiceDiff is set to 'false', actOperatorQCI must be set to 'false'
Only if actEnhAcAndGbrServices is set to 'true', actOperatorQCIGbr is allowed to be configured to 'true'.
• LTE498 RAN Information Management for GSM (optional)
if actRedirect is set to 'enabled', at least one REDRT instance per LNCEL must exist with redirectPrio set to 1..6.
The parameter actRedirect can be only set to 'disabled'
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE423 RRC connection release with redirect (standard)• LTE984 GSM redirect with system information (optional)• LTE977 RF chaining with FSME (optional)• LTE1072 Flexi Lite BTS 750 (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)• LTE2-a Support of S1 Flex, basic functionality (optional)
• LTE873 SRVCC to GSM (optional)
• LTE872 SRVCC to WCDMA (optional)
• LTE163 Subscriber and Equipment Trace (optional)
• LTE1402 Uplink intra eNode B CoMP (standard)
• LTE1139 ZUC security algorithm (optional)
actSelMobPrf can be set to 'true' only if a default profile MODPR instance exists or is created in parallel with the feature activation.
• LTE490 SPID selective mobility profiles (optional)• LTE487 Idle mode mobility load balancing (standard)
actSrvccToGsm can only configured to 'true' if actConvVoice is set to 'true'.
Only if actSrvcctoGSM is set to 'false' actHOtoHrpd can only be configured to 'true'.Parameter actSrvcctoWcdma can only be set to 'true' - if prohibitPsHOtoWcdma is set to 'false' AND- if actConvVoice is set to 'true'
If actUeBasedAnrInterFreqLte is set to 'true' AND cellResourceSharingMode is not set to 'none' all of the following conditions must be fulfilled:- drxOnDuratT in drxProfile103 must be configured to a value greater than '8'
• LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional)• LTE1382 Cell resource groups (standard)
If actUeBasedAnrIntraFreqLte is set to 'true' AND cellResourceSharingMode is not set to 'none' all of the following conditions must be fulfilled:- drxOnDuratT in drxProfile101 must be configured to a value greater than '8'
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)• LTE1382 Cell resource groups (standard)
The feature ''UE-based ANR for Inter-RAT UTRAN" is currently not supported, therefore actUeBasedAnrUtran must always be configured to 'false'.
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
For FSMD and FSME hardware, actUlCoMp must be configured to 'false'.
actUlCoMp can only be configured to 'true' if actHighRrc is set to 'false'.
If actUlCoMp is set to 'true' at least one instance of ULCOMP must be configured
Only if acteNACCtoGSM is set to 'false' actHOtoHrpd can only be configured to 'true'.
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE9 Service differentiation (optional)• LTE747-a Support of UE radio capabilities (standard)• LTE905 Non GBR QCI 5, 6, 7, 8 and 9 (standard)
• LTE9 Service differentiation (optional)• LTE747-a Support of UE radio capabilities (standard)• LTE905 Non GBR QCI 5, 6, 7, 8 and 9 (standard)
• LTE9 Service differentiation (optional)• LTE747-a Support of UE radio capabilities (standard)• LTE905 Non GBR QCI 5, 6, 7, 8 and 9 (standard)
• LTE9 Service differentiation (optional)• LTE747-a Support of UE radio capabilities (standard)• LTE905 Non GBR QCI 5, 6, 7, 8 and 9 (standard)
• LTE1383 ANR Robustness (standard)
• LTE9 Service differentiation (optional)• LTE747-a Support of UE radio capabilities (standard)• LTE905 Non GBR QCI 5, 6, 7, 8 and 9 (standard)
• LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional)
• LTE492 ANR for LTE (3GPP) with OAM extension (optional)
• LTE498 RAN Information Management for GSM (optional)
• LTE502 Cell Outage triggered reset (optional)
• LTE496 Support of QCI 2, 3 and 4 (optional)
• LTE496 Support of QCI 2, 3 and 4 (optional)
Actual range depends on mncLength: if mncLength=2 then range is 00...99, if mncLength=3 then range 000...999
The value of mncLength determines whether the mnc is of 2 digits or 3 digits length.
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
• LTE37-c Ciphering (optional)• LTE38-b Integrity protection (standard)• LTE1139 ZUC security algorithm (optional)
If actEnhAcAndGbrServices is set to 'true' congWeightAlg is mandatory required.
• LTE496 Support of QCI 2, 3 and 4 (optional)• LTE519 E-RAB Modifcation without GBR modification (optional)
• LTE830 LTE Automatic Lock (standard)
No relations • LTE3-c Support of S1 setup message (standard)
• LTE843 ETWS broadcast (optional)
• LTE1074 Multimedia Priority Services (standard)
only if enableGrflShdn parameter is set to 'Enabled', administrativeState in each LNCEL can be set to 'shutting down'if pMax is set to a value less than 25 dBm, enableGrflShdn must be set to 'Disabled', no limitation otherwise
• LTE914 Graceful cell shut down (standard)• LTE830 LTE Automatic Lock (standard)• LTE1106 Flexi low power RRH 850 2TX for optical repeater interface (standard)
The parameter is mandatory if actETWS is set to 'true'.
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)• LTE1708 Extend maximum number of X2 Links (standard)
Actual range depends on mncLength: if mncLength=2 then range is 00...99, if mncLength=3 then range 000...999
The value of mncLength determines whether the mnc is of 2 digits or 3 digits length.
hpsSessArpMin must be less than or equal to hpsSessArpMax.
hpsSessArpMax must be greater than or equal to hpsSessArpMin.
Determines length of MNC.
There must be no duplicate PLMN IDs (emerSessMcc + emerSessMnc) in the list.
• LTE572 IMS emergency sessions (optional)• LTE534 ARP based admission control for E-RABs (optional)
The actual range depends on the mncLength: if mncLength=2, then range is 00..99, if mncLength=3, then range is 000..999
• LTE37-c Ciphering (optional)• LTE38-b Integrity protection (standard)• LTE1139 ZUC security algorithm (optional)
• LTE145 LTE Configuration Management (standard)
• LTE3 S1 common signalling (standard)
• LTE3 S1 common signalling (standard)
• LTE3 S1 common signalling (standard)
• LTE37-c Ciphering (optional)• LTE38-b Integrity protection (standard)
lnBtsId must be same as MRBTS/mrbtsId, BTSSCL/btsid and IPNO/btsid.
The global cell identity a related neighbor cell LNREL must be different to the cell global identity of the parent LNCEL object, i.e.For FSMr2 and FZM hardware the allowed configurable range is limited to maximal 128, which limits the number of configurable LNADJ instances per eNB.For FSMr3 hardware there is no limitation.
• LTE1708 Extend maximum number of X2 Links (standard)
• LTE534 ARP based admission control for E-RABs (optional)
• LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional)• LTE1708 Extend maximum number of X2 Links (standard)
• LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional)• LTE1708 Extend maximum number of X2 Links (standard)
The global cell identity a related neighbor cell LNREL must be different to the cell global identity of the parent LNCEL object, i.e.LNREL cell global identity (ecgiAdjEnbId + ecgiLcrId + ecgiPlmnId) must be different from the LNCEL global identity (lnBtsId (LNBTS) + lcrId (LNCEL) + mcc (LNBTS) + mnc (LNBTS)+
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
The actual range depends on the MNClength: if length=2, then range is 00..99, if length=3, then range is 000..999
The global cell identity a related neighbor cell LNREL must be different to the cell global identity of the parent LNCEL object, i.e.
Determines length of MNC.
The global cell identity a related neighbor cell LNREL must be different to the cell global identity of the parent LNCEL object, i.e. • LTE486 PLMN ID selected mobility profiles
(standard)
• LTE145 LTE Configuration Management (standard)
• LTE1047 Control plane overload handling (standard)
• LTE498 RAN Information Management for GSM (optional)
• LTE37-c Ciphering (optional)• LTE38-b Integrity protection (standard)
• LTE1439 Automatic recovery/optical delay compensation of OBSAI link problems (standard)
ovlha must be configured if actCplaneOvlHandling is set to 'true'
• LTE9 Service differentiation (optional)• LTE1043 3GPP baseline R10 06/2011 (standard)
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)• LTE492 ANR for LTE (3GPP) with OAM extension (optional)
The pci value must be unique for all list entries having identical dlEarfcn configured.
If one of the list parameter: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other must be configured.
no relations
no relations
no relations
no relations
If one of the list parameter: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other must be configured.
If one of the list parameter: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other must be configured.
Actual range depends on mncLength: if mncLength=2 then range is 00...99, if mncLength=3 then range 000...999
If one of the list parameter: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other must be configured.
The value of mncLength determines whether the mnc is of 2 digits or 3 digits length.The pci value must be unique for all list entries having identical dlEarfcn configured.
• LTE5 Radio bearer and S1 bearer establishment and release (standard)• LTE9 Service differentiation (optional)• LTE10 EPS bearers for conversational voice (optional)
• LTE10 EPS bearers for conversational voice (optional)
• LTE496 Support of QCI 2, 3 and 4 (optional)
• LTE496 Support of QCI 2, 3 and 4 (optional)
• LTE9 Service differentiation (optional)
• LTE9 Service differentiation (optional)
• LTE518 Operator specific QCI (optional)
• LTE518 Operator specific QCI (optional)
• LTE54 Intra-LTE handover via S1 (optional)
• LTE1170 Inter-frequency load balancing (optional)
prohibitPsHOtoWcdma can be configured to 'true' only if actHOtoWcdma is set to 'true'.
If actSrvccToWcdma is set to 'true' prohibitPsHOtoWcdma must be set to 'false'.
• LTE1073 Measurement based redirect to UTRAN (optional)
pwsWithEmAreaId must be configured if at least one of the parameters actETWS or actCMAS is set to 'true'.
If pwsWithEmAreaId is set to 'true', emAreaIdList must have at least one item defined.
• LTE843 ETWS broadcast (optional)• LTE494 Commercial Mobile Alert System (optional)• LTE1755 Multiple emergency areas per cell (standard)
• LTE10 EPS bearers for conversational voice (optional)• LTE42 DRX in RRC connected mode (optional)• LTE496 Support of QCI 2, 3 and 4 (optional)• LTE907 TTI bundling (optional)
• LTE496 Support of QCI 2, 3 and 4 (optional)• LTE587 Multiple GBR EPS bearers per UE (optional)• LTE907 TTI bundling (optional)
• LTE496 Support of QCI 2, 3 and 4 (optional)• LTE587 Multiple GBR EPS bearers per UE (optional)• LTE907 TTI bundling (optional)
• LTE496 Support of QCI 2, 3 and 4 (optional)• LTE587 Multiple GBR EPS bearers per UE (optional)• LTE907 TTI bundling (optional)
if qciTab4-rlcMode is set to 'RLC_AM' qciTab4-pdcpProfIdx must be set to a value less than 100.if qciTab4-rlcMode is set to 'RLC_UM' qciTab4-pdcpProfIdx must be set to a value greater than 100.
If qciTab4-rlcMode is set to 'RLC_AM' following conditions must be fulfilled- qciTab4-rlcProfIdx must be set to a value less than 100- qciTab4-pdcpProfIdx must be set to a value less than 100.If qciTab4-rlcMode is set to 'RLC_AM' qciTab4-rlcProfIdx must be set to a value less than 100.If qciTab4-rlcMode is set to 'RLC_UM' qciTab4-rlcProfIdx must be set to a value greater than 100.
• LTE9 Service differentiation (optional)• LTE5 Radio bearer and S1 bearer establishment and release (standard)• LTE42 DRX in RRC connected mode (optional)• LTE518 Operator specific QCI (optional)
if schedulType is set to 'NON-GBR', lcgid must be equal or greater than '2'; otherwise must be '0'
if schedulType is set to 'NON-GBR', schedulPrio must be equal or greaterer than '9'
if actConvVoice is set to 'false', schedulType must be set to 'NON-GBR'if schedulType is set to 'NON-GBR', schedulPrio must be equal or greater than '9'
• LTE9 Service differentiation (optional)• LTE5 Radio bearer and S1 bearer establishment and release (standard)• LTE42 DRX in RRC connected mode (optional)• LTE473 Extended DRX settings (optional)
• LTE9 Service differentiation (optional)• LTE5 Radio bearer and S1 bearer establishment and release (standard)• LTE42 DRX in RRC connected mode (optional)• LTE473 Extended DRX settings (optional)
• LTE9 Service differentiation (optional)• LTE5 Radio bearer and S1 bearer establishment and release (standard)• LTE42 DRX in RRC connected mode (optional)• LTE518 Operator specific QCI (optional)
• LTE9 Service differentiation (optional)• LTE5 Radio bearer and S1 bearer establishment and release (standard)• LTE42 DRX in RRC connected mode (optional)• LTE518 Operator specific QCI (optional)
If actNonGbrServiceDiff is set to 'false', qciSupp need to be set to 'ENABLED'
• LTE518 Operator specific QCI (optional)• LTE907 TTI bundling (optional)• LTE1231 Operator specific GBR QCIs (standard)
delayTarget must be configured if qciTabOperator-resType is set to 'GBR'.
drxProfileIndex is not allowed to be configured to '2' if qciTabOperator-resType is set to 'nonGBR'.
drxProfileIndex must be configured to a value less than '4' if qciTabOperator-resType is set to 'GBR'.
enforceTtiBundling is allowed to be configured to 'true' if actTtiBundling is set to 'true' in at least one LNCEL instance.
l2OHFactorDl must be configured if qciTabOperator-resType is set to 'GBR'.
l2OHFactorUl must be configured if qciTabOperator-resType is set to 'GBR'.
lcgid must be configured to a value greater than '1' if qciTabOperator-resType is set to 'nonGBR'.
lcgid must be configured to a value less than '3' if qciTabOperator-resType is set to 'GBR'.
maxGbrDl must be configured if qciTabOperator-resType is set to 'GBR'.
maxGbrUl must be configured if qciTabOperator-resType is set to 'GBR'.
pdcpProfIdx must be configured to a value in the range {1,2,...,5} if qciTabOperator-rlcMode is set to 'RLC_AM'.
pdcpProfIdx must be configured to a value in the range {102, 103, 104} if qciTabOperator-rlcMode is equal to 'RLC_UM'.
prio must be configured if qciTabOperator-resType is set to 'GBR'.
The value of qci must be unique within all list items of qciTabOperator.
If resType is set to 'nonGBR' following conditions need to be fulfilled- qciTabOperator-rlcMode must be configured to 'RLC_AM'- qciTabOperator-schedulPrio must be greater than '8'rlcMode must be configured to 'RLC_AM' if qciTabOperator-resType is set to 'nonGBR'.
If rlcMode is set to 'RLC_AM', qciTabOperator-rlcProfIdx and qciTabOperator-pdcpProfIdx must be configured within the range {1,2,...,5}.rlcProfIdx must be configured to a value in the range {1,2,...,5} if qciTabOperator-rlcMode is set to 'RLC_AM'.
rlcProfIdx must be configured to a value in the range {102, 103, 104} if qciTabOperator-rlcMode is set to 'RLC_UM'.
schedulPrio must be configured to a value greater than '8' if qciTabOperator-resType is set to 'nonGBR'.
• LTE57 Inter RAT handover from UTRAN (optional)
• LTE435 SW support for RF sharing WCDMA-LTE (optional)
• LTE9 Service differentiation (optional)• LTE5 Radio bearer and S1 bearer establishment and release (standard)
• LTE10 EPS bearers for conversational voice (optional)
• LTE496 Support of QCI 2, 3 and 4 (optional)
• LTE496 Support of QCI 2, 3 and 4 (optional)
• LTE9 Service differentiation (optional)
• LTE9 Service differentiation (optional)
• LTE518 Operator specific QCI (optional)
• LTE518 Operator specific QCI (optional)
• LTE4 Multi-Operator Core Network (optional)
• LTE914 Graceful cell shut down (standard)
• LTE914 Graceful cell shut down (standard)
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
The value of shutdownWindow divided by value of shutdownStepAmount must be equal or greater than 6
The value of shutdownWindow divided by value of shutdownStepAmount must be equal or greater than 6
• LTE873 SRVCC to GSM (optional)
• LTE54 Intra-LTE handover via S1 (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE7 Support of multiple EPS bearer (optional)
• LTE7 Support of multiple EPS bearer (optional)
• LTE1708 Extend maximum number of X2 Links (standard)
• LTE562 CSFB to UTRAN or GSM via redirect (optional)
• LTE498 RAN Information Management for GSM (optional)
• LTE498 RAN Information Management for GSM (optional)
• LTE498 RAN Information Management for GSM (optional)
• LTE907 TTI bundling (optional)
• LTE1632 3GPP baseline R11 03/2013 (standard)
• LTE55 Inter-frequency handover (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE534 ARP based admission control for E-RABs (optional)
• LTE441 Transmission path failure handling (standard)• LTE568 DL adaptive closed loop MIMO (4x2) (optional) ulpcRssiMaxIAw must be configured if
actUlpcMethod is set to 'PuschIAwPucchOL' or 'PuschIAwPucchCL'.
• LTE1336 Interference aware UL power control (standard)
a1TimeToTriggerDeactInterMeas must be configured if one of the following condition applies:- an instance of LNRELW is configured in the LNCEL- an instance of LNRELG is configured in the LNCEL
• LTE56 Inter RAT handover to WCDMA (optional)• LTE55 Inter-frequency handover (optional)• LTE442 Network Assisted Cell Change to GSM (optional)
a2TimeToTriggerActGERANMeas is mandatory required if an instance of LNRELG is configured in the LNCEL.
• LTE442 Network Assisted Cell Change to GSM (optional)
If actHOtoHrpd is set to 'true' a2TimeToTriggerActHrpdMeas must be configured.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
if actIfHo is enabled then a2TimeToTriggerActInterFreqMeas must be configured.if actIfHo is disabled then a2TimeToTriggerActInterFreqMeas shall not be specified.If an instance of LNRELW is configured in the LNCEL then a2TimeToTriggerActWcdmaMeas must be configured.
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE423 RRC connection release with redirect (standard)
The following checks are applicable on LNCEL instance level.
If dlChBw is set to '1.4 MHz' AND maxCrSibDl is less than 0.24, acBarCsfbOc must not be configured.
• LTE1043 3GPP baseline R10 06/2011 (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If at least one bit of acBarAC AC 11 ... AC 15 is set to '1', probFac must be configured to '0%'.Only if all bits of acBarAC AC 11 ... AC 15 are set to '0', probFac can be configured to any value.
If at least one bit of acBarAC AC 11 ... AC 15 is set to '1', probFac must be configured to '0%'.Only if all bits of acBarAC AC 11 ... AC 15 are set to '0', probFac can be configured to any value.
The following checks are applicable on LNCEL instance level.
If dlChBw is set to '1.4 MHz' AND maxCrSibDl is less than 0.24, acBarMMTelVideoOc must not be configured.
• LTE1043 3GPP baseline R10 06/2011 (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If at least one bit of acBarAC AC 11 ... AC 15 is set to '1', probFac must be configured to '0%'.Only if all bits of acBarAC AC 11 ... AC 15 are set to '0', probFac can be configured to any value.
If at least one bit of acBarAC AC 11 ... AC 15 is set to '1', probFac must be configured to '0%'.Only if all bits of acBarAC AC 11 ... AC 15 are set to '0', probFac can be configured to any value.
The following checks are applicable on LNCEL instance level.
If dlChBw is set to '1.4 MHz' AND maxCrSibDl is less than 0.24, acBarMMTelVoiceOc must not be configured.
• LTE1043 3GPP baseline R10 06/2011 (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If at least one bit of acBarAC AC 11 ... AC 15 is set to '1', probFac must be configured to '0%'.Only if all bits of acBarAC AC 11 ... AC 15 are set to '0', probFac can be configured to any value.
If at least one bit of acBarAC AC 11 ... AC 15 is set to '1', probFac must be configured to '0%'.Only if all bits of acBarAC AC 11 ... AC 15 are set to '0', probFac can be configured to any value.
The following checks are applicable on LNCEL instance level.
If parameter acBarOc is configured, eCallAcBarred must be set to "barred" or "Not barred"
• LTE39 System information broadcast (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If at least one bit of ocAcBarAC AC 11 ... AC 15 is set to '1', ocAcProbFac must be configured to '0%'.Only if all bits of ocAcBarAC AC 11 ... AC 15 are set to '0', ocAcProbFac can be configured to any value.
If at least one bit of ocAcBarAC AC 11 ... AC 15 is set to '1', ocAcProbFac must be configured to '0%'.Only if all bits of ocAcBarAC AC 11 ... AC 15 are set to '0', ocAcProbFac can be configured to any value.The following checks are applicable on LNCEL instance level.
If parameter acBarSig is configured, eCallAcBarred must be set to "barred" or "Not barred"
• LTE39 System information broadcast (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If at least one bit of sigAcBarAC AC 11 ... AC 15 is set to '1', sigAcProbFac must be configured to '0%'.Only if all bits of sigAcBarAC AC 11 ... AC 15 are set to '0', sigAcProbFac can be configured to any value.
If at least one bit of sigAcBarAC AC 11 ... AC 15 is set to '1', sigAcProbFac must be configured to '0%'.Only if all bits of sigAcBarAC AC 11 ... AC 15 are set to '0', sigAcProbFac can be configured to any value.
• LTE495 OTDOA (optional)
• LTE944 PUSCH masking (standard)
If actDlsOldtc is set to 'true', dlsOldtcTarget must be configured.
• LTE10 EPS bearers for conversational voice (optional)
• LTE10 EPS bearers for conversational voice (optional)
(1) actDrx must be configured to 'false' if one of the following conditions is fulfilled- riEnable is set to 'true' and additionally riPerOffset is not set to '-1'- riEnable is set to 'true' and additionally riPerM is not set to '1'.
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)• LTE42 DRX in RRC connected mode (optional)• LTE585 Smart DRX (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)If actFastMimoSwitch is set to 'true' following
conditions need to be fulfilled:- riPerOffset must be configured to '-1'- riPerM must be configured to '1'- riEnable must be configured to 'true'
• LTE568 DL adaptive closed loop MIMO (4x2) (optional)
actLdPdcch can only be configured to 'true' if all of the following conditions are fulfilled- phichDur is set to 'Normal' AND - maxNrSymPdcch is greater than '1'- cellResourceSharingMode is set to 'none'
• LTE616 Usage based PDCCH adaptation (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE1382 Cell resource groups (standard)
ULAMC_INI_MCS can be located only between MCS0 and MCS20, MCS21 to MCS24 shall not be applicable even if actModulationSchemeUL = "16QAMHighMCS"
• LTE829 Increased uplink MCS range (standard)• LTE788 Support of 16QAM in UL (optional)
• CRL1868 RL60 PDDB changes for number of IF and IRAT measurements (standard)
actOlLaPdcch can only be set to 'true' if dlOlqcEnable is set to 'true'. If dlOlqcEnable is set to 'false', actOlLaPdcch must be configured to 'false'.
• LTE1035 Outer loop link adaptation for PDCCH (standard)
If actOtdoa set to 'true' siWindowLen must be set appropriately depending on the individual PRS configuration. For details on appropriate values please refer to parameter siWindowLen.
• LTE495 OTDOA (optional)• LTE585 Smart DRX (optional)• LTE1542 FDD Supercell (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)actPrsTxDiv can be configured to 'true' if actOtdoa
is set to 'true'.
The following checks have to be perfomed in LNCEL scope:actPuschMask can only be configured to 'true' if ulChBw is not set to '1.4 MHz' or '3 MHz' or '5 MHz'.If actRepeaterMode is set to 'Coupled' or 'Dedicated' repeaterDelay is mandatory required.If actRepeaterMode is set to 'none' repeaterDelay shall not be configured.
• LTE72 4-way RX diversity (optional)• LTE1195-e FHCC Repeater Interface Module -Info model update and merge for RL40 (standard)• LTE980 IRC for 4 RX paths (optional)• LTE1542 FDD Supercell (standard)
• LTE497 Smart admission control (optional)
• LTE497 Smart admission control (optional)
• CRL1868 RL60 PDDB changes for number of IF and IRAT measurements (standard)
actSmartDrx can only be configured to 'true' if actDrx is set to 'true.
The following condition is applicable only if actSmartDrx is set to 'true':
• LTE585 Smart DRX (optional)• LTE1382 Cell resource groups (standard)
Note: Only on FSMr3 actSuperCell can be configured to 'true'.
If actSuperCell is set to 'true' all of the following conditions need to be fullfilled:
• LTE1542 FDD Supercell (standard)
actTtiBundling is allowed to be configured to 'true' only if all of the following conditions are fulfilled:- actUlLnkAdp is set to 'eUlLa' or 'fUlLa'- cellResourceSharingMode is set to 'none' or 'DLonly'
• LTE907 TTI bundling (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)• LTE1382 Cell resource groups (standard)• LTE1495 Fast uplink link adaptation (standard)• LTE801 Group hopping for the uplink reference signal (standard)
If actUlLnkAdp is set to value 'eUlLa' all of the following conditions must be fulfilled:- the parameters eUlLaAtbPeriod, eUlLaBlerAveWin, eUlLaDeltaMcs, eUlLaLowMcsThr, eUlLaLowPrbThr and eUlLaPrbIncDecFactor must be configured
• LTE1034 Extended Uplink Link Adaptation (standard)• LTE907 TTI bundling (optional)• LTE1495 Fast uplink link adaptation (standard)• LTE944 PUSCH masking (standard)All of the following conditions need to be fulfilled
based on the configured actUlpcMethod
(1) actUlpcMethod is set to 'PuschOLPucchCL':- ulpcPucchConfig must be configured
• LTE27 Open loop UL power control and DL power setting (standard)• LTE28 Closed loop UL power control (optional)• LTE1336 Interference aware UL power control (standard)The range for addAUeRrHo depends on dlChBw,
ulChBw and actFlexBbUsage according to following conditions(1.1) if actFlexBbUsage set to 'false' and - min(ulChBw,dlChBw) is '1.4 MHz', addAUeRrHo value range is restricted to 0...40
• LTE20 Admission control (standard)• LTE458 RL20 Capacity and Dimensioning (standard) • LTE1327 RL50 FSMr3 Capacity and Dimensioning (standard)
The range for addAUeTcHo depends on dlChBw, ulChBw and actFlexBbUsage according to following conditions(1.1) if actFlexBbUsage set to 'false' and - min(ulChBw,dlChBw) is '1.4 MHz', addAUeTcHo value range is restricted to 0...40
• LTE20 Admission control (standard)• LTE458 RL20 Capacity and Dimensioning (standard) • LTE1327 RL50 FSMr3 Capacity and Dimensioning (standard)
(1) Range depends on dlChBw value as follows:- if dlChBw is set to '5.0 MHz' or '10.0 MHz', addEmergencySessions must be less or equal to 480- if dlChBw is set to '15.0 MHz' or '20.0 MHz', addEmergencySessions must be less or equal to 840
• LTE572 IMS emergency sessions (optional)• LTE1089 Downlink carrier aggregation - 2 CC (optional)
LNCEL-maxGbrTrafficLimit + max(LNCEL-addGbrTrafficRrHo, LNCEL-addGbrTrafficTcHo) must be equal or less than 90
LNCEL-maxGbrTrafficLimit + max(LNCEL-addGbrTrafficRrHo, LNCEL-addGbrTrafficTcHo) must be equal or less than 90
• LTE39 System information broadcast (standard)
(1) Range depends on min(ulChBw,dlChBw) value as follows:- if min(ulChBw,dlChBw) is set to '1.4 MHz', addNumDrbRadioReasHo must be less than or equal to 200
• LTE113 Cell Bandwidth - 15 MHz (optional)• LTE7 Support of multiple EPS bearer (optional)• LTE458 RL20 Capacity and Dimensioning (standard)• LTE1089 Downlink carrier aggregation - 2 CC (optional)(1) Range depends on min(ulChBw,dlChBw) value
as follows:- if min(ulChBw,dlChBw) is set to '1.4 MHz', addNumDrbTimeCriticalHo must be less than or equal to 200
• LTE113 Cell Bandwidth - 15 MHz (optional)• LTE7 Support of multiple EPS bearer (optional)• LTE458 RL20 Capacity and Dimensioning (standard)• LTE1089 Downlink carrier aggregation - 2 CC (optional)(1) Range depends on dlChBw value as follows:
- if min(ulChBw,dlChBw) is set to '5.0 MHz', addNumQci1DrbRadioReasHo must be less or equal to 200- if min(ulChBw,dlChBw) is set to '10.0 MHz', addNumQci1DrbRadioReasHo must be less or equal to 400
• LTE113 Cell Bandwidth - 15 MHz (optional)• LTE10 EPS bearers for conversational voice (optional)• LTE458 RL20 Capacity and Dimensioning (standard)• LTE497 Smart Admission Control (optional)(1) Range depends on dlChBw value as follows:
- if min(ulChBw,dlChBw) is set to '5.0 MHz', addNumQci1DrbTimeCriticalHo must be less or equal to 200- if min(ulChBw,dlChBw) is set to '10.0 MHz', addNumQci1DrbTimeCriticalHo must be less or equal to 400
• LTE113 Cell Bandwidth - 15 MHz (optional)• LTE10 EPS bearers for conversational voice (optional)• LTE458 RL20 Capacity and Dimensioning (standard)• LTE497 Smart Admission Control (optional)
administrativeState can be set to 'shutting down' only if enableGrflShdn is set to 'Enabled', otherwise there are no limitations for administrativeState setting
• LTE145 LTE Configuration Management (standard)• LTE914 Graceful cell shut down (standard)
anrUtraRscpThres is mandatory required if actUeBasedAnrUtranis set to 'true'.
• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
If dlChBw is set to '1.4 MHz', applyOutOfSyncState must be configured to 'extendedDrxOnly'.
• LTE473 Extended DRX settings (optional)• LTE585 Smart DRX (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE55 Inter-frequency handover (optional)• LTE54 Intra-LTE handover via S1 (optional)
no relations • LTE39 System information broadcast (standard)
no relations
no relations
• LTE1140 Intra-frequency load balancing (optional)
The value of blankedPucch must be less than nCqiRb and used in calculation of MaxPucchResourceSize (calculation in nCqiRb).
The value of blankedPucch is used in the calculation of maxNumRrc and maxNumRrcEmergency in some conditions, please refer to those parameters for details.
• LTE786-a Reduced Uplink Bandwidth (optional)• LTE786 Flexible UL Bandwidth (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If act1xCsfb is set to 'true' and rttCsfbType for the LNCEL instance is set to 'R9e1xCsfb', parameter c2KTimers must be configured.
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE49 Paging (standard)• LTE39 System information broadcast (standard)
cellCapClass is mandatory required if actIntraFreqLoadBal is set to 'true'.
• LTE971 Intra-LTE mobility offsets (standard)
• LTE39 System information broadcast (standard)
• LTE502 Cell Outage triggered reset (optional)
• LTE1382 Cell resource groups (standard)
• LTE1382 Cell resource groups (standard)
• LTE1036 RSRQ Based Cell Reselection (standard)
• LTE1140 Intra-frequency load balancing (optional)
cellReSelPrio must be unequal to the setting of - uCelResPrio in each UFFIM instance,- gCelResPrio in each GNFL instance,- hrpdCResPrio in each CDFIM instance,- rttCResPrio in each CDFIM instance
cellResourceGroupPrId must be configured if cellResourceSharingMode is set value different from 'none'.
The cell resource group profile (CRGPR) instance with the configured cellResourceGroupPrId must exist.
cellResourceSharingMode is allowed to be configured to 'DLonly' or 'DLandUL' only in following case- actEnhAcAndGbrServices is set to 'true' AND- actLdPdcch is set to 'false' ANDcellSelectionInfoV920 is mandatory required if threshServingLowQR9 is configured.
If actCompChecks is set to 'true' AND riEnable is set to 'true' following condition need to be fulfilled- maxNumRrc + max (addAUeRrHo,addAUeTcHo) <= n1PucchAn * cellSrPeriod
• LTE41 PDCP, MAC & RLC support (standard)• LTE10 EPS bearers for conversational voice (optional)• LTE1089 Downlink carrier aggregation - 2 CC (optional)
If dlChBw is set to '1.4 MHz', cqiAperEnable must be configured to 'false'.
• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE959 (standard)
no relations
In case riEnable is set to 'true' AND riPerM is set to '1', cqiPerNp cannot be set to '5ms'.
For each DRX smart profile (x=2,3,4,5) the following conditions must be fulfilled:
• LTE1089 Downlink carrier aggregation - 2 CC (optional)• LTE585 Smart DRX (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)If periodicCqiFeedbackType is set to 'UE_selected'
cqiPerSbCycK is mandatory required.
Definitions used in below parameter relationships:- P-LNCEL: the parent LNCEL instance of the CAREL instance
• LTE31-c Periodic CQI reception for Trial Phase 3 (standard)• LTE496 Support of QCI 2, 3 and 4 (optional)• LTE1089 Downlink carrier aggregation - 2 CC (optional)• LTE31-c Periodic CQI reception for Trial Phase 3 (standard)
• LTE27 Open loop UL power control and DL power setting (standard)
• LTE41 PDCP, MAC & RLC support (standard)• LTE10 EPS bearers for conversational voice (optional)
The product of parameter modPeriodCoeff and defPagCyc (given in rf) must not exceed 1024
• LTE39 System information broadcast (standard)• LTE49 Paging (standard)
• LTE1140 Intra-frequency load balancing (optional)
• LTE43 Support of 64 QAM in DL (optional)
deltaMargin is mandatory required if actIntraFreqLoadBal is set to 'true'.
• LTE27 Open loop UL power control and DL power setting (standard)
deltaPucchShift is used in calculation of MaxPucchResourceSize (calculation defined in nCqiRb).
deltaPucchShift must be configured to '1' if at least one of the following condition is fulfilled:
• LTE40 Physical & transport channels (standard)• LTE1089 Downlink carrier aggregation - 2 CC (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)deltaTfEnabled must be configured to 'false' if at
least one of the following conditions is fulfilled:- actUlpcMethod is set to 'PuschIAwPucchCL' or 'PuschIAwPucchOL'- actUlLnkAdp is set to 'eUlLa' or 'fUlLa'.
• LTE27 Open loop UL power control and DL power setting (standard)• LTE28 Closed loop UL power control (optional)• LTE1336 Interference aware UL power control (standard)If dl64QamEnable is set to 'false', the highest
possible value for iniMcsDl is 16.If enableDl16Qam parameter is set to 'false', dl64QamEnable must be set to 'false'.If dl64QamEnable is set to 'true', enableDl16Qam must be set to 'true'.The configured maximal output power (pMax) does have impact on the maximal allowed cell power reduction (dlCellPwrRed) which are for the most common pMax values:- for pMax set equal to or smaller than 49.0 dBm and greater than 47.8 dBm, dlCellPwrRed maximum value is 10.0 dB
• LTE27 Open loop UL power control and DL power setting (standard)• LTE1106 Flexi low power RRH 850 2TX for optical repeater interface (standard)• LTE748 Flexi RRH 4TX 2600 (standard)(1) If actHighRrc is set to 'true' dlChBw must be
configured to '15 MHz' or '20 MHz'
(2) The configured UL and DL channel bandwidth (ulChBw, dlChBw) must be identical per LNCEL
• LTE40 Physical & transport channels (standard)• LTE113 Cell Bandwidth - 15 MHz (optional)• LTE106 6 cell support with one System Module (standard) • LTE819 DL inter-cell interference generation (optional)
• LTE819 DL inter-cell interference generation (optional)
enableDl16Qam must be set to 'true' before dlInterferenceModulation is allowed to be set to '16QAM' for Interference Generationdl64QamEnable must be set to 'true' before dlInterferenceModulation is allowed to be set to '64QAM' for Interference Generation
• LTE819 DL inter-cell interference generation (optional)
(1) If actRepeaterMode is not set to 'Coupled' dlMimoMode can only be configured to '4-way TXDiv' or 'Closed Loop MIMO (4x2)' if four TX antenna lines are configured in the resourceList of a local cell object LCELL with lncellId = LNCEL-
• LTE703 Downlink adaptive closed loop MIMO for two antennas (optional)• LTE70 DL MIMO (optional)• LTE69 Transmit diversity for two antennas (optional)• LTE187 Single TX path mode (standard)If dlOlqcEnable is set to 'true', dlTargetBler must
be configured.
Only if dlOlqcEnable is set to 'true', actOlLaPdcch can be set to 'true'. If dlOlqcEnable is set to 'false', actOlLaPdcch must be set to 'false'.
• LTE31-b Simplified BLER based Link Adaptation (standard)• LTE31 Link adaptation by AMC (UL/DL) (standard)• LTE1336 Interference aware UL power control (standard)
• LTE7 Support of multiple EPS bearer (optional)
• LTE5 Radio bearer and S1 bearer establishment and release (standard)
If dlChBw is set to '1.4 MHz', dlPcfichBoost must be configured to 0 dB.
• LTE430 DL power boosting for control channels (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If dlChBw is set to '1.4 MHz', dlPhichBoost must be configured to 0 dB.
• LTE430 DL power boosting for control channels (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If dlpcMimoComp is set to '3dB', dlRsBoost must be less than or equal to '3dB'.If dlRsBoost is different to '0dB', dlpcMimoComp is restricted to values '0 dB' and '3 dB'.
• LTE430 DL power boosting for control channels (standard)• LTE568 DL adaptive closed loop MIMO (4x2) (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)If dlOlqcEnable is set to 'true', dlTargetBler must
be configured.If pdcchHarqTargetBler is greater than 1%, dlTargetBler value shall be at least twice of pdcchHarqTargetBler.
• LTE31-b Simplified BLER based Link Adaptation (standard)
• LTE31-b Simplified BLER based Link Adaptation (standard)
If dlamcEnable is set to 'false', iniMcsDl must be configured only if dlOlqcEnable is set to 'false' in addition.
• LTE31-b Simplified BLER based Link Adaptation (standard)• LTE31 Link adaptation by AMC (UL/DL) (standard)• LTE1336 Interference aware UL power control (standard)if dlMimoMode is set different to 'Single TX'
dlpcMimoComp must be configureddlpcMimoComp value range is restricted to values '0 dB' and '3 dB', when dlRsBoost is configured to another value than '0dB'
• LTE27 Open loop UL power control and DL power setting (standard)• LTE430 DL power boosting for control channels (standard)• LTE568 DL adaptive closed loop MIMO (4x2) (optional)
dlsOldtcTarget must be configured if actDlsOldtc is set to 'true'.
• LTE10 EPS bearers for conversational voice (optional)
If dlChBw is set to '1.4 MHz', dlsUsePartPrb must be configured to 'PRBs with PSS or SSS and PBCH used'.
• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE42 DRX in RRC connected mode (optional)
• LTE42 DRX in RRC connected mode (optional)• LTE585 Smart DRX (optional)
drxProfile1-drxProfilePriority must be greater than drxProfile4-drxProfilePriority.
If actSmartDrx is set to 'true' in addition following condition need to be fulfilled: • LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE
based (optional)• LTE1382 Cell resource groups (standard)
drxOnDuratT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actUeBasedAnrIntraFreqLte is set to 'true'.
drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actUeBasedAnrIntraFreqLte is set to 'true'. • LTE908 ANR Inter-RAT UTRAN - Fully UE Based
(optional)
• LTE556 ANR Intra-LTE, Inter-frequency - UE based (optional)• LTE1382 Cell resource groups (standard)
drxOnDuratT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actUeBasedAnrInterFreqLte is set to 'true'.
drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actUeBasedAnrInterFreqLte is set to 'true'. • LTE42 DRX in RRC connected mode (optional)
• LTE495 OTDOA (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)• LTE1382 Cell resource groups (standard)drxInactivityT must be configured to a value
greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actDrx is set to 'true'.
drxProfile2-drxOnDuratT must be configured to a value greater than '3' if at least one of the following conditions is fulfilled:- actOtdoa is set to 'true' - dlChBw is set to '1.4 MHz' or '3MHz'.
the drxProfilePriority (drxProfile2) must be greater than drxProfilePriority (drxProfile4) and drxProfilePriority (drxProfile5)
drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actDrx is set to 'true'. • LTE42 DRX in RRC connected mode (optional)
• LTE495 OTDOA (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)• LTE1382 Cell resource groups (standard)
if taTimer is less than 1280, drxLongCycle must be set to '40ms'
drxProfile3-drxOnDuratT must be configured to a value greater than '3' if at least one of the following conditions is fulfilled:- actOtdoa is set to 'true' - dlChBw is set to '1.4 MHz' or '3MHz'.
the drxProfilePriority (drxProfile3) must be greater than drxProfilePriority (drxProfile4) and drxProfilePriority (drxProfile5)
drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actDrx is set to 'true'. • LTE473 Extended DRX settings (optional)
• LTE1382 Cell resource groups (standard)
drxInactivityT depends on drxLongCycle (in drxProfile4) - if drxLongCycle is set to 320, then drxInactivityT must be equal or greater than 500
drxInactivityT depends on drxLongCycle (in drxProfile4) - if drxLongCycle is set to 320, then drxInactivityT must be equal or greater than 500
drxProfilePriority(drxProfile4) must be less than min(drxProfilePriority(drxProfile1), drxProfilePriority(drxProfile2), drxProfilePriority(drxProfile3))
drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actDrx is set to 'true'. • LTE473 Extended DRX settings (optional)
• LTE1382 Cell resource groups (standard)
drxInactivityT depends on drxLongCycle (in drxProfile5) - if drxLongCycle is set to 1280, then drxInactivityT must be equal or greater than 1280- if drxLongCycle is set to 2560, then drxInactivityT must be set to 2560
drxInactivityT depends on drxLongCycle (in drxProfile5) - if drxLongCycle is set to 1280, then drxInactivityT must be equal or greater than 1280- if drxLongCycle is set to 2560, then drxInactivityT must be set to 2560
the drxProfilePriority drxProfile5 must be less than any any other drxProfileX (X=1,2,3,4) in the LNCEL instance, i.e. drxProfile5-drxProfilePriority < min(drxProfile1-drxProfilePriority, drxProfile2-drxProfilePriority, drxProfile3-drxProfilePriority, drxProfile4-drxProfilePriority)
drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actDrx is set to 'true'. • LTE585 Smart DRX (optional)
• LTE1382 Cell resource groups (standard)
drxInactivityT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actSmartDrx is set to 'true'.smartStInactFactor*drxShortCycle must be greater than or equal to max(200ms, drxLongCycle).
(1) If actOtdoa is set to 'true' drxOnDuratT must be greater than 3.
(2) If drxOnDuratT is less than cqiPerNp (calculation in cqiPerNp)
drxSmartProfile2-drxProfilePriority must greater than drxSmartProfile3-drxProfilePriority.
If actSmartDrx is set to 'true' in addition following condition need to be fulfilled:drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actSmartDrx is set to 'true'.
(1) If drxOnDuratT is less than cqiPerNp (calculation in cqiPerNp)- 12*drxShortCycle must be less than 1000ms.
(2) If drxOnDuratT is greater than or equal to cqiPerNp (calculation in cqiPerNp)
smartStInactFactor*drxShortCycle must be greater than or equal to max(200ms, drxLongCycle).
• LTE585 Smart DRX (optional)• LTE1382 Cell resource groups (standard)
smartStInactFactor*drxShortCycle must be greater than or equal to max(200ms, drxLongCycle).
(1) If actOtdoa is set to 'true' drxOnDuratT must be greater than 3.
(2) If drxOnDuratT is less than cqiPerNp (calculation in cqiPerNp)
drxSmartProfile3-drxProfilePriority must be less than drxSmartProfile2-drxProfilePriority and greater than drxSmartProfile4-drxProfilePriority.
drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actSmartDrx is set to 'true'.(1) If drxOnDuratT is less than cqiPerNp (calculation in cqiPerNp)- 12*drxShortCycle must be less than 1000ms.
(2) If drxOnDuratT is greater than or equal to cqiPerNp (calculation in cqiPerNp)
smartStInactFactor*drxShortCycle must be greater than or equal to max(200ms, drxLongCycle).
• LTE585 Smart DRX (optional)• LTE1382 Cell resource groups (standard)
drxInactivityT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actSmartDrx is set to 'true'.smartStInactFactor*drxShortCycle must be greater than or equal to max(200ms, drxLongCycle).
(1) If drxOnDuratT is less than cqiPerNp (calculation in cqiPerNp)- 12*drxShortCycle must be less than 1000ms.
(2) If drxOnDuratT is greater than or equal to cqiPerNp (calculation in cqiPerNp)
drxSmartProfile4-drxProfilePriority must be less than drxSmartProfile3-drxProfilePriority and greater than drxSmartProfile5-drxProfilePriority.
drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actSmartDrx is set to 'true'.(1) If drxOnDuratT is less than cqiPerNp (calculation in cqiPerNp)- 12*drxShortCycle must be less than 1000ms.
(2) If drxOnDuratT is greater than or equal to cqiPerNp (calculation in cqiPerNp)
smartStInactFactor*drxShortCycle must be greater than or equal to max(200ms, drxLongCycle).
• LTE585 Smart DRX (optional)• LTE1382 Cell resource groups (standard)
• LTE39 System information broadcast (standard)
drxInactivityT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actSmartDrx is set to 'true'.smartStInactFactor*drxShortCycle must be greater than or equal to max(200ms, drxLongCycle).
(1) If drxOnDuratT is less than cqiPerNp (calculation in cqiPerNp)- 12*drxShortCycle must be less than 1000ms.
(2) If drxOnDuratT is greater than or equal to cqiPerNp (calculation in cqiPerNp)
drxSmartProfile5-drxProfilePriority must be less than drxSmartProfile4-drxProfilePriority.
drxRetransT must be configured to a value greater than '8' in following condition:- cellResourceSharingMode is not set to 'none' AND - actSmartDrx is set to 'true'.(1) If drxOnDuratT is less than cqiPerNp (calculation in cqiPerNp)- 12*drxShortCycle must be less than 1000ms.
(2) If drxOnDuratT is greater than or equal to cqiPerNp (calculation in cqiPerNp)
smartStInactFactor*drxShortCycle must be greater than or equal to max(200ms, drxLongCycle).
If at least one of the parameter acBarSig and acBarOc is configured, eCallAcBarred must be set to 'barred' or 'Not barred'
If actHOtoHrpd is set to 'true' eHrpdSectList must be configured.
If eHrpdSectList contains only one list item, preRegLoadBalFactor must be configured different to '0'.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
If eHrpdSectList contains only one list item, preRegLoadBalFactor must be configured different to '0'.If eHrpdSectList contains more than one list item, the eHrpdSectList must contain at least one list item where preRegLoadBalFactor is set different to '0'.
• LTE749-a Link adaptation for PDCCH (standard)
• LTE53c Simplified intra eNB handover (standard)
eUlLaAtbPeriod must be configured if actUlLnkAdp is set to value 'eUlLa'.In other case there is no need to configure the parameter.
• LTE1034 Extended Uplink Link Adaptation (standard)• LTE1495 Fast uplink link adaptation (standard)
eUlLaBlerAveWin must be configured if actUlLnkAdp is set to value 'eUlLa'.In other case there is no need to configure the parameter.
• LTE1034 Extended Uplink Link Adaptation (standard)• LTE1495 Fast uplink link adaptation (standard)
eUlLaDeltaMcs must be configured if actUlLnkAdp is set to value 'eUlLa'.In other case there is no need to configure the parameter.
• LTE1034 Extended Uplink Link Adaptation (standard)• LTE1495 Fast uplink link adaptation (standard)
eUlLaLowMcsThr must be configured in all of the following conditions:- if actUlLnkAdp is set to value 'eUlLa'- if actUlLnkAdp is set to value 'fUlLa' and actTtiBundling is set to 'true'
• LTE1034 Extended Uplink Link Adaptation (standard)• LTE1495 Fast uplink link adaptation (standard)
eUlLaLowPrbThr must be configured in all of the following conditions:- if actUlLnkAdp is set to value 'eUlLa'- if actUlLnkAdp is set to value 'fUlLa' and actTtiBundling is set to 'true'
• LTE1034 Extended Uplink Link Adaptation (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)• LTE1495 Fast uplink link adaptation (standard)
eUlLaPrbIncDecFactor must be configured if actUlLnkAdp is set to value 'eUlLa'.In other case there is no need to configure the parameter.
• LTE1034 Extended Uplink Link Adaptation (standard)• LTE1495 Fast uplink link adaptation (standard)
The earfcnDL must be 18000 lower than earfcnUL
The phyCellId of the cell must be unique within all LNCEL instances served by the eNB having the same downlink frequency earfcnDL.
• LTE40 Physical & transport channels (standard)• LTE677 FRNA Flexi 3-sector RF Module 1600, phase 0 (BARBI) RFSW for demo (standard)• LTE763 FXFA, Flexi 3-sector RF Module 1900 MHz (standard)The earfcnDL must be 18000 lower than earfcnUl
Applicable if actUlCoMp is set to 'true':- the same uplink band (earfcnUL) must be configured for all LNCEL instances belonging to the same ulCoMpCellList.
• LTE40 Physical & transport channels (standard)• LTE677 FRNA Flexi 3-sector RF Module 1600, phase 0 (BARBI) RFSW for demo (standard)• LTE763 FXFA, Flexi 3-sector RF Module 1900 MHz (standard)The emAreaIdList must be configured with at least
one item per LNCEL instance if pwsWithEmAreaId is set to 'true'.
• LTE843 ETWS broadcast (optional)• LTE494 Commercial Mobile Alert System (optional)• LTE1755 Multiple emergency areas per cell (standard)
If enableAmcPdcch is set to 'true', pdcchCqiShift must be configured.
If enableAmcPdcch is set to 'false', enableLowAgg must be configured to 'false'.
• LTE53c Simplified intra eNB handover (standard)
• LTE793 Support of 16QAM in DL (optional)
• LTE654 LTE Configuration Management (standard)
• LTE1433 LPPa support for OTDOA (standard)
If dl64QamEnable is set to 'true', enableDl16Qam must be set to 'true'.If enableDl16Qam is set to 'false', dl64QamEnable must be set to 'false'.If enableDl16Qam is set to 'false', the maximum value for iniMcsDl is 9.enableLowAgg must be configured to 'false'- if enableAmcPdcch is set to 'false' OR- if enablePcPdcch is set to 'false'
• LTE749-a Link adaptation for PDCCH (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If enablePcPdcch is 'true' enableLowAgg must be configured.
If dlChBw is set to '1.4 MHz', enablePcPdcch must be configured to 'true'.
• LTE749-a Link adaptation for PDCCH (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE1495 Fast uplink link adaptation (standard)
• LTE736 CS fallback to UTRAN (optional)
• LTE736 CS fallback to UTRAN (optional)
If actUlLnkAdp is set to 'fUlLa', fUlLAAtbTrigThr must be configured.
• LTE27 Open loop UL power control and DL power setting (standard)• LTE28 Closed loop UL power control (optional)
The parameter filterCoefficientCSFBCpichEcn0 is mandatory required if measQuantityCSFBUtra is set to 'cpichEcN0'.
The parameter filterCoefficientCSFBCpichRscp is mandatory required if measQuantityCSFBUtra is set to 'cpichRSCP'.
filterCoefficientCpichEcn0 is mandatory required if - actUeBasedAnrUtran has the value 'true' OR- an instance of LNRELW is configured in the LNCEL and measQuantityUtra is set to'cpichEcN0'.
• LTE56 Inter RAT handover to WCDMA (optional)• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
filterCoefficientCpichRscp is mandatory required if - actUeBasedAnrUtran has the value 'true' OR- an instance of LNRELW is configured in the LNCEL and measQuantityUtra is set to 'cpichRSCP'.
• LTE56 Inter RAT handover to WCDMA (optional)• LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional)
• LTE55 Inter-frequency handover (optional)
Determines length of MNC.
• LTE496 Support of QCI 2, 3 and 4 (optional)
• LTE39 System information broadcast (standard)
• LTE41 PDCP, MAC & RLC support (standard)
• LTE41 PDCP, MAC & RLC support (standard)
If an instance of LNRELG is configured in the LNCEL then filterCoefficientRSSI must be configured.
• LTE442 Network Assisted Cell Change to GSM (optional)
The following checks are applicable on LNCEL instance level.
if dlChBw is set to '3 MHz' - and maxCrSibDl <= 0.07, the allowed number of list items of furtherPlmnIdL is 0
• LTE39 System information broadcast (standard)• LTE535 Dedicated cell capacity per operator (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
The actual range depends on the mncLength: if mncLength=2, then range is 00..99, if mncLength=3, then range is 000..999
If actEnhAcAndGbrServices is configured to 'false' gbrCongHandling must be set to 'none'.
Recommendation:If actEnhAcAndGbrServices set to 'true' it is recommended to configure gbrCongHandling to 'l2andl3'.
If harqMaxTrUlTtiBundling is configured, it must be greater than or equal harqMaxTrUl.
• LTE41 PDCP, MAC & RLC support (standard)• LTE907 TTI bundling (optional)
• LTE907 TTI bundling (optional)
• LTE39 System information broadcast (standard)
• LTE48 Support of high speed users (standard)
• LTE55 Inter-frequency handover (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
harqMaxTrUlTtiBundling is mandatory required if actTtiBundling is set to 'true'.
harqMaxTrUlTtiBundling >= harqMaxTrUl
If actHOtoHrpd is set to 'true' hrpdTimers must be configured.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
If prachHsFlag is set to 'true' hsScenario must be configured, if prachHsFlag is set to 'false' hsScenario value is nopt allowed to be configured.
• LTE53 Intra and inter eNB handover with X2 (standard)
If threshold2GERAN is set hysThreshold2GERAN must be configured.
• LTE442 Network Assisted Cell Change to GSM (optional)
If actHOtoHrpd is set to 'true' hysThreshold2Hrpd must be configured.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
if actIfHo is set to 'enabled', hysThreshold2InterFreq must configured.
If an instance of LNRELW is configured in the LNCEL then hysThreshold2Wcdma must be configured.
hysThreshold2a must be configured if one of the following condition applies:- an instance of LNRELW is configured in the LNCEL- an instance of LNRELG is configured in the LNCEL
• LTE55 Inter-frequency handover (optional)• LTE56 Inter RAT handover to WCDMA (optional)• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE53 Intra and inter eNB handover with X2 (standard)
• LTE423 RRC connection release with redirect (standard)
iFLBLoadThresholds is mandatory required if actInterFreqLB is set to 'true'
• LTE1387 Intra eNB Inter-frequency load balancing (optional)• LTE1170 Inter-frequency load balancing (optional)• LTE1531 Inter-frequency load balancing extension (standard)
iFLBHighLoadGBRDL must be greater than or equal to iFLBTargetLoadGBRDL
iFLBHighLoadNonGBRDL must be greater than or equal to iFLBTargetLoadNonGBRDL
iFLBHighLoadPdcch must be greater than or equal to iFLBTargetLoadPdcch
iFLBTargetLoadGBRDL must be less than or equal to iFLBHighLoadGBRDL
iFLBTargetLoadNonGBRDL must be less than or equal to iFLBHighLoadNonGBRDL
• LTE487 Idle mode mobility load balancing (standard)
• LTE41 PDCP, MAC & RLC support (standard)
• LTE41 PDCP, MAC & RLC support (standard)
• LTE39 System information broadcast (standard)
• LTE39 System information broadcast (standard)
• LTE145 LTE Configuration Management (standard)
iFLBHighLoadPdcch shall be greater than or equal to iFLBTargetLoadPdcch
• LTE1677 Idle mode mobility balancing extensions (standard)
• LTE42 DRX in RRC connected mode (optional)• LTE815 Proactive UL Resource Assignment (standard)
• LTE41 PDCP, MAC & RLC support (standard)
iniMcsDl is applicable if dlOlqcEnable and dlamcEnable are both set to 'false'.
If enableDl16Qam is set to 'false', the maximum value for iniMcsDl is 9.In case actModulationSchemeUL is set to 'QPSK', the maximum value for iniMcsUl is 10.
The range of iniPrbsUl depends on ulChBw setting:- if ulChBw is set to '1.4 MHz', iniPrbsUl is restricted to 1...6- if ulChBw is set to '3 MHz', iniPrbsUl is restricted to 1...15
• LTE41 PDCP, MAC & RLC support (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
The value of each lcrId in the LNCEL objects must be unique in the eNB.
It is required that always the pair of LNCEL object and related LCELL object exists, i.e. the LCELL object with matching lCellId must be created respectively deleted with the same plan file.
Applicable if actUlCoMp is set to 'true':- at least two existing LNCEL instance must be configured in an ulCoMpCellList.
• LTE106 6 cell support with one System Module (standard)• LTE1072 Flexi Lite BTS 750 (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)
• LTE1140 Intra-frequency load balancing (optional)
• LTE1140 Intra-frequency load balancing (optional)
• LTE20 Admission control (standard)
• LTE497 Smart admission control (optional)
loadBalancingProfile is mandatory required if actIntraFreqLoadBal is set to 'true'.
lowerMarginCIO is mandataory required if actIntraFreqLoadBal is set to 'true'.
minBitrateDl value must be less or equal to maxBitrateDl
• LTE20 Admission control (standard)• LTE1089 Downlink carrier aggregation - 2 CC (optional)
maxBitRateUl value must be greater than or equal to minBitRateUl
• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
The following checks are applicable on LNCEL instance level.
If the downlink channel bandwidth dlChBw is equal to '1.4 MHz'
• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
LNCEL-maxGbrTrafficLimit + max(LNCEL-addGbrTrafficRrHo, LNCEL-addGbrTrafficTcHo) must be equal or less than 90
maxNrSymPdcch is used in calculation of MaxPucchResourceSize (calculation defined in nCqiRb).
If phichDur is set to value 'Extended', maxNrSymPdcch must be set to '3'
• LTE40 Physical & transport channels (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
(1) Range depends on dlChBw value as follows:- if min(ulChBw, dlChBw) is set to '1.4 MHz', maxNumActDrb must be less than or equal to 200- if min(ulChBw, dlChBw) is set to '3 MHz', maxNumActDrb must be less than or equal to 600
• LTE113 Cell Bandwidth - 15 MHz (optional)• LTE7 Support of multiple EPS bearer (optional)• LTE458 RL20 Capacity and Dimensioning (standard)• LTE1089 Downlink carrier aggregation - 2 CC (optional)The range for maxNumActUE depends on
dlChBw, ulChBw and actFlexBbUsage according to following conditions(1.1) if actFlexBbUsage set to 'false' and - min(ulChBw,dlChBw) has value '1.4 MHz', maxNumActUE value range is restricted to 0...40
• LTE20 Admission control (standard)• LTE458 RL20 Capacity and Dimensioning (standard) • LTE1327 RL50 FSMr3 Capacity and Dimensioning (standard)
• LTE736 CS fallback to UTRAN (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
maxNumCaConfUeDc should be smaller or equal to maxNumActUE
• LTE1089 Downlink carrier aggregation - 2 CC (optional)
(1) Range depends on dlChBw value as follows:- if dlChBw is set to '5.0 MHz', maxNumQci1Drb must be less or equal to 200- if dlChBw is set to '10.0 MHz', maxNumQci1Drb must be less or equal to 400
• LTE113 Cell Bandwidth - 15 MHz (optional)• LTE10 EPS bearers for conversational voice (optional)• LTE458 RL20 Capacity and Dimensioning (standard)• LTE618 RL40 FSMr3 Capacity and Dimensioning (standard)
The range for maxNumRrc depends on dlChBw, ulChBw and actFlexBbUsage according to following conditions(1.1) if actFlexBbUsage set to 'false' and - min(ulChBw,dlChBw) is '1.4 MHz', maxNumRrc value range is restricted to 0...40
• LTE20 Admission control (standard) • LTE1327 RL50 FSMr3 Capacity and Dimensioning (standard)(1) The range for maxNumRrcEmergency depends
on dlChBw and ulChBw according to following conditions:- if min(ulChBw,dlChBw) is set to '1.4 MHz', maxNumRrcEmergency must be less than or equal to 40
• LTE113 Cell Bandwidth - 15 MHz (optional)• LTE22 Emergency Call handling (optional)• LTE1327 RL50 FSMr3 Capacity and Dimensioning (standard)• LTE1089 Downlink carrier aggregation - 2 CC (optional)
Range depends on dlChBw: - if dlChBw is set to '1.4 MHz', maxNumUeDl range is restricted to 1...7- if dlChBw is set to '3 MHz', maxNumUeDl range is restricted to 1...7
• LTE45 Fair scheduler (UL/DL) (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)• LTE1346 RL50 Capacity and Dimensioning FSMr2 (standard)Range depends on dlChBw:
- if dlChBw is set to '1.4 MHz', maxNumUeUl range is restricted to 1...7- if dlChBw is set to '3 MHz', maxNumUeUl range is restricted to 1...7- if dlChBw is set to '5 MHz', maxNumUeUl range is restricted to 1...7- if dlChBw is set to '10 MHz', maxNumUeUl range is restricted to 1...14- if dlChBw is set to '15 MHz', maxNumUeUl range is restricted to 1...17
• LTE45 Fair scheduler (UL/DL) (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)• LTE1346 RL50 Capacity and Dimensioning FSMr2 (standard)
• LTE20 Admission control (standard)• LTE1089 Downlink carrier aggregation - 2 CC (optional)
If measQuantityCSFBUtra is set to 'cpichRSCP' filterCoefficientCSFBCpichRscp is mandatory required.If measQuantityCSFBUtra is set to 'cpichEcN0' filterCoefficientCSFBCpichEcn0 is mandatory required. If an instance of LNRELW is configured measQuantityUtra must be configured to 'cpichRSCP' or 'cpichEcN0' for this LNCEL instance.
If dlMimoMode is set to 'Closed Loop Mimo' or 'Closed Loop MIMO (4x2)' and actFastMimoSwitch set to 'false', mimoClConfig must be configured.
• LTE70-b Downlink adaptive open loop MIMO for two antennas (optional)
mimoClCqiThU value must be equal or greater than mimoClCqiThD
• LTE20 Admission control (standard)
• LTE20 Admission control (standard)
mimoClCqiThU must be equal or greater than mimoClCqiThD.
mimoClRiThU must be greater than or equal to mimoClRiThD.
mimoClRiThU shall be greater than or equal to mimoClRiThD.
If dlMimoMode is set to 'Dynamic Open Loop MIMO', mimoOlConfig must be configured.
• LTE70-b Downlink adaptive open loop MIMO for two antennas (optional)
mimoOlCqiThU must be equal or greater than mimoOlCqiThD
mimoOlCqiThU must be equal or greater than mimoOlCqiThD
mimoOlRiThU must be equal or greater than mimoOlRiThD
mimoOlRiThU must be equal or greater than mimoOlRiThD
minBitrateDl value must be less or equal to maxBitrateDl
minBitrateUl value must be less or equal to maxBitrateUl
• LTE490 SPID selective mobility profiles (optional)• LTE487 Idle mode mobility load balancing (standard)
The related MOPR instance is mandatory required.
no relations
no relations
no relations
no relations
• LTE39 System information broadcast (standard)
• LTE39 System information broadcast (standard)
• LTE39 System information broadcast (standard)
• LTE971 Intra-LTE mobility offsets (standard)
Several spid ranges can be configured in moPrMappingList from spid to spidLast, where the ranges (from spid to spidLast) must be unique.Each spid cannot be included in more than one range defined in moPrMappingList. Several spid ranges can be configured in moPrMappingList from spid to spidLast, where the ranges (from spid to spidLast) must be unique.Each spidLast cannot be included in more than one range defined in moPrMappingList.
The product of parameter modPeriodCoeff and defPagCyc (given in rf) must not exceed 1024.
n1PucchAn is used in calculation of MaxPucchResourceSize (calculation defined in nCqiRb).
If n1PucchAn is set to '10' than deltaPucchShift must be set to '1'.
• LTE40 Physical & transport channels (standard)• LTE1089 Downlink carrier aggregation - 2 CC (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
(1) The maximum value of nCqiRb depends on ulChBw (in PRB) - if ulChBw is set to '1.4 MHz', nCqiRb must be configured to 1- if ulChBw is set to '3 MHz', nCqiRb must be configured to 1
• LTE40 Physical & transport channels (standard)• LTE786 Flexible UL Bandwidth (optional)• LTE1089 Downlink carrier aggregation - 2 CC (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)
• LTE145 LTE Configuration Management (standard)
no relations • LTE39 System information broadcast (standard)
no relations • LTE39 System information broadcast (standard)
• LTE27 Open loop UL power control and DL power setting (standard)
• LTE27 Open loop UL power control and DL power setting (standard)
The configured maximal output power (pMax) does have impact on the maximal allowed cell power reduction (dlCellPwrRed) which are for the most common pMax values:- for pMax set equal to or smaller than 49.0 dBm and greater than 47.8 dBm, dlCellPwrRed maximum value is 10.0 dB
• LTE40 Physical & transport channels (standard)• LTE1106 Flexi low power RRH 850 2TX for optical repeater interface (standard)• LTE1040 Flexi 3-sector RF Module 1800 3x80 W (standard)
• LTE49 Paging (standard)• LTE39 System information broadcast (standard)
If dlChBw is set to '1.4 MHz' pdcchAggDefUe must be less than or equal to 4.
• LTE749-a Link adaptation for PDCCH (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
pdcchAggMsg4 must be configured to '4' in following cases:- dlChBw set to '1.4 MHz'- dlChBw set to '3 MHz' and additionally maxNrSymPdcch < '3'
• LTE749-a Link adaptation for PDCCH (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
pdcchAggPaging must be configured to '4' in following cases:- dlChBw set to '1.4 MHz'- dlChBw set to '3 MHz' and additionally maxNrSymPdcch < '3'
• LTE45 Fair scheduler (UL/DL) (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
pdcchAggPreamb must be configured to '4' in following cases:- dlChBw set to '1.4 MHz'- dlChBw set to '3 MHz' and additionally maxNrSymPdcch < '3'
• LTE31 Link adaptation by AMC (UL/DL) (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
pdcchAggRaresp must be configured to '4' in following cases:- dlChBw set to '1.4 MHz'- dlChBw set to '3 MHz' and additionally maxNrSymPdcch < '3'
• LTE45 Fair scheduler (UL/DL) (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
pdcchAggSib must be configured to '4' in following cases:- dlChBw set to '1.4 MHz'- dlChBw set to '3 MHz' and additionally maxNrSymPdcch < '3'
• LTE45 Fair scheduler (UL/DL) (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE749-a Link adaptation for PDCCH (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
pdcchCqiShift must be configured if enableAmcPdcch or actOlLaPdcch is set to 'true'.
If actOlLaPdcch is set to 'true', pdcchCqiShift is adjusted in runtime and uses the configured value as start value.
• LTE749 Link adaptation for PDCCH (standard)• LTE1035 Outer loop link adaptation for PDCCH (standard)
If actOlLaPdcch is set to 'true', pdcchHarqTargetBler must be configured.If pdcchHarqTargetBler is greater than 1%, dlTargetBler value shall be at least twice of pdcchHarqTargetBler.
• LTE1035 Outer loop link adaptation for PDCCH (standard)• LTE1089 Downlink carrier aggregation - 2 CC (optional)
If actLdPdcch is set to 'false', configured UL and DL split of PDCCH resources (pdcchUlDlBal) is fixed used.If actLdPdcch is set to 'true', UL and DL split of PDCCH resources may be adjusted runtime based on load and the configured value (pdcchUlDlBal) defines the initial starting point then.
• LTE749 Link adaptation for PDCCH (standard)• LTE616 Usage based PDCCH adaptation (optional)• LTE939 FSMr3b: Usage based PDCCH adaptation (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)If periodicCqiFeedbackType is set to 'UE_selected'
cqiPerSbCycK must be specified.
If dlChBw is set to '1.4 MHz', periodicCqiFeedbackType must be configured to 'wideband'.
• LTE496 Support of QCI 2, 3 and 4 (optional)• LTE1089 Downlink carrier aggregation - 2 CC (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE570 Periodic UE measurements (optional)• LTE953 MDT (Minimization of Drive Test) (standard)
activateMeas for measurementType set to 'periodicIntraFreq' can only be set to 'true' if actMDTCellTrace is set to 'true'.The modification of actMDTCellTrace from 'true' to 'false' requires that in all LNCEL instances activateMeas is set to 'false'.
If reportInterval is set to '120ms' than reportAmount must be '1'.If reportInterval is set to '240ms' than reportAmount must be '1' or '2'.If reportInterval is set to '480ms' than reportAmount must be less than '8'.If reportInterval is set to '120ms' than reportAmount must be '1'.If reportInterval is set to '240ms' than reportAmount must be '1' or '2'.If reportInterval is set to '480ms' than reportAmount must be less than '8'.If phichDur is set to value 'Extended', maxNrSymPdcch must be set to value '3'
If phichDur is set to 'Extended', actLdPdcch can not be configured to 'true', for phichDur set to 'Normal' the allowed value of actLdPdcch still depends on the configured values for dlChBw and
• LTE40 Physical & transport channels (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE40 Physical & transport channels (standard)
• LTE40 Physical & transport channels (standard)
• LTE39 System information broadcast (standard)
• LTE39 System information broadcast (standard)
• LTE39 System information broadcast (standard)
• LTE495 OTDOA (optional)
• LTE495 OTDOA (optional)
• LTE495 OTDOA (optional)
phichRes is used in calculation of MaxPucchResourceSize (calculation defined in nCqiRb).
If dlChBw is set to '1.4 MHz', phichRes must be configured to 'N = 1/6'.
• LTE40 Physical & transport channels (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
The phyCellId of the cell must be unique within all LNCEL instances served by the eNB having the same downlink frequency earfcnDL.
The phyCellId must be different If prachConfIndex is within range (3..8) then prachCS range is restricted to values (1..12)If prachConfIndex is within range (19..24) then prachCS range is full scope (0..15)
prachCS range is restricted to values (1..12) if prachConfIndex is within range (3..8)prachCS full range (0..15) is allowed if prachConfIndex is within range (19..24)
• LTE40 Physical & transport channels (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
PRACH occupies 6 PRBs therefore prachFreqOff shall be smaller than "max number of PRBS" - 6.The prachFreqOff range depends on the uplink channel bandwidth ulChBw (ulChBw in PRB):
• LTE40 Physical & transport channels (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)• LTE944 PUSCH masking (standard)
prachHsFlag can only be set to ‘true’ if - ulCombinationMode is set to value 'MRC' AND- maximal 2 RX antenna lines are configured in resourceList of the LCELL instance with identical lcellId to lcrId of this LNCEL instance
• LTE39 System information broadcast (standard)• LTE40 Physical & transport channels (standard)• LTE48 Support of high speed users (standard)• LTE72 4-way RX diversity (optional)• LTE980 IRC for 4 RX paths (optional)
prsBandwidth range depends on the dlChBw as below:- for dlChBw set to '5MHz' the allowed maximal value for prsBandwidth is 25- for dlChBw set to '10MHz' the allowed maximal value for prsBandwidth is 50The siWindowLen must be appropriately set depending on the value of prsConfigurationIndex.
prsConfigurationIndex is mandatory required if actOtdoa is set to 'true'.
• LTE495 OTDOA (optional)
• LTE40 Physical & transport channels (standard)
• LTE39 System information broadcast (standard)
• LTE1036 RSRQ Based Cell Reselection (standard)
• LTE39 System information broadcast (standard)
• LTE39 System information broadcast (standard)
prsNumDlFrames is mandatory required if actOtdoa is set to 'true'
prsPowerBoost is mandatory required if actOtdoa is set to 'true'.
• LTE495 OTDOA (optional)• LTE568 DL adaptive closed loop MIMO (4x2) (optional)
pucchNAnCs is used in calculation of MaxPucchResourceSize (calculation defined in nCqiRb).
• LTE39 System information broadcast (standard)
• LTE41 PDCP, MAC & RLC support (standard)
• LTE41 PDCP, MAC & RLC support (standard)
• LTE40 Physical & transport channels (standard)
• LTE41 PDCP, MAC & RLC support (standard)
• LTE13 Rate capping (UL/DL) (optional)
• LTE13 Rate capping (UL/DL) (optional)
In case actModulationSchemeUL is set to 'QPSK', the maximum value for raLargeMcsUl is 10.
• LTE41 PDCP, MAC & RLC support (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
raNondedPreamb must be equal or greater than raPreGrASize
raPreGrASize must be less than or equal to raNondedPreamb
raRespWinSize must be configured to value '10' in case actFlexBbUsage is set to 'true' AND (ulChBw,dlChBw) are set to ('5 MHz' or '10 MHz'))If ulChBw is set to '1.4 MHz', raRespWinSize must be configured to '5' or higher values.
• LTE41 PDCP, MAC & RLC support (standard)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
In case actModulationSchemeUL is set to 'QPSK', the maximum value for raSmallMcsUl is 10.
If ulChBw is set to '1.4 MHz' the following range restrictions apply for the parameter raSmallMcsUl (basis: 4 PRB allocation)
• LTE45 Fair scheduler (UL/DL) (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If ulChBw is set to '1.4 MHz' the following range restrictions apply for the parameter raSmallMcsUl (basis: 4 PRB allocation)- if raSmallVolUl set to '144 bits', raSmallMcsUl range is restricted to 1…15
• LTE45 Fair scheduler (UL/DL) (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If act1xCsfb is set to 'true' and rttCsfbType for the cell is not set to 'forbidden' parameter rand must be configured.
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
rcAmbrMgnDl must be configured if rcEnableDl is set to 'true'.
rcAmbrMgnUl must be configured if rcEnableUl is set to 'true'.
• LTE40 Physical & transport channels (standard)
If dlChBw is set to '1.4 MHz', rcEnableDl must be configured to 'false'.
If rcEnableDl is set to 'true', rcAmbrMgnDl must be configured.
• LTE13 Rate capping (UL/DL) (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If dlChBw is set to '1.4 MHz', rcEnableUl must be configured to 'false'.
If rcEnableUl is set to 'true', rcAmbrMgnUl must be configured.
• LTE13 Rate capping (UL/DL) (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If dlChBw is set to '1.4 MHz' or '3 MHz', redBwEnDl must be configured to 'false'.
If redBwEnDl is set to 'true' redBwMaxRbDl must be configured.
• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If redBwEnDl is set to 'true', redBwMaxRbDl must be configured with following dependency to the specified dlChBw:- if dlChBw is set to '1.4 MHz', redBwMaxRbDl range is restricted to 1…6
• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If redBwRpaEnUl is set to 'true', redBwRbUlConfig must be configured.
• LTE786-a Reduced Uplink Bandwidth (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)• LTE1495 Fast uplink link adaptation (standard)
Range depends on ulChBw setting- if ulChBw is set to '1.4 MHz', redBwMaxRbUl range is restricted to 1...6- if ulChBw is set to '3 MHz', redBwMaxRbUl range is restricted to 1...15Range depends on ulChBw setting- if ulChBw is set to '1.4 MHz', redBwMinRbUl range is restricted to 1...6- if ulChBw is set to '3 MHz', redBwMinRbUl range is restricted to 1...15If dlChBw is set to '1.4 MHz' or '3 MHz', redBwRpaEnUl must be configured to 'false'.
If redBwRpaEnUl is set to 'true', redBwRbUlConfig must be configured.
• LTE786-a Reduced Uplink Bandwidth (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
If riPerM is set to '1' and additionally riEnable is set to 'true', cqiPerNp cannot be set to 5ms.
If dlMimoMode is set to 'SingleTX', 'TXDiv' or '4-way TXDiv' riEnable must be set to ‘false’, for any other dlMimoMode value it must be configured to 'true'.
• LTE767 Support of aperiodic CQI reports (standard)• LTE31 Link adaptation by AMC (UL/DL) (standard)• LTE568 DL adaptive closed loop MIMO (4x2) (optional)• LTE1089 Downlink carrier aggregation - 2 CC (optional)
If actFastMimoSwitch is set to 'true' riPerM must be configured to '1'.
If riPerM is set to value '1' riPerOffset must be configured to '-1'.
• LTE30 CQI adaption (DL) (optional)• LTE568 DL adaptive closed loop MIMO (4x2) (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)If actFastMimoSwitch is set to 'true' riPerOffset
must be configured to '-1'.
If riPerM = 1 then riPerOffset must be set to -1. If riPerM = 2 then riPerOffset must be set to 0.
• LTE568 DL adaptive closed loop MIMO (4x2) (optional)• LTE70-b Downlink adaptive open loop MIMO for two antennas (optional)The allowed range for rootSeqIndex when
prachHsFlag is set to 'true' depends on the configured prachCS (PRACH cyclic shift) as below- for prachCS set to '0' the allowed rootseqIndex values are 24..816
• LTE1198 RSRQ based mobility (standard)
threshold2MobRsrq must be less than threshold2aRsrq
threshold2MobRsrq must be greater than threshold4Rsrqthreshold2aRsrq must be greater than threshold2MobRsrq
Only if actRedirect is set to 'Enabled' rsrqRedirectParams is allowed to be configured, it doesn't mean the structure rsrqRedirectParams must be configured.For actRedirect set to 'Disabled' rsrqRedirectParams is not allowed to be configured, i.e. when actRedirect is changed from 'Enabled' to 'Disabled' a potentially configured
• LTE1407 RSRQ based redirect (standard)• LTE1198 RSRQ based mobility (standard)
If rsrqMobilityParams is configured, threshold4Rsrq must be less than threshold2MobRsrq
If act1xCsfb is set to 'true' and rttCsfbType for the cell is set to 'R9e1xCsfb', rttCellIdInfo must be configured.
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
If dlChBw is set to '1.4 MHz' or '3 MHz' AND additionally act1xCsfb is set to 'true' rttCsfbType for the cell must be set to 'forbidden'.
If act1xCsfb is set to 'true' and rttCsfbType is set different to 'forbidden' for the LNCEL instance following conditions need to be fulfilled:
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1036 RSRQ Based Cell Reselection (standard)
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• LTE1036 RSRQ Based Cell Reselection (standard)
If act1xCsfb is set to 'true' and rttCsfbType for the cell is not set to 'forbidden' rttPreregRefCellId must be configured.
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
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1) siWindowLen value 1ms shall not be used when there are more than 5 SIBs configured in siMessageSibType (i.e. sib2Scheduling, sib3Scheduling and more than three in sibSchedulingList)
• LTE39 System information broadcast (standard)• LTE843 ETWS broadcast (optional)• LTE494 Commercial Mobile Alert System (optional)• LTE495 OTDOA (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE39 System information broadcast (standard)• LTE843 ETWS broadcast (optional)• LTE870 Idle mode mobility from LTE to CDMA/eHRPD (optional)• LTE494 Commercial Mobile Alert System (optional)If dlChBw is set to '1.4 MHz' or '3 MHz',
siMessagePeriodicity must be configured >= '160ms'.
If dlChBw is set to '1.4 MHz' or '3 MHz', siMessageRepetition must be configured to '1'.
• LTE39 System information broadcast (standard)• LTE843 ETWS broadcast (optional)• LTE870 Idle mode mobility from LTE to CDMA/eHRPD (optional)• LTE494 Commercial Mobile Alert System (optional)If dlChBw is set to '1.4 MHz' or '3 MHz',
siMessagePeriodicity must be configured >= '160ms'.
If dlChBw is set to '1.4 MHz' or '3 MHz', siMessageRepetition must be configured to '1'.
The maximum size of siWindowLen is influenced by "number of sets in structure sibSchedulingList". The related check is defined under parameter LNCEL-siWindowLen.
• LTE39 System information broadcast (standard)• LTE807 Idle mode mobility from LTE to CDMA/1xRTT (optional)• LTE843 ETWS broadcast (optional)• LTE870 Idle mode mobility from LTE to CDMA/eHRPD (optional)
If dlChBw is set to '1.4 MHz' or '3 MHz', siMessagePeriodicity must be configured >= '160ms'.
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If dlChBw is set to '1.4 MHz' or '3 MHz', siMessageRepetition must be configured to '1'.
If set to 'SIB4' then a MOC IAFIM need to be present.If set to 'SIB5' then a MOC IRFIM need to be present.If set to 'SIB6' then a MOC UFFIM need to be present.
nCellChgHigh must be greatr or equal to nCellChgMed
Note: If nCellChgHigh is set to same value than nCellChgMed, the high mobility state does have priority.nCellChgMed must be smaller or equal to nCellChgHigh
Note: If nCellChgHigh is set to same value than nCellChgMed, the high mobility state does have priority.
• LTE5 Radio bearer and S1 bearer establishment and release (standard)
• LTE5 Radio bearer and S1 bearer establishment and release (standard)
srsConfiguration must be configured if ulsSchedMethod is set to 'channel aware' and actPuschMask is set to 'false'
srsConfiguration shall not be configured in all of the following condition:
• LTE46 Channel aware scheduler (UL) (optional)• LTE1495 Fast uplink link adaptation (standard)• LTE944 PUSCH masking (standard)
• LTE473 Extended DRX settings (optional)
• LTE39 System information broadcast (standard)
• LTE39 System information broadcast (standard)
• LTE50 UE state management (standard)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE873 SRVCC to GSM (optional)
• LTE39 System information broadcast (standard)
• LTE39 System information broadcast (standard)
srsPwrOffset must be configured if one of the following conditions is fulfilled:- ulsSchedMethod is set to 'channel aware' and actPuschMask is set to 'false'- actUlpcMethod is set to ('PuschCLSrsPucchOL' or 'PuschCLSrsPucchCL')
• LTE27 Open loop UL power control and DL power setting (standard)• LTE540 Sounding reference signal in normal frames (optional)• LTE46 Channel aware scheduler (UL) (optional)
If dlMimoMode is set to value 'SingleTX', syncSigTxMode must also also be set to 'SingleTx'If dlMimoMode is set to some another value than 'SingleTX', syncSigTxMode can be set to 'SingleTx' or 'TXDiv'
• LTE40 Physical & transport channels (standard)• LTE568 DL adaptive closed loop MIMO (4x2) (optional)
If an instance of LNRELW is configured in the LNCEL t304InterRAT must be configured.
• LTE53 Intra and inter eNB handover with X2 (standard)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE487 Idle mode mobility load balancing (standard)
• LTE1043 3GPP baseline R10 06/2011 (standard)
• LTE1074 Multimedia Priority Services (standard)
• LTE39 System information broadcast (standard)
• LTE533 Mobility Robustness (standard)
• LTE41 PDCP, MAC & RLC support (standard)
• LTE81 Cell range up to 13 km (standard)
If actHighPrioServices is set to 'true' tPageCorrInt must be configured.
• LTE5 Radio bearer and S1 bearer establishment and release (standard)
tPeriodicPhr cannot be configured to 'infinity' if at least one of the following conditions is fulfilled:- ulsSchedMethod is set to 'interference aware' or 'channel aware'- actUlLnkAdp is set to 'fUlLa' when in addition ulsSchedMethod is set to 'interference aware' or 'channel unaware' (extending previous condition for 'channel unaware')
• LTE5 Radio bearer and S1 bearer establishment and release (standard)• LTE1495 Fast uplink link adaptation (standard)
• LTE5 Radio bearer and S1 bearer establishment and release (standard)
• LTE5 Radio bearer and S1 bearer establishment and release (standard)
• LTE81-a Simplified Timing Advance Mechanisms (standard)
taTimerMargin must be less than or equal to (taTimer-300ms)if taTimer is less than 1280, drxLongCycle must be set to 40
taTimerMargin must be less or equal to (taTimer - 300ms)
• LTE1036 RSRQ Based Cell Reselection (standard)
• LTE39 System information broadcast (standard)
threshold3 must be less than threshold3a
threshold3 must be less than threshold3a
• LTE49 Paging (standard)• LTE39 System information broadcast (standard)
If threshServingLowQR9 is configured the following condition need to be fulfilled in scope of the LNCEL instance- cellSelectionInfoV920 is mandatory required- utraFrqQThrHighR9 and utraFrqQThrLowR9 of all existing UFFIM instances belonging to the LNCEL instance are mandatory required
threshold2a must be less than threshold1threshold3 must be less than threshold1 - applicable if threshold2a is not configured
If an instance of LNRELG is configured in the LNCEL then threshold2GERAN must be configured.threshold2GERAN must be less than or equal to threshold2a.
• LTE442 Network Assisted Cell Change to GSM (optional)
If actHOtoHrpd is set to 'true' threshold2Hrpd must be configured.
The following checks have to be performed with LNCEL scope:
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
threshold2a must be greater than or equal to threshold2InterFreq
If actIfHo of LNBTS is set to 'enabled' threshold2InterFreq must be configured.
• LTE55 Inter-frequency handover (optional)
If an instance of LNRELW is configured in the LNCEL then threshold2Wcdma must be configured.- threshold2a must be greater than or equal to threshold2Wcdma.
• LTE56 Inter RAT handover to WCDMA (optional)
threshold2a must be configured if one of the following condition applies:- an instance of LNRELW is configured in the LNCEL- an instance of LNRELG is configured in the LNCEL
• LTE56 Inter RAT handover to WCDMA (optional)• LTE55 Inter-frequency handover (optional)• LTE442 Network Assisted Cell Change to GSM (optional)• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
threshold4 must be less than threshold3InterFreqthreshold4 must be less than b2Threshold1GERANthreshold4 must be less than b2Threshold1Utrathreshold4 must be less than b2Threshold1Hrpd
• LTE423 RRC connection release with redirect (standard)• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
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• LTE907 TTI bundling (optional)
• LTE907 TTI bundling (optional)
• LTE907 TTI bundling (optional)
• LTE40 Physical & transport channels (standard)
• LTE31 Link adaptation by AMC (UL/DL) (standard)
• LTE31 Link adaptation by AMC (UL/DL) (standard)
ttiBundlingBlerTarget is mandatory required if actTtiBundling is set to 'true'
ttiBundlingBlerThreshold is mandatory required if actTtiBundling is set to 'true'
ttiBundlingBlerThreshold must always be greater than ulTargetBler.ttiBundlingSinrThreshold is mandatory required if actTtiBundling is set to 'true'
Following parameter ranges depend on the configured downlink channel bandwidth (dlChBw): maxNumActUE, addNumDrbRadioReasHo, addNumDrbTimeCriticalHo, maxNumQci1Drb, addNumQci1DrbRadioReasHo,
• LTE40 Physical & transport channels (standard)• LTE113 Cell Bandwidth - 15 MHz (optional)• LTE106 6 cell support with one System Module (standard) prachHsFlag can be set to 'true' only if
ulCombinationMode is set to 'MRC' and maximal 2 RX antennas are configured in the LCELL instance with lcellId identical to lcrId of this LNCEL instance
• LTE979 IRC for 2 RX paths (optional)• LTE72 4-way RX diversity (optional)• LTE980 IRC for 4 RX paths (optional)
If ttiBundlingBlerThreshold is configured, it must be greater than ulTargetBler.
• LTE31-b Simplified BLER based Link Adaptation (standard)• LTE907 TTI bundling (optional)
• LTE31 Link adaptation by AMC (UL/DL) (standard)• LTE907 TTI bundling (optional)
• LTE39 System information broadcast (standard)
• LTE28 Closed loop UL power control (optional)
ulpcLowlevCch <= ulpcUplevCch
ulpcLowqualCch <= ulpcUpqualCch
ulpcUplevCch >= ulpcLowlevCch
If parameter actUlpcMethod is set to 'PuschIAwPucchCL' or 'PuschIAwPucchOL' ulpcAlpha must be configured to 'alpha 1'.
• LTE27 Open loop UL power control and DL power setting (standard)• LTE28 Closed loop UL power control (optional)• LTE1336 Interference aware UL power control (standard)ulpcIAwConfig must be configured if
actUlpcMethod is set to 'PuschIAwPucchOL' or 'PuschIAwPucchCL'
• LTE1336 Interference aware UL power control (standard)
ulpcPucchConfig must be configured if actUlpcMethod is set to 'PuschOLPucchCL', 'PuschCLPucchCL', 'PuschCLSrsPucchCL' or 'PuschIAwPucchCL'.
ulpcUpqualCch >= ulpcLowqualCch
• LTE28 Closed loop UL power control (optional)
ulpcLowlevSch <= ulpcUplevSch
ulpcLowqualSch <= ulpcUpqualSch
ulpcUplevSch >= ulpcLowlevSch
ulpcUpqualSch >= ulpcLowqualSch
• LTE28 Closed loop UL power control (optional)
ulpcPuschConfig must be configured if actUlpcMethod is set to 'PuschCLPucchOL', 'PuschCLPucchCL', 'PuschCLSrsPucchOL' or 'PuschCLSrsPucchCL'.
• LTE27 Open loop UL power control and DL power setting (standard)
ulpcReadPeriod must be configured if actUlpcMethod is set to 'PuschOLPucchCL', 'PuschCLPucchOL', 'PuschCLPucchCL', 'PuschCLSrsPucchOL', 'PuschCLSrsPucchCL' or 'PuschIAwPucchCL'.If ulsSchedMethod is set to 'interference aware' or 'channel aware' ulsFdPrbAssignAlg must be set to 'MixedFD'.If ulsFdPrbAssignAlg is set to 'RoundRobinFD' (packet aggregation is disabled for VoIP bearer) ulsMaxPacketAgg must be set to '1'.
• LTE7 Support of multiple EPS bearer (optional)• LTE496 Support of QCI 2, 3 and 4 (optional)
If ulsFdPrbAssignAlg is set to 'RoundRobinFD' (packet aggregation is disabled for VoIP bearer) ulsMaxPacketAgg must be set to ‘1’.
• LTE10 EPS bearers for conversational voice (optional)
The maximal value of ulsMinRbPerUe depends on the ulChBw:- for ulChBw set to '1.4 MHz', ulsMinRbPerUe is restricted to 1.. 6- for ulChBw set to '3 MHz', ulsMinRbPerUe is restricted to 1.. 15
• LTE571 Controlled uplink packet segmentation (standard)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)
• LTE571 Controlled uplink packet segmentation (standard)• LTE907 TTI bundling (optional)
• LTE944 PUSCH masking (standard)
• LTE1140 Intra-frequency load balancing (optional)
At least one list item of ulsPuschMask must be configured if actPuschMask is set to 'true'.
PRACH allocation (prachFreqOff) and PUSCH mask allocation (ulsPuschMask) must be mutually exclusive, ie. the range {prachFreqOff ... (prachFreqOff+5)} must not be within the PUSCH mask range(s) {ulsPuschMaskStart .. PRACH allocation (prachFreqOff) and PUSCH mask allocation (ulsPuschMask) must be mutually exclusive, ie. the range {prachFreqOff ... (prachFreqOff+5)} must not be within the PUSCH mask range(s) {ulsPuschMaskStart .. If ulsSchedMethod is set to 'channel aware' all of the following conditions must be fullfilled- srsConfiguration must be configured- srsPwrOffset must be configured.
• LTE619 Interference aware UL scheduling (optional)• LTE46 Channel aware scheduler (UL) (optional)• LTE116 Cell Bandwidth - 3 MHz (optional)• LTE117 Cell Bandwidth - 1,4 MHz (standard)• LTE1495 Fast uplink link adaptation (standard)• LTE1332 Downlink carrier aggregation - 40 MHz (standard)
upperMarginCIO is mandataory required if actIntraFreqLoadBal is set to 'true'.
• LTE1195 FHCC Repeater Interface Module (standard)• LTE1195-e FHCC Repeater Interface Module -Info model update and merge for RL40 (standard)
If the calculation pciLast-pciFirst results in a value greater than or equal to 32, cellIndOff must be configured to 0.
• LTE1442 Open access home eNode B mobility (standard)
The freqEutra value must be unique within all LNHENB instances of the eNB.
• LTE1442 Open access home eNode B mobility (standard)
• LTE1442 Open access home eNode B mobility (standard)
pciFirst must be smaller than or equal to pciLast.
cellIndOff must be configured to 0, if the calculation pciLast-pciFirst results in a value greater than or equal to 32.
• LTE1442 Open access home eNode B mobility (standard)
pciLast must be greater than or eqal to pciFirst.
cellIndOff must be configured to 0, if the calculation pciLast-pciFirst results in a value greater than or equal to 32.
• LTE1442 Open access home eNode B mobility (standard)
The number of target cells for eNACC (LNRELG-eNACCAllowed) and SRVCC (LNRELG-srvccAllowed) is restricted to maximum 32 per LTE cell and frequency band. For a detailed description see LNRELG parameters eNACCAllowed and
• LTE442 Network Assisted Cell Change to GSM (optional)• LTE873 SRVCC to GSM (optional)
The following conditions must be fulfilled for all LNCEL objects if a LNRELG instance belongs to it: - b2threshold1GERAN must be greater than threshold4.
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
• LTE442 Network Assisted Cell Change to GSM (optional)
The following checks have to be performed with LNCEL scope:- b2Threshold1Hrpd must be greater than threshold4
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
The LNHOH identity (combination of: hrpdBandClass + hrpdArfcn) must be unique within all LNHOH instances belonging to same LNCEL.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
The LNHOH identity (combination of: hrpdBandClass + hrpdArfcn) must be unique within all LNHOH instances belonging to same LNCEL.
The LNHOH identity (combination of: hrpdBandClass + hrpdArfcn) must be unique within all LNHOH instances belonging to same LNCEL.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
If hrpdPreRegAllowed is set to 'true' hrpdPreRegZoneId within CDFIM is mandatory required for the LNCEL.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
If measQuantInterFreq is set to 'rsrp' or 'both' a3OffsetRsrpInterFreq must be configured.if measQuantInterFreq is set to 'rsrq' a3OffsetRsrpInterFreq shall not be specified.
if measQuantInterFreq is set to 'rsrq' or 'both' a3OffsetRsrqInterFreq must be configured.if measQuantInterFreq is set to 'rsrp' a3OffsetRsrqInterFreq shall not be specified.
if measQuantInterFreq is set to 'rsrp' or 'both' a3ReportIntervalRsrpInterFreq shall be configured.if measQuantInterFreq is set to 'rsrq' a3ReportIntervalRsrpInterFreq shall not be specified.if measQuantInterFreq is set to 'rsrq' or 'both' a3ReportIntervalRsrqInterFreq must be configured.if measQuantInterFreq is set to 'rsrp' a3ReportIntervalRsrqInterFreq shall not be specified.if measQuantInterFreq is set to 'rsrp' or 'both' a3TimeToTriggerRsrpInterFreq must be configured.if measQuantInterFreq is set to 'rsrq' a3TimeToTriggerRsrpInterFreq shall not be specified.if measQuantInterFreq is set to 'rsrq' or 'both' a3TimeToTriggerRsrqInterFreq must be configured.if measQuantInterFreq is set to 'rsrp' a3TimeToTriggerRsrqInterFreq shall not be specified.
eutraCarrierInfo must be unique in scope of the LNCEL instance and it need to be different to the earfcnDL of the superior LNCEL instance.
If measQuantInterFreq is set to 'rsrp' or 'both' hysA3OffsetRsrpInterFreq must be configured.If measQuantInterFreq is set to 'rsrq' hysA3OffsetRsrpInterFreq shall not be specified.
If measQuantInterFreq is set to 'rsrq' or 'both' hysA3OffsetRsrqInterFreq must be configured.If measQuantInterFreq is set to 'rsrp' hysA3OffsetRsrqInterFreq shall not be specified
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
• LTE971 Intra-LTE mobility offsets (standard)
• LTE736 CS fallback to UTRAN (optional)
If measQuantInterFreq is 'rsrp' or 'both' all of following conditions need to be fulfilled:- then a3OffsetRsrpInterFreq must be defined, otherwise a3OffsetRsrpInterFreq does not need to be specified
threshold3InterFreq must be greater than threshold4
threshold1 must be greater than threshold3InterFreq - applicable if threshold2a is not configured
• LTE55 Inter-frequency handover (optional)
• LTE55 Inter-frequency handover (optional)
thresholdRsrqIFLBFilter is mandatory required if - actInterFreqLB is set to ‘true’ AND- thresholdRsrpIFLBFilter is not configured
• LTE1387 Intra eNB Inter-frequency load balancing (optional)• LTE1170 Inter-frequency load balancing (optional)
thresholdRsrpIFLBFilter is mandatory required if - actInterFreqLB is set to ‘true’ AND- thresholdRsrqIFLBFilter is not configured
• LTE1387 Intra eNB Inter-frequency load balancing (optional)
b1ThresholdCSFBUtraEcn0 is mandatory is required if actCsfbPsHoToUtra is set to 'true' and measQuantityCSFBUtra is set to 'cpich-EcN0'.
• LTE736 CS fallback to UTRAN (optional)
b1ThresholdCSFBUtraRscp is mandatory required if actCsfbPsHoToUtra is set to 'true' and measQuantityCSFBUtra is set to 'cpich-RSCP'.
• LTE736 CS fallback to UTRAN (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE736 CS fallback to UTRAN (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE736 CS fallback to UTRAN (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
• LTE56 Inter RAT handover to WCDMA (optional)
If a LNRELW instance is configured, following conditions must be fullfilled for this LNCEL instance:- threshold4 must be smaller than b2Threshold1Utra
• LTE56 Inter RAT handover to WCDMA (optional)
If a LNRELW instance is configured, following condition must be fullfilled for this LNCEL instance:- if measQuantityUtra is set to 'cpichEcN0' b2Threshold2UtraEcn0 must be configured.
• LTE56 Inter RAT handover to WCDMA (optional)
If a LNRELW instance is configured, following condition must be fullfilled for this LNCEL instance: - if measQuantityUtra is set to 'cpichRSCP' b2Threshold2UtraRscp must configured.
• LTE56 Inter RAT handover to WCDMA (optional)
hysB2ThresholdUtra must be configured if b2Threshold2UtraRscp or b2Threshold2UtraEcn0 is specified.
In an LNCEL instance the number of LNRELW instances where - parameter csfbPsHoAllowed is set to 'allowed' AND - the carrier frequency (uTargetFreq) in the LNADJW instance this LNRELW refers to is identical
Must be unique in the scope of one LNCEL instance.
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1910 S1 lock/unlock (standard)
In an LNCEL instance the number of LNRELX instances where - parameter e1xCsfbAllowed is set to 'allowed' AND - the carrier frequency (combination of: bandclass + arfcn) in the LNADJX instance this LNRELX refers to is identical
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
In an LNCEL instance the number of LNRELX instances where - parameter e1xCsfbAllowed is set to 'allowed' AND - the carrier frequency (combination of: bandclass + arfcn) in the LNADJX instance this LNRELX refers to is identical
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
Actual range depends on mncLength: if mncLength=2 then range is 00...99, if mncLength=3 then range 000...999
The value of mncLength determines whether the mnc is of 2 digits or 3 digits length.
The combination of ipAddrPrim and transportNwId must be unique in all LNMME instances, i.e. per each configured transport network the IP address must be unique.
• LTE775 SCTP multi-homing (standard)• LTE2 S1 Flex (optional)• LTE505 Transport Separation for RAN Sharing (optional)• LTE125 IPv4/IPv6 dual stack (standard)
• LTE775 SCTP multi-homing (standard)• LTE2 S1 Flex (optional)• LTE505 Transport Separation for RAN Sharing (optional)• LTE125 IPv4/IPv6 dual stack (standard)The LNMME instance with lnMmeId '0' must exist.
The combination of ipAddrPrim and transportNwId must be unique in all LNMME instances, i.e. per each configured transport network the IP address must be unique.
• LTE1 S1/X2 data path management (standard)• LTE2 S1 Flex (optional)• LTE505 Transport Separation for RAN Sharing (optional)
Per configured transportNwId the ipAddrPrim must be unique in all LNMME instances.
• LTE505 Transport Separation for RAN Sharing (optional)
No duplicated relations to a HRPD neighbour cell is allowed, i.e. the LNNEIH cell global identity (combination of: hrpdBandClass + hrpdArfcn + hrpdPnOffset) must be unique within all LNNEIH instances belonging to same LNCEL instance.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
No duplicated relations to a HRPD neighbour cell is allowed, i.e. the LNNEIH cell global identity (combination of: hrpdBandClass + hrpdArfcn + hrpdPnOffset) must be unique within all LNNEIH instances belonging to same LNCEL instance.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
No duplicated relations to a HRPD neighbour cell is allowed, i.e. the LNNEIH cell global identity (combination of: hrpdBandClass + hrpdArfcn + hrpdPnOffset) must be unique within all LNNEIH instances belonging to same LNCEL instance.
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE1140 Intra-frequency load balancing (optional)
Determines length of MNC.
• LTE1383 ANR Robustness (standard)
• LTE971 Intra-LTE mobility offsets (standard)• LTE1140 Intra-frequency load balancing (optional)
The global cell identity of the LNREL object must be different to the cell global identity of the parent LNCEL object, i.e.LNREL cell global identity (ecgiAdjEnbId + ecgiLcrId + ecgiPlmnId) must be different from the LNCEL global identity (lnBtsId (LNBTS) + lcrId (LNCEL) + mcc (LNBTS) + mnc (LNBTS)+
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
The global cell identity of the LNREL object must be different to the cell global identity of the parent LNCEL object, i.e.LNREL cell global identity (ecgiAdjEnbId + ecgiLcrId + ecgiPlmnId) must be different from the LNCEL global identity (lnBtsId (LNBTS) + lcrId (LNCEL) + mcc (LNBTS) + mnc (LNBTS)+
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
The global cell identity of the LNREL object must be different to the cell global identity of the parent LNCEL object, i.e.LNREL cell global identity (ecgiAdjEnbId + ecgiLcrId + ecgiPlmnId) must be different from the LNCEL global identity (lnBtsId (LNBTS) + lcrId (LNCEL) + mcc (LNBTS) + mnc (LNBTS)+
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)
The actual range depends on the MNC length: if length=2, then range is 00...99, if length=3 then range is 000...999
• LTE771 Optimization of Intra-LTE neighbor relations (standard)
• LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (optional)• LTE106 6 cell support with one System Module (standard)
• LTE771 Optimization of Intra-LTE neighbor relations (standard)
Determines length of MNC.
• LTE873 SRVCC to GSM (optional)
• LTE736 CS fallback to UTRAN (optional)
There must be no duplicate relations to a neighbour cell, i.e. the LNRELG cell global identity (plmnId + lac + ci) must be unique within all subordinate LNRELG objects of a LNCEL object.
• LTE873 SRVCC to GSM (optional)• LTE442 Network Assisted Cell Change to GSM (optional)• LTE984 GSM redirect with system information (optional)• LTE442 Network Assisted Cell Change to GSM (optional)
There must be no duplicate relations to a neighbour cell, i.e. the LNRELG cell global identity (plmnId + lac + ci) must be unique within all subordinate LNRELG objects of a LNCEL object.
• LTE873 SRVCC to GSM (optional)• LTE442 Network Assisted Cell Change to GSM (optional)• LTE984 GSM redirect with system information (optional)If a LNRELG instance is configured, following
conditions must be fullfilled for this LNCEL instance- a2TimeToTriggerActGERANMeas must be configured
• LTE873 SRVCC to GSM (optional)• LTE442 Network Assisted Cell Change to GSM (optional)• LTE984 GSM redirect with system information (optional)• LTE507 Optimization of InterRAT neighbors (standard)
There must be no duplicate relations to a neighbour cell, i.e. the LNRELG cell global identity (plmnId + lac + ci) must be unique within all subordinate LNRELG objects of a LNCEL object.
• LTE873 SRVCC to GSM (optional)• LTE442 Network Assisted Cell Change to GSM (optional)• LTE984 GSM redirect with system information (optional)
The actual range depends on the MNC length: if length=2, then range is 00...99, if length=3 then range is 000...999
Maximum 16 LNRELG objects per LNCEL can be set to 'allowed'.
• LTE984 GSM redirect with system information (optional)
In an LNCEL instance the number of LNRELW instances where - parameter csfbPsHoAllowed is set to 'allowed' AND - the carrier frequency (uTargetFreq) in the LNADJW instance this LNRELW refers to is identical
Determines length of MNC.
• LTE872 SRVCC to WCDMA (optional)
If a LNRELW instance is configured, following conditions must be fullfilled for this LNCEL instance- measQuantityUtra must be 'cpichRSCP' or 'cpichEcN0'
• LTE56 Inter RAT handover to WCDMA (optional)• LTE736 CS fallback to UTRAN (optional)• LTE872 SRVCC to WCDMA (optional)
• LTE507 Optimization of InterRAT neighbors (standard)
There must be no duplicate relations to a neighbour cell, i.e. the LNRELW cell global identity (plmnId + uTargetRncId + uTargetCid) must be unique within all subordinate LNRELW instances of an LNCEL instance.
• LTE56 Inter RAT handover to WCDMA (optional)• LTE736 CS fallback to UTRAN (optional)• LTE872 SRVCC to WCDMA (optional)
The actual range depends on the MNC length: if length=2, then range is 00...99, if length=3 then range is 000...999
In an LNCEL instance the number of LNRELW instances where - parameter psHoAllowed is set to 'allowed' OR - parameter srvccAllowed is set to 'allowed' AND the carrier frequency (uTargetFreq) in the LNADJW instance this LNRELW refers to is identical
• LTE56 Inter RAT handover to WCDMA (optional)• LTE872 SRVCC to WCDMA (optional)
In an LNCEL instance the number of LNRELW instances where - parameter psHoAllowed is set to 'allowed' OR - parameter srvccAllowed is set to 'allowed' AND the carrier frequency (uTargetfreq) in the LNADJW instance this LNRELW refers to is identical
There must be no duplicate relations to a neighbour cell, i.e. the LNRELW cell global identity (plmnId + uTargetRncId + uTargetCid) must be unique within all subordinate LNRELW instances of an LNCEL instance.
• LTE56 Inter RAT handover to WCDMA (optional)• LTE736 CS fallback to UTRAN (optional)• LTE872 SRVCC to WCDMA (optional)• LTE1342 Extended RNC ID (standard)
There must be no duplicate relations to a neighbour cell, i.e. the LNRELW cell global identity (plmnId + uTargetRncId + uTargetCid) must be unique within all subordinate LNRELW instances of an LNCEL instance.
• LTE56 Inter RAT handover to WCDMA (optional)• LTE736 CS fallback to UTRAN (optional)• LTE872 SRVCC to WCDMA (optional)• LTE1342 Extended RNC ID (standard)
In an LNCEL instance the number of LNRELX instances where - parameter e1xCsfbAllowed is set to 'allowed' AND - the carrier frequency (combination of: bandclass + arfcn) in the LNADJX instance this LNRELX refers to is identical
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
In an LNCEL instance the number of LNRELX instances where - parameter e1xCsfbAllowed is set to 'allowed' AND - the carrier frequency (combination of: bandclass + arfcn) in the LNADJX instance this LNRELX refers to is identical
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE144 Transport Admission Control (standard)
• LTE144 Transport Admission Control (standard)
• LTE144 Transport Admission Control (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
In an LNCEL instance the number of LNRELX instances where - parameter e1xCsfbAllowed is set to 'allowed' AND - the carrier frequency (combination of: bandclass + arfcn) in the LNADJX instance this LNRELX refers to is identical
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
No duplicated relations to a 1xRTT neighbour cell is allowed, i.e. the LNRELX identity (combination of: marketId + swNo + cellId + sectorId + bandClass + arfcn + pnOffset) must be unique within all LNRELX instances belonging to same
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE144 Transport Admission Control (standard)• LTE505 Transport Separation for RAN Sharing (optional)
• LTE505 Transport Separation for RAN Sharing (optional)
The additional frequency band defined by addFreqBandInd and the frequency band of all LNCEL instances having same earfcnDL than the profile (i.e. MFBIPR-eutraCarrierFreq is equal to LNCEL-earfcnDL) must fully overlap.
• LTE1534 Multiple Frequency Band Indicator (standard)
addSpectrEmissReq must be configured if there is at least one LNCEL instance with earfcnDL set identical to the configured eutraCarrierFreq in the MFBIPR instance.
• LTE1534 Multiple Frequency Band Indicator (standard)
The configured eutraCarrierFreq must be unique within all MFBIPR instances.
If there is at least one LNCEL instance with earfcnDL set identical to the configured eutraCarrierFreq in the MFBIPR instance, addSpectrEmissReq must be configured.
• LTE1534 Multiple Frequency Band Indicator (standard)
• LTE1534 Multiple Frequency Band Indicator (standard)
• LTE145 LTE Configuration Management (standard)
• LTE145 LTE Configuration Management (standard)
• LTE145 LTE Configuration Management (standard)
Identifies the specific antenna line id.
When parameter connection is set to value 'External' the value of antlId must be set identical to the value of scannedAntennaInterface.
• LTE106 6 cell support with one System Module (standard)• LTE1247 Multiradio System Module extended LTE configurations (standard)• LTE145 LTE Configuration Management (standard)
If parameter connection is set to value 'External' the value of antlId must be set identical to the value of scannedAntennaInterface. If connection is set to value 'Internal' or 'Shared' there are no restrictions for the value in antlId
• LTE145 LTE Configuration Management (standard)
• LTE145 LTE Configuration Management (standard)
• LTE145 LTE Configuration Management (standard)
• LTE145 LTE Configuration Management (standard)• LTE630 CN4265 FLMA Dual MHA 800 MHz (standard)
When parameter connection is set to value 'External' the value of antlId must be set identical to the value of scannedAntennaInterface.
• LTE106 6 cell support with one System Module (standard)• LTE1195 FHCC Repeater Interface Module (standard)
cdmaHrpdBdClL is allowed to be configured only in one MODIMP instance
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
cdmaRttBdClL is allowed to be configured only in one MODIMP instance
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
dlCarFrqEutL is allowed to be configured only in one MODIMP instance
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
• LTE487 Idle mode mobility load balancing (standard)
• LTE487 Idle mode mobility load balancing (standard)
• LTE736 CS fallback to UTRAN (optional)
• LTE736 CS fallback to UTRAN (optional)
• LTE490 SPID selective mobility profiles (optional)
if geranCarFrqIdleModeL is configured in the same MODIMP instance, geranCarFrqBd is mandatory required
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
if geranCarFrqBd is configured in the same MODIMP geranCarFrqIdleModeL is mandatory required
All frequencies in geranCarFrqIdleModeL of one MODIMP instance are considered to belong to the same frequency band.
utrFddCarFrqL is allowed to be configured only in one MODIMP instance
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
• LTE490 SPID selective mobility profiles (optional)• LTE487 Idle mode mobility load balancing (standard)
• LTE490 SPID selective mobility profiles (optional)
• LTE872 SRVCC to WCDMA (optional)
• LTE487 Idle mode mobility load balancing (standard)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE873 SRVCC to GSM (optional)
actSelMobPrf can be set to 'true' only if a default profile MODPR exists or is created in parallel with the feature activation.
All items in refFreqListNaccGeran of the MODPR instance are considered to belong to the same frequency band.
Hint:
All items in refFreqListSrvccGsm of the MODPR instance are considered to belong to the same frequency band.
Hint:
The parameter addGsmSIToRedirMsg is mandatory required if - actGsmRedirWithSI is set to 'true' AND- redirRAT is set to 'geran'.
• LTE984 GSM redirect with system information (optional)
If for csFallBPrio a priority is configured redirRAT must be set to 'geran' or 'utraFDD' in this MODRED instance
If actIdleLB is set to 'false' the configured csFallBPrio must be unique for all MODRED instances belonging to same MODPR.
• LTE490 SPID selective mobility profiles (optional)• LTE487 Idle mode mobility load balancing (standard)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
If for emerCallPrio a priority is configured all of the following conditions must be fulfilled - redirRAT must be set to 'geran' or 'utraFDD' in this MODRED instance- emerCallPrio must be unique for all MODRED instances belonging to same MODPR.
redirBandCdma must be configured if redirRAT is set to 'cdma2000HRPD' or 'cdma20001xRTT'.
redirFreqCdma must be configured if redirRAT is set to 'cdma2000HRPD' or 'cdma20001xRTT'.
redirFreqEutra must be configured if redirRAT is set to 'eutra'.
redirFreqUtra must be configured if redirRAT is set to 'utraFDD' or 'utraTDD'.
redirGeranArfcnValueL must be configured if redirRAT is set to 'geran',
redirGeranBandIndicator must be configured if redirRAT is set to 'geran'.
If redirRAT is set to 'cdma2000HRPD' or 'cdma20001xRTT' following configuration is needed- redirBandCdma must be configured- redirFreqCdma must be configured
• LTE490 SPID selective mobility profiles (optional)• LTE984 GSM redirect with system information (optional)
If actIdleLB is set to 'false' the configured redirectPrio must be unique for all MODRED instances belonging to same MODPR.
• LTE490 SPID selective mobility profiles (optional)• LTE487 Idle mode mobility load balancing (standard)
cdmaHrpdBdClL is allowed to be configured only in one MOIMP instance belonging to same MOPR
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
• LTE487 Idle mode mobility load balancing (standard)
• LTE487 Idle mode mobility load balancing (standard)
cdmaRttBdClL is allowed to be configured only in one MOIMP instance belonging to same MOPR
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
dlCarFrqEutL is allowed to be configured only in one MOIMP instance belonging to same MOPR
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
if geranCarFrqIdleModeL is configured in the same MOIMP instance, geranCarFrqBd is mandatory required
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
if geranCarFrqBd is configured in the same MOIMP geranCarFrqIdleModeL is mandatory required.
All frequencies in geranCarFrqIdleModeL of one MOIMP instance are considered to belong to the same frequency band.
• LTE736 CS fallback to UTRAN (optional)
• LTE736 CS fallback to UTRAN (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE872 SRVCC to WCDMA (optional)
• LTE487 Idle mode mobility load balancing (standard)
• LTE490 SPID selective mobility profiles (optional)
utrFddCarFrqL is allowed to be configured only in one MOIMP instance belonging to same MOPR
• LTE487 Idle mode mobility load balancing (standard)• LTE1677 Idle mode mobility balancing extensions (standard)
If a Mobility Profile is assigned to one or more SPIDs (moPrMappingList-moPrId), the MOPR instance must exist, ie. the instance can't be deleted in such case without modification of the SPID configuration..
• LTE490 SPID selective mobility profiles (optional)• LTE487 Idle mode mobility load balancing (standard)
All items in refFreqListNaccGeran of the MOPR instance are considered to belong to the same frequency band.Hint:The LNHOG parameter bandIndicatorGERAN is only relevant for ARFCN values 512 - 810.
• LTE873 SRVCC to GSM (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
All items in refFreqListSrvccGsm of the MOPR instance are considered to belong to the same frequency band.Hint:The LNHOG parameter bandIndicatorGERAN is only relevant for ARFCN values 512 - 810.
The parameter addGsmSIToRedirMsg is mandatory required if - actGsmRedirWithSI is set to 'true' AND- redirRAT is set to 'geran'.
• LTE984 GSM redirect with system information (optional)
If for csFallBPrio a priority is configured redirRAT must be set to 'geran' or 'utraFDD' in this MORED instance
If actIdleLB is set to 'false' the configured csFallBPrio must be unique for all MORED instances belonging to same MOPR.
• LTE490 SPID selective mobility profiles (optional)• LTE487 Idle mode mobility load balancing (standard)
If for emerCallPrio a priority is configured all of the following conditions must be fulfilled - redirRAT must be set to 'geran' or 'utraFDD' in this MORED instance- emerCallPrio must be unique for all MORED instances belonging to same MOPR.
redirBandCdma must be configured if redirRAT is set to 'cdma2000HRPD' or 'cdma20001xRTT'.
redirFreqCdma must be configured if redirRAT is set to 'cdma2000HRPD' or 'cdma20001xRTT'.
redirFreqEutra must be configured if redirRAT is set to 'eutra'.
redirFreqUtra must be configured if redirRAT is set to 'utraFDD' or 'utraTDD'.
• LTE490 SPID selective mobility profiles (optional)
• LTE490 SPID selective mobility profiles (optional)
• LTE720 Auto Configuration (standard)
• LTE720 Auto Configuration (standard)
redirGeranArfcnValueL must be configured if redirRAT is set to 'geran',
redirGeranBandIndicator must be configured if redirRAT is set to 'geran'.
If redirRAT is set to 'cdma2000HRPD' or 'cdma20001xRTT' following configuration is needed- redirBandCdma must be configured- redirFreqCdma must be configured
• LTE490 SPID selective mobility profiles (optional)• LTE984 GSM redirect with system information (optional)
If actIdleLB is set to 'false' the configured redirectPrio must be unique for all MORED instances belonging to same MOPR.
• LTE490 SPID selective mobility profiles (optional)• LTE487 Idle mode mobility load balancing (standard)
• LTE521 Security for Ethernet ports on FCM/FSM2 (standard)• LTE593 Security for Ethernet ports on FCT/FSM3 (standard)
• LTE154 Auto Connectivity (optional)• LTE720 Auto Configuration (standard)
• LTE154 Auto Connectivity (optional)• LTE720 Auto Configuration (standard)
• LTE154 Auto Connectivity (optional)• LTE720 Auto Configuration (standard)
• LTE954 Intelligent configuration syncronization (standard)
• LTE954 Intelligent configuration syncronization (standard)
• LTE654 BTS Configuration Management (standard)
• LTE145 LTE Configuration Management (standard)
• LTE720 Auto Configuration (standard)
• LTE954 Intelligent configuration syncronization (standard)
• LTE154 Auto Connectivity (optional)• LTE720 Auto Configuration (standard)
• LTE154 Auto Connectivity (optional)• LTE720 Auto Configuration (standard)
mrbtsId must be same as LNBTS/lnBtsId, BTSSCL/btsid and IPNO/btsid.
• LTE435 SW support for RF sharing WCDMA-LTE (optional)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE433 Basic LTE Cell Trace (optional)
• LTE1099 Event-triggered symptom data collection and provisioning (standard)
• LTE145 LTE Configuration Management (standard) • LTE447 SW support for RF sharing GSM-LTE (optional)• LTE106 6 cell support with one System Module (standard)
When rfSharingEnabled is set to value 'true' secondaryConnection is mandatory required.
• LTE433 Basic LTE Cell Trace (optional)
• LTE433 Basic LTE Cell Trace (optional)
• LTE433 Basic LTE Cell Trace (optional)
• LTE644 Configurable cell trace content (standard)
• LTE459 LTE Timing Advance Evaluation (standard)• LTE644 Configurable cell trace content (standard)
The the specified E-UTRAN Trace-Id, in particular the combination of ("eutranTraceIdMcc"+"eutranTraceIdMnc"+"eutranTraceIdMncLen"+"traceId") must be unique within the BTS.
• LTE433 Basic LTE Cell Trace (optional)• LTE644 Configurable cell trace content (standard)
Only if traceRrcSetting has been set to 'Specific', this parameter shall be present.Only if traceRrcMsgCategory has been set to 'UEspecific' or 'All', the traceRrcUeSpecMsgList parameter shall be present.
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE644 Configurable cell trace content (standard)
• LTE140 Ethernet OAM (optional)
Only if traceRrcMsgCategory has been set to 'nonUEspecific' or 'All', this parameter shall be present.
Only if traceRrcSetting has been set to 'Specific', the traceRrcMsgCategory parameter shall be present.
Only if traceRrcMsgCategory has been set to 'UEspecific' or 'All', this parameter shall be present.
Only if traceS1Setting has been set to 'Specific', this parameter shall be present.Only if traceS1MsgCategory has been set to 'UEspecific' or 'All', the traceS1UeSpecMsgList parameter shall be present.Only if traceS1MsgCategory has been set to 'nonUEspecific' or 'All', this parameter shall be present.
Only if traceS1Setting has been set to 'Specific', the traceS1MsgCategor parameter shall be present.
Only if traceS1MsgCategory has been set to 'UEspecific' or 'All', this parameter shall be present.
Only if traceX2Setting has been set to 'Specific', this parameter shall be present.Only if traceX2MsgCategory has been set to 'UEspecific' or 'All', the traceX2UeSpecMsgList parameter shall be present.Only if traceX2MsgCategory has been set to 'nonUEspecific' or 'All', this parameter shall be present.
Only if traceX2Setting has been set to 'Specific', the traceX2MsgCategory parameter shall be present.
Only if traceX2MsgCategory has been set to 'UEspecific' or 'All', this parameter shall be present.
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE140 Ethernet OAM (optional)
• LTE877 Adjustable Performance Upload (standard)
• LTE877 Adjustable Performance Upload (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE60 Inter RAT handover to HRPD/3GPP2 (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE1361 Additional QoS performance measurements (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management Administration (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)• LTE891 Timing over Packet with phase synchronization (optional)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)• LTE891 Timing over Packet with phase synchronization (optional)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE602 Performance Management add. features from RL10, Configuration Management (standard)
• LTE 707 2xGE + 4xE1/T1/JT1 + ToP + Sync Ethernet FlexiBTS Transport Sub-module FTIB (standard)• LTE710 Synchronization from PDH interface (standard)Defining the PDH line build out parameter shall
only be possible for T1 interfaces (pdhLineType = SUPERFRAME or pdhLineType = EXTENDED_SUPERFRAME).
• LTE 707 2xGE + 4xE1/T1/JT1 + ToP + Sync Ethernet FlexiBTS Transport Sub-module FTIB (standard)• LTE710 Synchronization from PDH interface (standard)When setting the PDH line type to its interface
type (E1/T1/JT1), the BTS switches on all interfaces of the unit to the default values for that interface type. In the second configuration step the framing format within this interface type can be
• LTE 707 2xGE + 4xE1/T1/JT1 + ToP + Sync Ethernet FlexiBTS Transport Sub-module FTIB (standard)• LTE710 Synchronization from PDH interface (standard)• LTE 707 2xGE + 4xE1/T1/JT1 + ToP + Sync Ethernet FlexiBTS Transport Sub-module FTIB (standard)• LTE710 Synchronization from PDH interface (standard)• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE806 Performance CounterPlus Package for Transport I (optional)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)• LTE866 Fast IP rerouting (Transport Path Protection) (optional)• LTE125 IPv4/IPv6 dual stack (standard)• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)• LTE866 Fast IP rerouting (Transport Path Protection) (optional)
• LTE131 Traffic prioritization on IP layer (Diffserv) (standard)• LTE866 Fast IP rerouting (Transport Path Protection) (optional)
The parameter addGsmSIToRedirMsg is mandatory required if - actGsmRedirWithSI is set to 'true' AND- redirRat is set to 'geran'.
• LTE984 GSM redirect with system information (optional)
If actCSFBRedir is set to 'Enabled' following condition need to be fulfilled:- at least one instance of REDRT instance must be created per LNCEL where csFallBPrio is configured
• LTE562 CSFB to UTRAN or GSM via redirect (optional)• LTE487 Idle mode mobility load balancing (standard)• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)If actEmerCallRedir is set to 'true' following
condition need to be fulfilled:- at least one instance of REDRT must be created per LNCEL where emerCallPrio is configured- if reDirRat is set to 'eutra', 'cdma20001xRTT' or 'cdma2000HRPD', emerCallPrio shall not be specified.
• LTE22 Emergency Call handling (optional)• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE145 LTE Configuration Management (standard)
value should be between minAngle and maxAngle
redirBandCdma must be configured if redirRat is set to 'cdma2000HRPD' or 'cdma20001xRTT'.
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE423 RRC connection release with redirect (standard)• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
redirFreqCdma must be configured if redirRat is set to 'cdma2000HRPD' or 'cdma20001xRTT'.
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE423 RRC connection release with redirect (standard)• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
redirFreqEutra must be configured if redirRAT is set to eutra.
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE423 RRC connection release with redirect (standard)
redirFreqUtra must be configured if redirRAT is set to utraFDD or utraTDD.
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE423 RRC connection release with redirect (standard)
redirGeranArfcnValueL must be configured if redirRat is set to 'geran'
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE423 RRC connection release with redirect (standard)
redirGeranBandIndicator must be configured if redirRat is set to 'geran'
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE423 RRC connection release with redirect (standard)
If redirRat is set to 'eutra' following configuration is needed- redirFreqEutra must be configured- redirectPrio must be configured
• LTE490 SPID selective mobility profiles (optional)• LTE984 GSM redirect with system information (optional)• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)If actRedirect is set to 'enabled', at least one
REDRT instance per LNCEL with configured redirectPrio must exist.
If actIdleLB is set to 'false' the configured redirectPrio must be unique in the scope of all REDRT instances belonging to the same cell.
• LTE423 RRC connection release with redirect (standard)• LTE487 Idle mode mobility load balancing (standard)
At least one instance of REDRT must be created per LNCEL if one of the following conditions is fulfilled:- actCSFBRedir is set to 'true'- actEmerCallRedir is set to 'Enabled'
• LTE761 Advanced target cell selection and handover retry for intra frequency handover (standard)• LTE423 RRC connection release with redirect (standard)• LTE22 Emergency Call handling (optional)
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
Identifies the specific antenna line id.
When parameter connection is set to value 'External' the value of antlIdList must be set identical to the value of scannedAntennaInterface.
• LTE145 LTE Configuration Management (standard)• LTE106 6 cell support with one System Module (standard)• LTE1247 Multiradio System Module extended LTE configurations (standard)
If calibrationDone = FALSE, calibration is required
• LTE145 LTE Configuration Management (standard)
If configFileDlNeeded is required, it is recommended (not mandatory) that the user requests calibration, too.
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
If configFileDlNeeded = 'true', configurationFile is required
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
If configurationDone = 'false', configurationFile is required
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
configurationFile is downloaded if configFileDlNeeded ='true' also
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
If parameter connection is set to value 'External' the value of antlIdList must be set identical to the value of scannedAntennaInterface. If connection is set to value 'Internal' or 'Shared' there are no restrictions for the value in antlIdList
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
• LTE145 LTE Configuration Management (standard)
• LTE145 LTE Configuration Management (standard)
• LTE145 LTE Configuration Management (standard)
• LTE595 FSMr3b: Full support (standard)
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
retAntUnitNumber must be configured to '1' if retDeviceType is set to 'SingleAntennaDevice'.
• LTE1657 Support for Multi-RET antenna types (standard)
If retDeviceType is set to 'SingleAntennaDevice', retAntUnitNumber must be configured to '1'.
• LTE1657 Support for Multi-RET antenna types (standard)
When parameter connection is set to value 'External' the value of antlIdList must be set identical to the value of scannedAntennaInterface.
• LTE145 LTE Configuration Management (standard)• LTE447 SW support for RF sharing GSM-LTE (optional) • LTE106 6 cell support with one System Module (standard)
• LTE160 Flexi Multimode BTS 3GPP Antenna Tilt Support (optional)
When rfSharingEnabled is set to value 'true' the connectionList must contain another list item with a different sModId for the shared radio modules.
• LTE447 SW support for RF sharing GSM-LTE (optional) • LTE435 SW support for RF sharing WCDMA-LTE (optional)
• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)
When rfSharingEnabled is set to value 'true' and external alarm shall be send via the LTE BTS, usedInEutra need to be set to value 'true'.
• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)
no relations • LTE1 S1/X2 data path management (standard)
• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE106 6 cell support with one System Module (standard)• LTE1195 FHCC Repeater Interface Module (standard)• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)assocMaxRetrans must be smaller than or equal
two times of pathMaxRetrans• LTE1 S1/X2 data path management (standard)• LTE775 SCTP Multi-homing (MME) (standard)
assocMaxRetrans must be smaller than or equal two times of pathMaxRetrans
• LTE1 S1/X2 data path management (standard)• LTE775 SCTP Multi-homing (MME) (standard)
rtoMax must be bigger than or equal to rtoMin • LTE1 S1/X2 data path management (standard)
rtoMin must be less than or equal to rtoMax • LTE1 S1/X2 data path management (standard)
• LTE1 S1/X2 data path management (standard)
• LTE1 S1/X2 data path management (standard)
• LTE595 FSMr3b: Full support (standard)
• LTE145 LTE Configuration Management (standard) • LTE447 SW support for RF sharing GSM-LTE (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)
• LTE145 LTE Configuration Management (standard) • LTE447 SW support for RF sharing GSM-LTE (optional)• LTE1174-C CRL0811 Removal of Flexi Lite LTE1072 and LTE1174 and LTE1360 from RL50 (standard)
When rfSharingEnabled is set to value 'true' the linkList must be configured, for rfSharingEnable set to 'false' it shall not be defined.
• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE435 SW support for RF sharing WCDMA-LTE (optional)
When rfSharingEnabled is set to value 'true' linkList-radioMaster shall for the LTE SMOD instance be configured to - 'true' in LTE-2G RF sharing for shared and LTE dedicated radio modules. LTE dedicated radio modules are not yet officially supported in RF sharing configurations.
• LTE447 SW support for RF sharing GSM-LTE (optional)
• LTE447 SW support for RF sharing GSM-LTE (optional)
• LTE713 Synchronous Ethernet (optional)
• LTE713 Synchronous Ethernet (optional)
• LTE447 SW support for RF sharing GSM-LTE (optional)
• LTE447 SW support for RF sharing GSM-LTE (optional)
syncMaster should be set according to the RF sharing technologies like below:- LTE-2G RF sharing: in the LTE SMOD instance (technology set to 'EUTRA') syncMaster must be set to 'true', in the 2G SMOD instance (technology set to 'GERAN') syncMaster must be set to 'false',
• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE435 SW support for RF sharing WCDMA-LTE (optional)When rfSharingEnabled is set to value 'true'
technology must be set for the different RF sharing technologies for - LTE-2G RF sharing: there must be one SMOD instance for LTE with technology set to 'EUTRA' and one SMOD instance for 2G with technology set to 'GERAN',
• LTE447 SW support for RF sharing GSM-LTE (optional)• LTE435 SW support for RF sharing WCDMA-LTE (optional)• LTE710 Synchronization from PDH interface (standard)• LTE134 Timing over Packet (optional)• LTE713 Synchronous Ethernet (optional)
• LTE134 Timing over Packet (optional)• LTE710 Synchronization from PDH interface (standard)• LTE713 Synchronous Ethernet (optional)
For physical interfaces, the interfaceNumber should be considered in conjunction with the unitNumber and the clockProtocol, since the available interfaces depend on the referenced unit, and the selected clock protocol.
• LTE710 Synchronization from PDH interface (standard)• LTE134 Timing over Packet (optional)• LTE713 Synchronous Ethernet (optional)
• LTE134 Timing over Packet (optional)• LTE710 Synchronization from PDH interface (standard)• LTE713 Synchronous Ethernet (optional)
The parameter ssmEnabled is only relevant in case the value of parameter clockProtocol is equal to clkSyncE (Synchronuous Ethernet clock source).
The parameter ssmEnabled is only relevant in case the value of parameter clockProtocol is equal to clkSyncE (Synchronuous Ethernet clock source).
• LTE134 Timing over Packet (optional)• LTE710 Synchronization from PDH interface (standard)• LTE713 Synchronous Ethernet (optional)
• LTE144 Transport Admission Control (standard)
• LTE134 Timing over Packet (optional)
• LTE134 Timing over Packet (optional)
• LTE134 Timing over Packet (optional)
• LTE134 Timing over Packet (optional)
• LTE134 Timing over Packet (optional)• LTE710 Synchronization from PDH interface (standard)• LTE711 Synchronization from 2.048MHz signal (standard)
• LTE891 Timing over Packet with phase synchronization (optional)• LTE134 Timing over Packet (optional)
If in MOI "STPG" - "synchroSourceList" one of the 2 entries parameter "clockProtocol" is set to "clkTop" then actTopPhaseSynch = false.MOI "TOPF::masterIpAddr" must be configured if actTopFreqSynch = TRUE.
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE574 Transport network measurement (optional)
• LTE574 Transport network measurement (optional)
• LTE574 Transport network measurement (optional)
• LTE574 Transport network measurement (optional)
• LTE574 Transport network measurement (optional)
• LTE574 Transport network measurement (optional)
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE891 Timing over Packet with phase synchronization (optional)
• LTE574 Transport network measurement (optional)• LTE125 IPv4/IPv6 dual stack (standard)
• LTE574 Transport network measurement (optional)
• LTE574 Transport network measurement (optional)
no relations
no relations
no relations
no relations
no relations
no relations
• LTE39 System information broadcast (standard)• LTE762 (standard)
• LTE39 System information broadcast (standard)• LTE762 (standard)
If SIB6 is scheduled in sibSchedulingList an instance of MOC UFFIM is mandatory required.
The creation of an UFFIM instance for the LNCEL instance is not allowed if the cell bandwidth dlChBw is equal to '1.4 MHz' or '3 MHz'.
• LTE39 System information broadcast (standard)• LTE762 Idle mode mobility from LTE to WCDMA, GSM or other LTE bands (standard)• LTE654 LTE Configuration Management (standard)• LTE843 ETWS broadcast (optional)• LTE39 System information broadcast (standard)• LTE762 Idle mode mobility from LTE to WCDMA, GSM or other LTE bands (standard)• LTE487 Idle mode mobility load balancing (standard)• LTE1036 RSRQ Based Cell Reselection (standard)The parameter dlCarFrqUtra must be set uniquely
in all instances of structure utrFddCarFrqL
no relations
no relations
no relations
• LTE1402 Uplink intra eNode B CoMP (standard)
• LTE1402 Uplink intra eNode B CoMP (standard)
• LTE1402 Uplink intra eNode B CoMP (standard)
• LTE147 LTE Hardware Management (standard)
• LTE147 LTE Hardware Management (standard)
uCelResPrio must be unequal to the setting of - cellReSelPrio in each LNCEL instance,- eutCelResPrio in each IRFIM instance,- gCelResPrio in each GNFL instance,- hrpdCResPrio in each CDFIM instance,utraFrqQThrHighR9 is mandatory required if threshServingLowQR9 of the LNCEL instance this UFFIM belongs to is configured.
utraFrqQThrHighR9 is mandatory required if utraFrqQThrLowR9 in this utrFddCarFrqL list set is configured.
utraFrqQThrLowR9 is mandatory required if threshServingLowQR9 of the LNCEL instance this UFFIM belongs to is configured.
utraFrqQThrLowR9 is mandatory required if utraFrqQThrHighR9 in this utrFddCarFrqL list set is configured.
Each cell can only be included into one ULCOMP instance.
If actUlCoMp is set to 'true' all of the following conditions shall be fulfilledIf actUlCoMp is set to 'true' at least one instance of ULCOMP must be configured.
• LTE147 LTE Hardware Management (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
The value of gcsnaL2AckTimer must be less than the value of gcsnaSequenceContextTimer.
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
The value gcsnaSequenceContextTimer must be greater than the value of gcsnaL2AckTimer.
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
LTE487 Idle mode mobility load balancing
LTE140 Ethernet OAM
LTE689 LTE IPsec Support for control and user plane
LTE689 LTE IPsec Support for control and user plane
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
If act1xCsfb is set to 'true' and for the LNCEL instance rttCsfbType is not set to 'forbidden' an instance of XPARAM must be created for this LNCEL.
• LTE1441 Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) (standard)
LTE487 Idle mode mobility load balancing
LTE487 Idle mode mobility load balancing
LTE28 Closed loop UL power control
LTE28 Closed loop UL power control
LTE28 Closed loop UL power control
LTE46 Channel aware scheduler (UL)
LTE497 Smart Admission Control
LTE497 Smart Admission Control
LTE497 Smart Admission Control
LTE144 Transport Admission Control
LTE144 Transport Admission Control
LTE843 ETWS broadcastLTE494 Commercial Mobile Alert System
Interfaces References
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.133• 3GPP Reference: TS36.311
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS25.331• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC• RAC -> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS <-> RAC• RAC <-> RACApp• EM <-> LTE BTS
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• 3GPP Reference: TS 36.331,
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331,
• 3GPP Reference: TS 36.331, TS 36.304
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• RAC <-> LTE BTS• RAC <-> RACApp• EM <-> LTE BTS
• RAC <-> LTE BTS• RACApp <-> RAC• EM <-> LTE BTS
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• RAC -> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM -> LTE BTS• RAC -> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> RACApp• LTE BTS <-> RAC
• LTE BTS -> EM• LTE BTS -> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RACApp <-> RAC• RAC <-> LTE BTS
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• 3GPP Reference: TS 36.331, TS 36.101
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331, TS 36.304
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS <-> RAC• RAC <-> RACApp• EM <-> LTE BTS
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.413, TS 36.423
• 3GPP Reference: TS 36.413, TS 36.423
• 3GPP Reference: TS 36.413, TS 36.423
• 3GPP Reference: TS 36.413, TS 36.423
• 3GPP Reference: TS 36.413, TS 36.423
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• 3GPP Reference: TS45.005
• 3GPP Reference: TS45.005
• 3GPP Reference: TS23.003
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS23.003
• 3GPP Reference: TS44.060
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.423
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331• 3GPP Reference: TS44.018
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• 3GPP Reference: TS 36.423
• 3GPP Reference: TS36.423
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• 3GPP Reference: TS36.104• 3GPP Reference: TS36.423
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• 3GPP Reference: TS 36.423
• 3GPP Reference: TS 36.423, TS 36.104
• 3GPP Reference: TS 36.423, TS 36.104
• 3GPP Reference: TS36.413
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• 3GPP Reference: TS36.104• 3GPP Reference: TS36.423
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS 25.413
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> RAC• LTE BTS -> EM
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• 3GPP Reference: TS36.413
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS23.401
• 3GPP Reference: TS36.413
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS33.401
• 3GPP Reference: TS33.401
• 3GPP Reference: TS33.401
• 3GPP Reference: TS33.401
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.413 9.1.8.4
• 3GPP Reference: TS36.423
• 3GPP Reference: TS36.423
• 3GPP Reference: TS36.423
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331• 3GPP Reference: TS36.413
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS36.423
• 3GPP Reference: TS36.423
• 3GPP Reference: TS33.401
• 3GPP Reference: TS33.401
• 3GPP Reference: TS33.401
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS33.401
• 3GPP Reference: TS 36.413, TS 36.423
• 3GPP Reference: TS 36.413, TS 36.423
• 3GPP Reference: TS 36.413, TS 36.423
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.413• 3GPP Reference: TS 36.423_9.2.24
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.423
• 3GPP Reference: TS36.423
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS -> RAC• LTE BTS -> EM
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.423
• 3GPP Reference: TS36.423
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331• 3GPP Reference: TS 36.323
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.323• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS23.203• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• 3GPP Reference: TS23.203
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.306• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.322• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 25.331
• 3GPP Reference: TS48.018
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• LTE BTS -> EM• LTE BTS -> RAC• RAC -> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: 36.211
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS25.123• 3GPP Reference: TS25.133
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS36.423
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331 + chapter• 3GPP Reference: TS 36.304
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.423
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.213• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS 36.213 V8.5.0
• 3GPP Reference: TS 36.213
• 3GPP Reference: TS 36.213
• 3GPP Reference: TS 36.213
• 3GPP Reference: TS 36.213
• 3GPP Reference: TS 36.213
• 3GPP Reference: TS 36.213
• 3GPP Reference: TS 36.331 (8.2.0) , TS 36.304
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.213• 3GPP Reference: TS36.331
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.213• 3GPP Reference: TS36.331
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.321, TS 36.331• 3GPP Reference: TS36.321
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.211
• 3GPP Reference: TS36.211
• 3GPP Reference: TS36.313
• 3GPP Reference: TS36.104
• 3GPP Reference: TS36.213
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• RAC <-> LTE BTS• EM <-> LTE BTS• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.213
• 3GPP Reference: TS36.213
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.321• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.104
• 3GPP Reference: TS36.104
• 3GPP Reference: TS 36.413
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.423-840
• 3GPP Reference: TS36.455
• 3GPP Reference: TS36.455
• 3GPP Reference: TS36.455
• 3GPP Reference: TS36.455
• 3GPP Reference: TS36.455
• 3GPP Reference: TS36.455
• 3GPP Reference: TS36.455
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.455
• 3GPP Reference: TS36.455
• 3GPP Reference: TS36.455
• 3GPP Reference: TS36.455
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.123• 3GPP Reference: TS 25.133• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.123• 3GPP Reference: TS 25.133• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: 36.211/5.5.1, 36.311/6.3.2
• 3GPP Reference: 36.331
• 3GPP Reference: 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: 36.211/5.3.4, 36.311/6.3.2
• 3GPP Reference: TS36.104
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331, TS 36.304
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• RAC <-> LTE BTS• EM <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.211
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.123• 3GPP Reference: TS 25.133• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.213
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.213
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.104
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• LTE BTS -> RAC• LTE BTS -> EM
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS 36.331• 3GPP Reference: TS 36.213
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: 36.211 / 6.9.3
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.211
• 3GPP Reference: TS36.211
• 3GPP Reference: TS 36.321
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.355
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.211• 3GPP Reference: TS36.331
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.211• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.211• 3GPP Reference: TS36.331
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.211• 3GPP Reference: TS36.211
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.211• 3GPP Reference: TS36.355
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.211• 3GPP Reference: TS36.355
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.355
• 3GPP Reference: TS36.355
• 3GPP Reference: TS36.211
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.305
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.211• 3GPP Reference: TS36.355
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331, TS 36.305
• 3GPP Reference: 36.321
• 3GPP Reference: TS 36.331 6.3.2
• 3GPP Reference: 36.331
• 3GPP Reference: 36.321
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• RAC <-> LTE BTS• EM <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.213
• 3GPP Reference: TS36.213
• 3GPP Reference: TS36.211
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.211
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS 36.331• 3GPP Reference: TS 36.213
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.300
• 3GPP Reference: 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS 36.331• 3GPP Reference: TS 36.323
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS 36.331• 3GPP Reference: TS 36.323
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.104
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• 3GPP Reference: TS36.211
• 3GPP Reference: TS36.213
• 3GPP Reference: TS 36.321
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.213
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331• 3GPP Reference: TS45.005• 3GPP Reference: TS45.008
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331• 3GPP Reference: TS45.005
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.123• 3GPP Reference: TS 25.133• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.123• 3GPP Reference: TS 25.133• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.123• 3GPP Reference: TS 25.133• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.133• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.123• 3GPP Reference: TS 25.133• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.123• 3GPP Reference: TS 25.133• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.331• 3GPP Reference: TS 36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.413 9.1.8.5
• 3GPP Reference: TS 36.413 9.1.8.5
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.413
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC• RAC -> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS25.413
• 3GPP Reference: TS25.413
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.413
• 3GPP Reference: TS36.413
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> RAC• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: AISG v.2.0
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: AISG v.2.0
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: AISG v.2.0
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: AISG v.2.0
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: AISG v.2.0
• 3GPP Reference: AISG v.2.0
• 3GPP Reference: AISG v.2.0
• 3GPP Reference: AISG v.2.0
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• 3GPP Reference: AISG v.2.0
• 3GPP Reference: AISG v.2.0
• LTE BTS -> EM• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> RAC
• LTE BTS -> RAC
• LTE BTS -> RAC
• LTE BTS -> RAC
• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> RAC• RAC -> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> RAC
• LTE BTS -> RAC
• LTE BTS -> EM• LTE BTS -> RAC• RAC -> RACApp
• RAC <-> RACApp• RAC <-> LTE BTS• EM <-> LTE BTS
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> RAC• RAC <-> RACApp• EM <-> LTE BTS
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS32.422
• 3GPP Reference: TS32.422
• 3GPP Reference: TS32.422
• 3GPP Reference: TS32.422
• 3GPP Reference: TS36.413
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS32.421• 3GPP Reference: TS36.413
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• RAC <-> LTE BTS• RAC <-> RACApp• EM <-> LTE BTS
• RAC <-> LTE BTS• RAC <-> RACApp• EM <-> LTE BTS
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC -> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RACApp <-> RAC
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: ts25.463
• 3GPP Reference: TS 25.463
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: ts25.463
• 3GPP Reference: ts25.463
• 3GPP Reference: 3GPP TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: ts25.463
• 3GPP Reference: ts25.463
• 3GPP Reference: ts25.463
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS -> RAC• LTE BTS -> EM
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS -> RAC• LTE BTS -> EM
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> RAC• LTE BTS -> EM
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: ts25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: TS 25.463
• 3GPP Reference: ts25.463
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS -> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS -> RAC• LTE BTS -> EM
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RACApp <-> RAC
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331, TS 36.101
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331
• LTE BTS <-> EM• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS 36.331
• 3GPP Reference: TS 36.331, TS 36.101
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS 36.331, TS 36.304
• 3GPP Reference: TS 36.331, TS 36.304
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• RAC <-> LTE BTS• RAC <-> RACApp• EM <-> LTE BTS
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• LTE BTS -> EM• LTE BTS <-> RAC
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• RAC <-> LTE BTS• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• 3GPP Reference: TS36.331
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
• EM <-> LTE BTS• LTE BTS <-> RAC• RAC <-> RACApp
