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Generation Roadmap forCellular Telephony
Prepared by:
MIHIR KUMBHAKAR
AGM(CMTS)Dated:10.03.07
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Wireless technology is accelerating very
fast.
It is quickly moving into 1G,2G,2.5G,3G,4G and NGN
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1st Generation
The first generation of mobile cellulartelecommunications systems appeared in the
1980s.The first generation used analog transmission
techniques for traffic, which was almost entirelyvoice.
There was no dominant standard but severalcompeting ones.
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Such as
Nordic Mobile Telephone (NMT)used inScandinavia,southern Europe etc
It comes in two variations:
o NMT-450o NMT-900
Total Access Communications System(TACS)used in UK,and middle Eastern
countries.It uses 900MHz band. Advanced Mobile Phone Service(AMPS).- used in US,Australia,New Zealand.Ituses 800MHz band
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2nd Generation
It has been introduced from the year 1992. It uses digital radio transmis-sion for traffic.
The 2G networks have much higher capacity than thefirst-generation systems.
GSM is by far the most successful and widely used 2Gsystem.
Data rate supported : 9.6kbps to 14.4 kbps
It uses Circuit switching
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There are several standards for 2G systems.such as-
#Global System for Mobile (GSM) communications-Designed and developed by a number of differentorganization working together.
# code-division multiple access (CDMA) IS-95-
Designed and developed by a single company,Qualcomm.
v CDMA uses different codes to separatetransmissions on the same frequency.
v IS-95 is the only 2G CDMA standard so far to beoperated commercially.
v It is used in the United States, South Korea, HongKong, Japan, Singapore etc.
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Generation 2.5 It has been introduced in the year 2000-2001
Generation 2.5 is a designation that broadly includes all advancedupgrades for the 2G networks
2.5G GSM system includes General Packet Radio Services(GPRS), andEnhanced Data Rates for Global Evolution (EDGE) in
addition to the 2G systems.
Data rate supported: depending on the coding scheme(CS) and theno. of time slots used( 1 up to 8)
It uses circuit switching and packet switching both
It supports the data rate up to 384 kbps
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3rd Generation It has been introduced in the year 2001 as trial
version
It supports the data rate up to 2 mbps
Evolution of GSM and CDMA has taken them asW-CDMA(UMTS) and CDMA-2000 in thirdgeneration.
It supports both circuit switching and packet
switching
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4th generation and NGN
This technology is expected to arrive notbefore the year 2010 .
It will support the data rate up to 100 mbps.
Multimedia, mobile TV,mobile broadband
wireless access etc will be possible becauseof its high band width.
It will support both circuit switching andpacket switching
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GSM Overview
>GSM stands for Global System for Mobile communication
>GSM Technology is one of the different types of the wireless
communication available in the world.
Frequency range-
*Uplink Frequency: 890 Mhz915Mhz
*Downlink Frequency: 935Mhz- 960Mhz.
Modulation Technique- GMSK
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Speech is divided into 20 msec sample.Each
20ms sample is encoded using 260 bits.(Thatrequires 13 kbps.)
Band width:each radio channel in the GSM system
has a frequency bandwidth of 200khz.
Number of Channels:124 radio channel.
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GSM Network
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Basic GSM Network consist ofMS,BSS&NSS
MScarried by the subscriber
It consists of
*ME-mobile equipment ,hand portableor vehicle mounted unit.
*SIM- Subscriber identity module ,it
contains the entire customer relatedinformation (identification,secret key forauthentication etc)
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BSS
BSS- Controls radio link with mobile station.
It consists of
BTS(Base transreceiver Station)-It defines acell and is responsible to establish the radiolink control protocol with MS.
BSC(Base Station Controller)-Controls multiple
BTSs and manages radio channel set up andhandovers.BSC is the connection betweenBTS and the MSCs.
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NSS
Network & Switching Subsystem(NSS)-Mobility management and Switching of callsbetween mobile users and between mobileand fixed network users.
It consists of :
MSC- is the central component of the NSS.
Operates all switching functions formobiles within its jurisdiction.Interfaces withmobile and other (Including fixed) networks.
Manages the location of mobile
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Continued
Switches calls
Manages security features.
Controls hand over between BSCs Resources management
Interworks with and manages networkdatabase.
Collect call billing data and sends to Billingcenter.
Collects traffic statistics for performancemonitoring.
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Continued..
HLR-Contains all subscriber information for the
purposes of call control and location determination.
VLR- is only a temporary storage while theparticular subscriber is located in the geographical
area controlled by the MSC/VLR.
AUC- Is a protected database that stores thesecurity information for each subscriber.(A copy ofthe secret key is stored in the SIM)
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Continued
EIR-It contains three list of IMEI number.
White list.-Valid mobile equipment in the
network
Grey list.- Suspected numbers
Black list-Totally barred.
L i l Ch l
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Logical Channels Five types of logical channels:
1.Traffic Channels*TCH - Used to carry traffic.
2.Broadcast channels.*BCCH-used to carry signaling and control info
* FCCH-used to correct the frequency of Mobile
* SCH- used for synchronization of the base station
3.common control channels*PCH-used to page the mobile
*AGCH-used to access the signaling channel
*RACH-used by MS to request for signaling channel
4.Dedicated Control Channels
*SDCCH-used as signaling channel*SACCH-used to carry measurement reports
*FACCH-used during handover
5.CellBroad cast channel*CBCH-used to broadcast short messages in cells
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MSISDN The only important number for a user of GSM is the
phone number i.e.MSISDN.
The MSISDN follows the ITU-T standard E.164 foraddresses as it is also used in fixed ISDN networks.
This number consists of the country code(cc) ( 91for India),the national destination code(NDC) (theaddress of the network provider ; e.,g., 9434 for
BSNL WB) and the subscriber number (SN) .
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IMSI
GSM uses the IMSI for internal unique identificationof a subscriber.
The IMSI follows the ITU-T standard E.212 Numberseries.
IMSI consists of mobile country code (MCC)(e.g.,404 for India),the mobile network code(MNC)(i.e.,code of the HLR; e.g.,74 of BSNL WB),and finallythe mobile subscriber identification number(MSIN).
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Location Updating (LU) When the LU request is received by the new
VLR,authentication is performed.
If authentication is successful,the VLR checks its database todetermine whether it has a record for this MS-subscription.
When VLR finds no record for the MS,it sends a request tothe subscribers HLR for a copy of the MS-subscription.
The HLR passes the information to the VLR and updates itslocation information for the subs.The HLR instructs the oldVLR to delete the information it has about the MS-subscription.
b d
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Inbound Roamer registration -Location Update-Diagram
1. UpLoc
1. UpLoc1. UpLoc
WB BSNL
NLDHLR
UKSubscriber
GMSC
VMSC
/VLR
3. ISD_resp
UK
HLRGMSC
SCCPCdPA: 44-181-123456(MGT derived fromIMSIS analysis)CgPA:919434099995(VLR)
MAPIMSI: 234-15-123456MSC/VLR:919434099995
SCCPCdPA: 44-181-HLRUK
CgPA: 919434099995(VLR1)
3. ISD_resp
2.ISD
4.UPL_resp
SCCPCdPA: 919434099995(VLR)CgPA: 44-181-HLRofUK1
MAPIMSI: 234-15-123456MSISDN: 44-181-654321
2.ISD
2.ISD
4.UPL_resp
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Call from an MS(MO Calls)
The MS uses RACH to ask for a signaling channel.
The BSC/TRC allocates a signaling channel,usingAGCH.
The MS sends a call set-up request via SDCCH to the
MSC/VLR.Over SDCCH all signaling preceding a calltakes place (e.g.,authentication, ciphering,sending B-subscribers number,checking of o/g barringparameter etc.).
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MO CALL Continued..
The MSC/VLR instructs the BSC/TRC to allocate anidle TCH.The RBS and MS are told to tune to theTCH.
The MSC/VLR forwards the B-number to an exchangein the PSTN,which establishes a connection to thesubscriber.
If the B-subscriber answers,the connection isestablished.
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Call to an MS (MT Calls) The PSTN subscriber dials in the MSs telephone number
(MSISDN).The MSISDN is analyzed in the PSTN,whichidentifies that this is a call to a mobile networksubscriber.A connection is established to the MSs homeGMSC.
The GMSC analyzes the MSISDN to find out which HLRthe MS is registered in,and queries the HLR forinformation about how to route the call to the servingMSC/VLR.
The HLR translates MSISDN into IMSI,and determines
which MSC/VLR is currently serving the MS.
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MT Calls continued.. The HLR requests an MSRN from the serving
MSC/VLR.The MSC/VLR returns an MSRN via HLR tothe GMSC.
The GMSC analyses the MSRN and routes the call tothe MSC/VLR.
The MSC/VLR knows which LA the MS is located in.Apaging message is sent to the BSCs controlling theLA.
The BSCs distribute the paging message to the RBSsin the desired LA.
MT Calls contin ed
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MT Calls continued.. The RBSs transmit the message over the air interface
using PCH with IMSI/TMSI.
When the MS detects the paging message,it sends arequests on RACH for a SDCCH.
The BSC provides a SDCCH,using AGCH.
SDCCH is used for the call set-up procedures.Over theSDCCH all signaling preceding takes place.
The MSC/VLR instructs the BSC/TRC to allocate an idleTCH.The RBS and MS are told to tune to the TCH.Themobile phone rings.If subscriber answers,the connectionis established.
C ll S( C ll )
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Call to an MS(MT Calls) in Roaming-Diagram
WB BSNL
NLDHLR
UKSubscriber
GMSC
VMSC
/VLR
UK
HLR
GMSC
44-181-123456
PSTN
DIALS
IAM
1.SRI2.PRN
2.PRN2.PRN
MSISDN
IMSI
2.PRN3.PRN
ACK
3.PRN
ACK
3.PRN
ACK3.PRN
ACK
MSRNMSRN
4.SRI
ACK
MSRN
5.ISUPIAM
5.ISUP
IAM
5.ISUPIAM
6.PAGING
6.ACM
6.ACM
6.ACM
7.ANM
7.ANM
7.ANM
8.Disconnect
8.REL
8.REL
9.REL
ACK
9.REL
ACK
9.REL
ACK
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MO SMS -DiagramWB BSNL
NLDHLR
UKSubscriber
GMSC
VMSC
/VLR
UK
HLRGMSC
SCCPCdPA: 44-181-123456(MGT derived fromIMSIS analysis)CgPA:919434099995(VLR)
MAPIMSI: 234-15-123456
SCCPCdPA: 919434099995(VLR)CgPA: 44-181-HLRofUK1
MO -FSMMO -FSM
SMSC
MO-FSM-RSPMO -FSM
MO-FSM-RSPMO-FSM-RSP
An MS establishes a connection to the network,
as in the normal call set-up.The MS sends the short message using SDCCH to the
SMSC via MSC/VLR.The SMSC in turn forwards the sho
message to its destination.
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MT SMS A user sends a message to a SMSC.
The SMSC sends the message to the SMS-GMSC.
The SMS-GMSC queries the HLR for routinginformation.
The HLR returns routing information to the SMS-GMSC.
The SMS-GMSC reroutes the message to theMSC/VLR.
The MS is paged and a connection is set up between
the MS and the network,as in the normal call set-upcase.
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MT SMS Continued
The MSC/VLR delivers the message to the MS.Shortmessages are transmitted on SDCCH.
If the delivery was successful,a report is sent from
the MSC/VLR to the SMSC,if not,the HLR is informedby the MSC/VLR, and a failure report is sent to SMSC.
The HLR then informs the SMSC when the MS
becomes available.
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MT SMS -DiagramWB BSNL-Circle1
NLDHLR
UKSubscriber
GMSC
VMSC
/VLR
UK
HLR
GMSC
SMSC
SMS
CdPA:44-181-123456
SCCPCdPA: 44-181-SMSCofUK1CgPA:919434099995(MSC/VLR)
SCCP
CdPA: 91-9434099995 MSC/VLRCgPA: 44-181-SMSCofUK1
1. MT-FSM
1. MT-FSM1.MT- FSM
1. MT-FSM
5. MT-FSM_resp5. MT-FSM_resp
5. MT-FSM_resp
SRI-SM
SRI-SM ACK
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PREPAID SYSTEM Prepaid system adds few other nodes than the
existing GSM network.
It is the IN system which handles the prepaidsubscriber.
IN system consist of Mainly
1.SCF
2.SDP
3.PPAS
4.IVR
In MSC SSF module handles the prepaid call Scenarioin MSC side.
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GPRS
GPRS Core network consists of
SGSN:Serving GPRS Support Node; the gatewaybetween the RNC and the core network in aGPRS/UMTS network
GGSN:Gateway GPRS Support Node; the gatewaybetween a cellular network and a IP network.
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GPRS RELATED LINKS Gc-The interface between the GGSN and the HLR in a GSM/GPRS network
Gd-The interface between the SGSN and the SMSC in a GSM/GPRS
network
Gf-The interface between the SGSN and the EIR in a GSM/GPRS network
Gi-The interface between the GGSN and the Internet in a GPRS network
Gn-The interface between the GGSN and the SGSN in a GPRS network
Gp-The interfaces between the GGSN/SGSN and the Border Gateway in a
GPRS network
Gr-The interface between the SGSN and the HLR in a GPRS network
Gs-The interface between the SGSN and the MSC in a GSM/GPRS network
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GPRS ATTACH
SGSN
EIR
HLR
1.GPRS ATTACH
REQUEST
2.Authentication
request
3.Athentication
res
4.Equipment
identity check
5.Equipment idemtity
check response
6.update location
7.ISD
8.ISD
ACK
9.GPRS attach
accepted
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PDP Context activation
SGSN
DNS
SERVER
GGSN
Radius
Server
DHCP
SERVER
1.Activate PDP contest
2.DNS
query
(APN)
3.DNS
Resp(GGSN
IP ADR
4.Create
PDP
Contest
req.
5.Radius
authentication
request
6.Res7.DHCP
ADDR.REQ
8.DHCP
ADDR.RES
9. Create PDP Context
Response
10.Activate
PDP Context
Accept
CDMA (IS 95) TECHNOLOGY
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CDMA (IS-95) TECHNOLOGY Code-Division Multiple Access, a digital cellular
technology that uses spread-spectrum techniques
IS-95 CDMA system operates in 800 Mhz
CdmaOne is the brand name of IS-95 technology from1997.
CdmaOne is basically an air-interface standard.
IS-95 uses Frequency division duplex.Forward link andreverse link transmission occur in different frequencyband.
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Duplex separation used in IS-95 is 45Mhz
Carrier spacing is 1.25 Mhz
Forward link frequency: 824-849Mhz
Reverse Link frequency: 869Mhz-894Mhz
The forward link consists of Base station(BS)transmitter,radio channel and the MS receiver.
CDMA Continues
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CDMA Continues CdmaOne system supports four different types of forward
channels
#Pilot channel-is continuously transmitted by each CDMAcarrier and is used by MS to identify the BS and to asses thesuitability of the cell hand over.In this respect it may belikened to the BCCH carrier in GSM system.
#Synchronous channel-Itallows MS to achieve timesynchronization with BS and the network .
#Paging channel-is used to page MSs to alert them to anincoming call.
#Traffic channel-are assigned to the users as required and theyma carr s eech or user data at bit rates of u to .6 kb s.
E h f d h l CDMA i i i d
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Each forward channel on a CDMA carrier is assigned adifferent 64-bit Walsh code.
The reverse link radio path consists of the Mobilestation(MS) transmitter,the radio channel and the basestation(BS).
CdmaOne system supports two different types of radiochannel on reverse link
#Access channel-as its name would suggest,is used byMS initially to access the network,e.g. at call initiation or inresponse to a paging message.Each Base Station maysupport 32 access channels per forward link paging channel
and the MSs within a CeLL are pseudo-randomlydistributed between the access channels.
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CDMA Continues
Access channel data are presented in the form of one 96-bit frame every 20 ms.Of this 96 bits,88 are used to
carry information and remaing eight are encoder tail
bits.
#Traffic channel-are assigned to the individual user as
required.A reverse link traffic channel may carry
speech and data at bit rates up to 9.6 kbps.
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The cdmaOne MS does not transmit a pilot signalas this would significantly decrease reverse linkcapacity.
BS receiver uses RAKE receiver to demodulatethe reverse link signal from a particular MS.
MS handover process occur by measuring thestrength of the pilot channels signal from a BSother than its current BS.
CdmaOne system supports three main types ofhandover
CDMA C ti
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CDMA Continues
#Idle mode handover-It occurs when an MS
moves from the coverage area of one BS into thecoverage area of a second BS while an MS is anidle mode.
# Soft handover- is used between BSs havingCDMA carriers with identical frequencyassignments.
#Hard handover- occur when a mobile isswitched between two BSs using different carriers.
Si lifi d d t fl f th d f
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Simplified data flow for the access procedure of
a mobile terminated call.
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Basic cdmaOne diagram
CDMA 2000
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CDMA 2000 This is the evaluated 3G version of IS-95/cdmaOne
technology.
CDMA2000 is an ITU-approved standard that was the first 3Gtechnologies (October,2000).
provides advanced voice communications and high-speed dataconnectivity, including access to the Internet, mobile dataapplications and multimedia content.
Supports data services at minimum transmission rates of 144kbps in mobile (outdoor) and 2 Mbps in fixed (indoor)environments.
The world's first 3G commercial system was launched by SKTelecom (South Korea) in October 2000 using CDMA2000
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CDMA2000 represents a family of standardsand includes
>CDMA2000 1X
>CDMA2000 1xEV-DO Technologies
>CDMA2000 1xEV-DO Rev A
>CDMA2000 1xEV-DO Rev B
>Ultra Mobile Broadband - UMB(CDMA2000 1xEV-DO Rev C)
CDMA 2000 continues
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CDMA 2000 continues
CDMA2000 builds on the inherent advantages of CDMAtechnologies,such as
>introduction of Orthogonal Frequency Division
Multiplexing (OFDM and OFDMA)
>advanced control and signaling mechanisms
>improved interference management techniques end-to-endQuality of Service (QoS)
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>new antenna techniques such as Multiple
Inputs Multiple Outputs (MIMO) and Space
Division Multiple Access (SDMA) toincrease data throughput rates and quality of
service
>improving network capacity and reducingdelivery cost.
CDMA2000 Advantages:
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CDMA2000 Advantages:>Superior Voice quality
>High-Speed Broadband Data connectivity
>Increased Voice and Data Throughput capacity
>Long-Term, Robust and Evolutionary Migration Path with
Forward and Backward Compatibility
>Differentiated Value-Added Services such as VoIP, PTT,
Multicasting, Position Location, etc.
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>Flexible Network Architecture with connectivity to ANSI-41,GSM-MAP and IP-based Networks and flexible Backhaul
Connectivity
>Flexible Spectrum Allocations with Excellent PropagationCharacteristics
>Robust Link Budget for Extended Coverage and Increased DataThroughputs at the Cell Edge
>Improved Security and Privacy
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CDMA 2000 NETWORK DIAGRAM
UMTS/WCDMA
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UMTS/WCDMA
UMTS (WCDMA)is a 3G evolution of GSM and GPRS
UMTS is one of the Third Generation (3G) mobile systemsbeing developed within the ITU's IMT-2000 framework
The coverage will be provided by a combination of cell
sizes ranging from 'in building' Pico Cells to Global Cellsprovided by satellite, giving service to the remote regionsof the world
created a platform to converge the worlds of speech, dataservices and the Internet to create a global market formobile multimedia.
UMTS is designed to increase a subscribers data rates andsystem capacity.
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Technical Features:
Modulation Techniques used QPSK
Multiple access technology used as CDMA
Frequency reuse pattern : 1*1 (cell*sector)
Maximum data rates supported: 384kbps to 2mbps
Both packect switch and circuit switch aresupported
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Radio channels are 5MHz wide
Chip(fundamental unit of transmission in a CDMAsystem) rate of 3.84 Mcps
Supports two basic modes of duplex, frequency divisionand time division. Current systems use frequencydivision, one frequency for uplink and one for downlink.For time division, UMTS uses 15 slots per radio frame.
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Technical Features continues .>Employs coherent detection on uplink and downlink based
on the use of pilot symbols
> Supports inter-cell asynchronous operation
>Variable mission on a 10 ms frame basis
>Adaptive power control
> Multiuser detection and smart antennas can be used toincrease capacity and coverage.
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>initially poor coverage due to the time it takes tobuild a network
>for fully fledged UMTS incorporating Video onDemand features, one base station needs to be set
up every 11.5 km (0.620.93 mi). While this iseconomically feasible in urban areas, it isinfeasible in less populated suburban and ruralareas.
>Requires huge frequency spectrum
UMTS Network Architechture
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UMTS Network Architechture
UMTS Network Architechture
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UMTS Network Architechture UMTS core network architechturally a GSM phase 2+
Core network that is power up so that it can also handle the
higher volume,higher bit rate,UMTS traffic.
RNS(Radio network subsystem) is the additional part forUMTS network than GSM Phase 2 + network.
RNS consists of RNC (Radio network Controller) and NodeB(part of User Equipment and Base station)
The UMTS terrestrial Radio interface(UTRA) frequencyduplex(FDD) mode is the W-CDMA radio interface of theUMTS.
Carrier frequency is defined by the UTRA absolute radiofrequency channel number(UARFCN).
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Physical Channelsthere are two basic types of physical channels.
#Dedicated Channels-These are used by UEs for theduration of the call.There are two Dedicated channels-
>PCCH-Dedicated physical control channel carriesphysical layer control information
>DPDCH-Dedicated physical data channeltransports the user traffic.
#Common channels-these are used to carry information to the
UEs within a cell and are used by the UEs to access thenetwork. Common channels are of two types: Commonchannels are of two types:
1. Down link common channels
2. Uplink common channels
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Down link common channels
CPICH-Common Pilot Channel provides a commondemodulation reference over all or part of a cell.
P-CCPCH-Primary common control physical channelcaries general network information.
S-CCPCH-Secondary common control physical channel isused for paging and packet data
SCH-Synchronisation channel is used by UE for its initialcell search
AICH-Acquisition indication channel controls the use of
common uplink channels.
UP Link common physical
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UP Link common physical
channels
PRACH-Physical Random Access Channels used by
UEs initially to access the network
PC-PCH-Physical Common Packet Channel allows
bursts of data to be transferred from UEs to the
network.CPCH is typically used for short,infrequent
burst of data where as dedicated channels are moresuited to long burst.
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Difference between CDMA2000 and
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UMTS technology
>Cdma2000 and UMTS were developed separatelyand are 2 separate ITU approved 3G standards
>cdma2000 were developed to be backward
compatible with cdmaOne but UMTS phones arenot meant to be backward compatible with GSMsystems.
>Cdma2000 is easy to implement because operatorsdo not need new frequencies but implementationof UMTS is very difficult because of its newrequirement of wide range of frequency and new
implementation of the radio access network.
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7/30/2019 GSM Principles Com
67/67
THANKS