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Content for  TS 43.064  Word version:  16.0.0

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6 Radio Interface (Um)6.1 Radio Resource management principles6.2 Radio Resource operating modes6.3 Layered overview of radio interface6.4 Physical RF Layer6.5 Physical Link Layer6.6 Medium Access Control and Radio Link Control Layer6.7 Abnormal cases in GPRS MS Ready State6.9 MBMS Data Transfer

 

6  Radio Interface (Um)

6.1  Radio Resource management principles

6.1.1  Allocation of resources for the GPRS

6.1.1.0  General |R13|

6.1.1.1  Master-Slave concept

6.1.1.2  Capacity on demand conceptWord‑p. 30

6.1.1.3  Procedures to support capacity on demand

6.1.1.4  Release of PDCH not carrying PCCCHWord‑p. 31

6.1.2  Multiframe structure for PDCH

6.1.2a  Multiframe structure for Compact PDCHWord‑p. 35

6.1.2b  Multiframe structure for PDCH/HWord‑p. 36

6.1.3  Scheduling of PBCCH information.

6.1.4  SMS cell broadcastWord‑p. 37

6.1.5  MS Multislot Capability |R7|

6.2  Radio Resource operating modes

6.2.1  Packet idle mode

6.2.2  Packet transfer modeWord‑p. 38

6.2.3  Dual transfer mode

6.2.3a  Broadcast/Multicast receive mode |R6|

6.2.4  Correspondence between Radio Resource operating modes and Mobility Management StatesWord‑p. 39

6.2.5  Transitions between RR operating modes

6.3  Layered overview of radio interfaceWord‑p. 40

6.4  Physical RF LayerWord‑p. 41

6.5  Physical Link Layer

6.5.1  Layer Services

6.5.2  Layer Functions

6.5.3  Service PrimitivesWord‑p. 42

6.5.4  Radio Block Structure

6.5.4.1  Radio Block structure for data transfer for GPRS |R7|

6.5.4.2  Radio Block structure for data transfer for EC-GSM-IoT and for EGPRS with FANR not activated |R7|Word‑p. 43

6.5.4.3  Radio Block structure for data transfer for EGPRS with FANR activated or for EGPRS2 |R7|

6.5.4.4  Radio Block structure for control message transfer |R7|Word‑p. 44

6.5.4.4.1  General format (CS-1)
6.5.4.4.2  Format for downlink control message for RTTI configuration (MCS-0)
6.5.4.4.3  Format for alternative uplink control message for DLMC configuration (CS-3) |R12|Word‑p. 45
6.5.4.4.4  Format for control message for EC-GSM-IoT (EC-PACCH) |R13|

6.5.5  Channel CodingWord‑p. 46

6.5.5.0  General |R13|

6.5.5.1  Channel coding for PDTCH

6.5.5.1.1  Channel coding for GPRS PDTCH
6.5.5.1.2  Channel coding for EGPRS PDTCH and EC-GSM-IoT EC-PDTCHWord‑p. 48
6.5.5.1.3  Channel coding for EGPRS2 PDTCH |R7|Word‑p. 55

6.5.5.2  Channel coding for PACCH, EC-PACCH, PBCCH, PAGCH, EC-AGCH, PPCH, EC-PCH and PTCCHWord‑p. 77

6.5.5.2a  Channel coding for CPBCCH, CPAGCH, CPPCH and CSCHWord‑p. 79

6.5.5.3  Channel Coding for the PRACH, CPRACH and MPRACH

6.5.5.3.1  Coding of the 8 data bit Packet Access Burst
6.5.5.3.2  Coding of the 11 data bit Packet Access Burst

6.5.6  Cell Re-selectionWord‑p. 80

6.5.6.0  General |R13|

6.5.6.1  Measurements for Cell Re-selection

6.5.6.2  Broadcast InformationWord‑p. 81

6.5.6.3  Optional measurement reports and network controlled cell re-selection

6.5.6.4  Network Assisted Cell Change

6.5.7  Timing AdvanceWord‑p. 82

6.5.7.0  General |R13|

6.5.7.1  Initial timing advance estimation

6.5.7.2  Continuous timing advance updateWord‑p. 83

6.5.7.2.1  Mapping on the multiframe structure

6.5.8  Power control procedureWord‑p. 85

6.5.8.0  General |R7|

6.5.8.1  MS output power

6.5.8.2  BTS output power

6.5.8.3  Measurements at MS sideWord‑p. 86

6.5.8.3.0  General |R13|
6.5.8.3.1  Deriving the C value
6.5.8.3.2  Derivation of Channel Quality Report

6.5.8.4  Measurements at BSS sideWord‑p. 87

6.5.9  Scheduling the MS activities during the PTCCH and idle frames

6.5.10  Discontinuous Reception (DRX)Word‑p. 88

6.6  Medium Access Control and Radio Link Control LayerWord‑p. 89

6.6.1  Layer Services

6.6.2  Layer Functions

6.6.3  Service PrimitivesWord‑p. 90

6.6.4  Model of Operation

6.6.4.0  General |R13|

6.6.4.1  Multiplexing MSs on the same PDCHWord‑p. 96

6.6.4.1.1  Uplink State Flag: Dynamic Allocation
6.6.4.1.1.1  Multiplexing of GPRS, EGPRS or EGPRS2 MSs
6.6.4.1.1.2  Multiplexing of GPRS, EGPRS and EGPRS2 MSs
6.6.4.1.2Void
6.6.4.1.3  Exclusive AllocationWord‑p. 97
6.6.4.1.4  Fixed Uplink Allocation (FUA) |R13|
6.6.4.1.4.1  Multiplexing of GPRS, EGPRS, EC-GSM-IoT and EGPRS2 MSs

6.6.4.2  Temporary Block Flow

6.6.4.3  Temporary Flow Identity

6.6.4.4  Medium Access modes

6.6.4.5  Acknowledged mode for RLC/MAC operationWord‑p. 98

6.6.4.5.1  GPRS
6.6.4.5.2  EGPRS, EGPRS2 and EC-GSM-IoT

6.6.4.6  Unacknowledged mode for RLC/MAC operationWord‑p. 99

6.6.4.6a  Non-persistent mode for RLC/MAC operation |R6|

6.6.4.7  Mobile Originated Packet Transfer

6.6.4.7.1  Uplink Access
6.6.4.7.1.1  On the (EC-)(P)RACH
6.6.4.7.1.2  On the main DCCHWord‑p. 101
6.6.4.7.2  Dynamic/Extended Dynamic allocationWord‑p. 102
6.6.4.7.2.1  Uplink Packet Transfer
6.6.4.7.2.2  Release of the ResourcesWord‑p. 104
6.6.4.7.3Void
6.6.4.7.4  Exclusive AllocationWord‑p. 105
6.6.4.7.4a  Fixed Uplink Allocation |R13|
6.6.4.7.5  Contention ResolutionWord‑p. 106

6.6.4.8  Mobile Terminated Packet TransferWord‑p. 107

6.6.4.8.1  Packet Paging
6.6.4.8.2  Downlink Packet Transfer
6.6.4.8.3  Release of the ResourcesWord‑p. 110
6.6.4.8.4  Packet Paging Notification

6.6.4.9  Simultaneous Uplink and Downlink Packet TransferWord‑p. 111

6.6.4.9.1  MS Does Not Support Multiple TBF Procedures |R6|
6.6.4.9.2  MS Supports Multiple TBF Procedures |R6|

6.7  Abnormal cases in GPRS MS Ready StateWord‑p. 112

6.8Void

6.9  MBMS Data Transfer |R6|

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