04 WO_BT05_E1_1 UMTS Signaling Flow-62
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Transcript of 04 WO_BT05_E1_1 UMTS Signaling Flow-62
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UMTS Signaling Flow
ZTE University
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Content
UE State transition
Signaling flow
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Classification of Flows
In terms of protocol stack, signaling flows can beaccess layer signaling flows or non-access layer
signaling flows.
In terms of network composition, signaling flows
can be categorized as circuit-switched or packet-switched.
Access layer and non-access layer signaling flows
are actually so named from the perspective ofprotocol stack.
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Classification of Flows
The flows at the access layer include PLMNselection, cell selection, and radio resource
management flows.
The radio resource management flows are the
flows at the RRC layer, including the RRCconnection setup flow, flow of the signaling setup
between UEs and CNs, RAB setup flow, call
release flow, handover flow, and SRNS redirection
flow.
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UE Working Modes
There are two basic working modes: Idle
UE stands by without any service. Theres no connection
between UE and UTRAN.
Connected UE transferred to the connected mode after accomplishing RRC
Connection Setup.
UE has 4 states under the connected mode:Cell-DCH, Cell-
FACH, Cell-PCH, URA-PCH
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UE State
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UE States Under the Connected Mode
Cell-DCH UE is activated, and in service using its dedicated
channels.
There are dedicated channels in both uplink and
downlink. UTRAN knows exactly which cell the UE is in.
Cell-FACH
UE is activated, but without too much data to transmit,
so theres no need to assign dedicated channels to it.
Downlink data transmitted in FACH, while uplink in
RACH.
UTRAN knows exactly which cell the UE is in.
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UE States Under the Connected Mode
Cell-PCH
There is no data transmitted in both uplink and downlink.
UE needs to listen to PICH for paging information.
UE works in discrete receiving, which saves the power effectively.
UTRAN knows exactly which cell the UE is in.
UE needs to do cell update procedure when it passes cells.
URA-PCH
There is no data transmitted in both uplink and downlink.
UE needs to listen to PICH for paging information and receive
discretely. UTRAN only knows which URA (UTRAN Registration Area) UE
exists.
UE updates its location information only when its URA changes,
which further reduces the signaling saves resource.
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RRC State Transition (I)
After RRC Connection Setup, UE will
transit to CELL_FACH or CELL_DCH.
CN indicates UE using dedicated
channel (CELL_DCH) or common
channel (CELL_FACH) according to
the service request.
If there is no service right now, UE
will be indicated into PCH mode orrelease RRC connection back to
IDLE mode.
URA_PCH
CELL_DCHCELL_FACH
CELL_PCH
IDLE
DEAD
IDLE
DEAD
CELL_DCHCELL_FACH
IDLE
Sketch of RRC State Transition
Transit from IDLE Mode
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URA_PCH
CELL_DCH
CELL_PCH
IDLE
DEAD
IDLE
DEAD
CELL_FACH
IDLE
RRC State Transition (II)
UE do not occupy dedicated
channels In the mode of
CELL_FACH.
UE receives downlink data through
FACH(S-CCPCH).
UE transmits uplink data through
RACH(PRACH).
Transit from CELL_FACH Mode
Sketch of RRC State Transition
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URA_PCH
CELL_DCH CELL_FACH
CELL_PCH
IDLE
DEAD
IDLE
DEAD
CELL_DCH
IDLE
URA_PCH CELL_PCH
CELL_DCH
RRC State Transition (III)
UE transceives uplink and downlink
data through dedicated channels
(DPDCHs and DPCCHs).
During the time when there is no data
transmitted, CN may indicate UEs
transiting to URA_PCH or CELL_PCH.
Transit from CELL_DCH Mode
Sketch of RRC State Transition
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URA_PCH
CELL_DCH CELL_FACH
CELL_PCH
IDLE
DEAD
IDLE
DEAD
CELL_DCH
IDLE
CELL_DCH
URA_PCH CELL_PCH
CELL_FACH
CELL_PCHURA_PCH
RRC State Transition (IV)
UE has no activated uplink.
Paging Information makes UE back to
CELL_FACH or CELL_DCH mode.
In CELL_PCH, UE should transit to
CELL_FACH first to finish cell updating,
and go back if no service request.
In URA_PCH, if URA changes, UE also
transits to CELL_FACH to finish cell
updating first before it goes back toURA_PCH.
System resource can be saved in these
two modes.Sketch of RRC State Transition
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Content
UE State transition
Signaling flow
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Basic Conception (1)
RRC (Radio Resource Control) provides information transfer service to the NAS (Non
Access Stratum).
responsible for controlling the configuration of UMTS
radio interface Layers 1 and 2. RRC Connection
A point to point bi directional connection between the
RRC (Radio Resource Control) entities on the UE (User
Equipment) and UTRAN (UMTS Terrestrial RadioAccess Network).
The UE requires an RRC connection to access the
services of the UMTS network.
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Basic Conception (2)
RAB -Radio Access Bearer Identify the service the AS (Access Stratum) provides to
the NAS (Non Access Stratum) for transfer of user data
between the UE (User Equipment) and the CN (Core
Network). RB -Radio Bearer
The service provided by the Layer 2 for the transfer of
user data between UE (User Equipment) and UTRAN
(UMTS Terrestrial Radio Access Network).
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Basic Conception (3)
RL (Radio Link) RL is a logical association between single UE (User
Equipment) and a single UTRAN (UMTS Terrestrial
Radio Access Network) access point.
Its physical realization comprises one or more radiobearer transmissions.
It is possible for a UMTS mobile to have many radio
links established, when this occurs the mobile is said to
be in a soft handover.
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Sketch of the basic conceptions
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UE Calling Flow
Power on
Cell selection
Location
Update
Idle Mode
RRC
Establish
NAS
Establish
Hand Over
Cell/
URA update
Channel
reconfiguration
RB/RAB
Modification
RAB
Establish
RRC
Release
Call
Initiate
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UE in Idle Mode
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What Information needed for UE?
1
Strongest cell2Slot boundary
3Frameboundary
4
Primary SC5 Information in broadcasts
channel
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1st Step: Cell Selection and Slot
Synchronization
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DL Scrambling Code Rule
218
-1 DL Scrambling Codes in total (0..262142)
The
left
8192
Scramblingcodes
are
used
for
compression
mode
The
left
8192
Scramblingcodes
are
used
for
compression
mode
#511 Scrambling Code
Group
8176
8177
8191
8176P-SC
8177S-SC
8191S-SC
#510 Scrambling Code
Group
8160
8161
8175
8160
8161
8175
#504 Scrambling Code
Group
8064
8065
8079
8064
8065
8079
#7 Scrambling Code
Group112
113
127
8176P-SC
8177S-SC
8191S-SC
#1 Scrambling Code
Group
1
6
17
3
1
16P-SC
17S-SC
31S-SC
#0 Scrambling Code
Group
0
1
1
5
0P-SC
1S-SC
15S-SC
#0 Scrambling Code Cluster
#63 Scrambling Code Cluster
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2rd Step: Frame synchronization and
Scrambling code-group
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Scrambling-code identification
CPICH is predefine
sequence
Spreading Factor is 256
(Cch,256,0
)
Scrambling by P-
scrambling code
UE identified through
symbol-by-symbol
correlation over the
primary P-CPICH with all
the scrambling codes
within the code group.
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Obtain broadcast information in P-CCPCH
P-CCPCH contain thecurrent SFN and system
broadcast information
P-CCPCH SF=256
(Cch,256,1
)
P-CCPCH scrambling by
primary scrambling code
UE can use obtained
primary scrambling code
to descrambling the P-
CCPCH and obtain the
BCH information
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UE Calling Flow
Power on
Cell selection
Location
Update
Idle Mode
RRC
Establish
NAS
Establish
Hand Over Cell/URA update
Channel
reconfiguration
RB/RAB
Modification
RAB
Establish
RRC
Release
Call
Initiate
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UE Initiate Random Access
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Establish Dedicated RRC Connection
UE Node B SRNC
2.Allocate RNTI
L1 and L2 Parameters
1. RRC Connection Request
5. ALCAP Establish and Synchronization
3. NBAP RL Setup Request
7. RRC Connection Setup Complete
6. RRC Connection Setup
4. NBAP RL Setup Response
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RRC Connection Rejection
If the RNC determines that the RRC connection cannot beestablished (for example, due to insufficient resources),
the RNC directly sends the UE an RRC CONNECTION
REJECT message which contains the reason for the
rejection of the RRC connection.
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1. RRC Initial Direct Transfer
Establish Signaling Link with CN
UE SRNC CN
3. SCCP CC(Success)
2. RANAP Initial UE Message
SCCP Connect Request
3. SCCP CJ(Failure)
4. RRC Direct Transfer
5. RRC Direct Transfer
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1.1 Send AuthenticationInfo
4. Security ModeCommand
5. Security ModeComplete
6. Security Mode Complete
3.Security Mode Control
Authentication and Security Mode
UE RNS MSC Server/VLR
1. Authentication Request
2. Authentication Response
HLR
2.1 Send AuthenticationInfo Ack
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CS Location Update Process
MAP Cancel LocationACK
MAP_Cancel_Location
Location UpdateRequest
MAP Update Location
MAP_Insert _Subscriber_Data
MAP_Update _Location_ACKLocation Update
Confirm ACK
TMSI_Allocation_Complete
UE RNS MSC Server/VLR PVLR HLR
MAP_Insert _Subscriber_Data_ACK
Release CN
Signaling ConnectionRelease RB
Establish RRC Connection
Establish CN Signaling Connection
Authentication and Security Mode
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UE Calling Flow
Power on
Cell selection
RRC
Establish
NAS
Establish
Hand OverCell/
URA update
Channel
reconfiguration
RB/RAB
Modification
RAB
Establish
RRC
Release
Call
Initiate
Location
Update
Idle Mode
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UE Work Mode Transforming
CELL_DCH CELL_FACH
CELL_PCHURA_PCH
IDLE
DEAD
RRC connection
All the Status exist in UTRAN and UE, and transparent for CN
Network
Selection (PLMN)
Cell Camping
Probe pagingchannel
Cell
Reselection
High level
Signaling
Triger (CN)
Dedicated
Channel
RB Transport
Service
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UE Calling Flow
Power on
Cell selection
Location
Update
Idle Mode
RRC
Establish
NAS
Establish
Hand Over
Cell/
URA update
Channel
reconfiguration
RB/RAB
Modification
RAB
Establish
RRC
Release
Call
Initiate
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Procedure of Call Initiate
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Call Setup Flow
CN initiates a paging message to RNC.
RNC judges the paging message from the CN and thensends a paging message to the corresponding UE.
If no RRC connection is available, UE will send a RRCconnection setup request message (RRC ConnectionRequest) to RNC.
RNC determines to set up a RRC connection according tothe service request and system resource occupation thensends a RRC connection setup message (RRCConnection Setup) to UE.
After signaling connection setup, the higher layer of UE(NAS) sends a service request message to CN through adirectly transfer message.
CN sends a RAB assignment message (RAB AssignmentRequest) to the RNC to allocate resource for UEs request.
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3. NBAP RL ReconfigurePrepare
RAB Establish Flow
UE Node B SRNC
1. RANAP RABAssignment Request
4. NBAP RL ReconfigureReady
MSC
2. ALCAP Establish and Synchronization
5. ALCAP Establish and Synchronization
6. NBAP RL ReconfigureCommit
7. RRC RB Setup
8. RRC RB Setup Complete
9. RANAP RABAssignment Response
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8. ISUP IAM
UE Initiate Call
UE RNS MSC Called MSC
1. RRC establish
6. RRC DT(Call Proceeding)
3. RRC DT(CM Service Request)
2. CN signaling establish
4. Authentication and Security
5. RRC DT(Setup)
7. RAB establish
10. ISUP ACM11. RRC DT(Alert)
12. ISUP ANM13. RRC DT(Connect)
14. RRC DT(Connect ACK)
15. Conversation
9. CN bearer establish
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UE Receiving Call
1. ISUP IAM
UE RNS Called MSC Calling MSC
4. RRC establish
8. RRC DT(Setup)
6. RRC DT(Paging Response)
5. CN signalling establish
7. Authentication and Security
9. RRC DT(Call Confirm)
10. RAB establish
2. Paging
3. Paging
11. RRC DT(Alerting)12. ISUP ACM
13. RRC DT(Connected)14. ISUP ANM
16. Conversation
15. RRC DT(Connect ACK)
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UE Calling Flow
Power on
Cell selection
Location
Update
Idle Mode
RRC
Establish
NAS
Establish
Hand Over
Cell/
URA update
Channel
reconfiguration
RB/RAB
Modification
RAB
Establish
RRC
Release
Call
Initiate
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Handover Category
Intra-system handover Softer handover, soft handover, hard handover
Depending on the Ec/No of CPICH
Inter-system handover
Between FDD and TDD
Handover with different system
2G/3G handover
Compression mode
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Softer/Soft Handover Gain and Costs
Softer/Soft Handover Gain: The optimal fast close loop power control (MS always keep connection
with the most powerful cell)
Seamless handover, without RB interruption
When MS moves to the edge of the cell, and could not obtain enoughsignal power, it can obtain Macro diversity from multiple cells
The UL signaling quality can be improved through obtaining Macro
diversity when Node B (Softer HO) and RNC (Soft HO) combine thereceiving signal and lower the required Transport power of UE.
Softer/Soft Handover Costs: Additional Rake receiver channel on Node B
Additional DL channelization code
Additional DL power
Additional Rake receiver channel on MS Additional transport link between Node B and RNC (RNC internal Soft
Handover)
Additional transport link between S-RNC and D-RNC (Soft handoverbetween RNCs)
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Soft Handover Flow
UE NodeB(DRNS) DRNCNodeB(SRNS)
Measurementreport
RL creation requestRL setup request
Active set update command
SRNC
RL setup response RL setup response
Active set update completionRL Deletion requestRL Deletion response
A
B
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Hard Handover Flow
UE TargetNodeB SRNCOriginalNodeBMeasurement report
RL setup request
Reconfiguration commandRL setup response
Reconfiguration completionRL deletion request
RL deletion response
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UE Calling Flow
Power on
Cell selection
Location
Update
Idle Mode
RRC
Establish
NAS
Establish
Hand Over
Cell/
URA update
Channel
reconfiguration
RB/RAB
Modification
RAB
Establish
RRC
Release
Call
Initiate
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SRNC Relocation
2. Relocation RequiredRANAP RANAP
RANAP RANAP
6. Relocation
Request Ack.
RANAP RANAP1. Relocation Required
UE Node B RNC
Source
RNC
Target
MSC/SGSN SGSN/MSC
RANAP RANAP
4. Relocation Request
RANAP RANAP3. Relocation Request
RANAP RANAP7. Relocation Request Ack.
RANAP RANAP9. Relocation Command
RANAP RANAP8. Relocation Command
RANAP RANAP
12. Relocation
Complete
RANAP RANAP11. Relocation Complete
RNSAP RNSAP
10. Relocation
Commit
RANAP
13. Iu Release Command
RANAP
RANAP14. Iu Release Command
RANAP
5. ALCAP Iu Data
Transport Bearer Setup
15. ALCAP Iu Data Transport Bearer Relelase
RANAP16. Iu Release Complete
RANAP
RANAP17. Iu Release Complete
RANAP
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UE Calling Flow
Power on
Cell selection
Location
Update
Idle Mode
RRC
Establish
NAS
Establish
Hand Over
Cell/
URA update
Channel
reconfiguration
RB/RAB
Modification
RAB
Establish
RRC
Release
Call
Initiate
DCH DCH Transport Channel
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DCH-DCH Transport Channel
ReconfigurationUE Node B
Drift RNS
Node B
Serving RNS
Drift
RNC
Serving
RNC
CN
RNSAP RNSAP
5. Radio Link Reconfiguration
Ready
RRCRRC13.DCCH: Transport Chann el Reconfiguration Complete
NBAPNBAP6. Radio Link Reconfiguration Ready
NBAPNBAP4. Radio Link Reconfiguration Ready
NBAPNBAP11. Radio Link Reconfiguration Commit
RNSAP RNSAP
9. Radio Link Reconfiguration
Commit
NBAPNBAP10. Radio Link Reconfiguration Commit
RRCRRC12.DCCH: Transport Channel Reconfiguration
8. ALCAP Iub Data Transport Bearer Set-up
RNSAP RNSAP1. Radio Link Reconfiguration
Prepare
NBAPNBAP2. Radio Link Reconfiguration Prepare
NBAPNBAP3. Radio Link Reconfiguration Prepare
ALCAP Iur Bearer Set-up7. ALCAP Iub Data Transport Bearer Set-up
15. ALCAP Iub Data Transport Bearer Release
ALCAP Iur Bearer Release14. ALCAP Iub Data Transport Bearer Release
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Cell-FACH to Cell-DCH State TransformUE Node B
Drift RNS
Drift
RNC
Serving
RNC
6. NodeB-SRNC Data Transport Bearer Sync.
RNSAP RNSAP
1. Radio Link Setup
Request
Start TX
NBAP NBAP
2. Radio Link Setup
Request
RNSAP RNSAP
4. Radio Link SetupResponse
NBAP NBAP
3. Radio Link Setup
Response
Start RX
Decision to switch to
Cell_DCH state
RRCRRC
8.DCCH: Physical Channel Reconfiguration Complete
RRCRRC
7.DCCH: Physical Channel Reconfiguration
ALCAP Iur Bearer Setup5. ALCAP Iub Bearer Setup
RNSAP RNSAP
9. Common Transp. Channel
Resources Release Request
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Cell-DCH to Cell-FACH TransformUE Node B DRNC SRNC
RNSAP6. Radio Link Deletion Request
RNSAP
RNSAPRNSAP9. Radio Link Deletion Response
3. ALCAP Iur bearer setup(if needed)
RRC4. DCCH : Physical Channel Reconfiguration
RRC
Cell_FACH
RRC5. DCCH : Phy sical Chan nel Reco nfig urati on Complete
RRC
NBAP7. Radio Link Deletion Request
NBAP
NBAPNBAP8. Radio Link Deletion Response
ur earer re ease
RNSAP
. ommon ransp. ann e esources
Initialization Request
RNSAP
RNSAPRNSAP
. ommon ransp. anne esources
Initialization Response
. u earer reease
- , r mary n o ,
op tion al: S econd ary C CPCH Info , PRACHInfo]
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UE Calling Flow
Power on
Cell selection
Location
Update
Idle Mode
RRC
Establish
NAS
Establish
Hand Over
Cell/
URA update
Channel
reconfiguration
RB/RAB
Modification
RAB
Establish
RRC
Release
Call
Initiate
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RAB Release Flow
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RRC Connection Release
UE NodeB SRNC
1. RRC RRC CONNECTION RELEASE
2. RRC RRC CONNECTION RELEASE COMPLETE
3. RL DELETION
4. RL DELETION RESPONSE
5. ALCAP 5. ALCAP Release
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Call setup flow (1)
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Call setup flow (2)
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Call setup flow (3)
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Call setup flow (4)
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Call setup flow (5)
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Call setup flow (6)
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