1、 ETSI TS 101 376-4-15 V3.4.1 (2017-03) GEO-Mobile Radio Interface Specifications (Release 3); Third Generation Satellite Packet Radio Service; Part 4: Radio interface protocol specifications; Sub-part 15: Packet Data Convergence Protocol (PDCP) specification; GMR-1 3G 25.323 TECHNICAL SPECIFICATION
2、ETSI ETSI TS 101 376-4-15 V3.4.1 (2017-03) 2GMR-1 3G 25.323Reference RTS/SES-00423 Keywords 3G, earth station, GMPRS, GMR, GPRS, GSM, GSO, interface, MES, mobile, MSS, MUX, radio, satellite, S-PCN, TDMA ETSI 650 Route des Lucioles F-06921 Sophia Antipolis Cedex - FRANCE Tel.: +33 4 92 94 42 00 Fax:
3、+33 4 93 65 47 16 Siret N 348 623 562 00017 - NAF 742 C Association but non lucratif enregistre la Sous-Prfecture de Grasse (06) N 7803/88 Important notice The present document can be downloaded from: http:/www.etsi.org/standards-search The present document may be made available in electronic versio
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8、 European Telecommunications Standards Institute 2017. All rights reserved. DECTTM, PLUGTESTSTM, UMTSTMand the ETSI logo are Trade Marks of ETSI registered for the benefit of its Members. 3GPPTM and LTE are Trade Marks of ETSI registered for the benefit of its Members and of the 3GPP Organizational
9、Partners. GSM and the GSM logo are Trade Marks registered and owned by the GSM Association. ETSI ETSI TS 101 376-4-15 V3.4.1 (2017-03) 3GMR-1 3G 25.323Contents Intellectual Property Rights 7g3Foreword . 7g3Modal verbs terminology 8g3Introduction 9g31 Scope 11g32 References 11g32.1 Normative referenc
10、es . 11g32.2 Informative references 12g33 Definitions and abbreviations . 12g33.1 Definitions 12g33.2 Abbreviations . 13g34 General . 13g34.1 Objective 13g34.2 Overview on Sublayer Architecture . 13g35 Functions 14g35.0 General . 14g35.1 Header Compression 15g35.1.0 General 15g35.1.1 Mapping of PID
11、Values 15g35.1.2 IP Header Compression (IETF RFC 2507) . 16g35.1.2.0 General 16g35.1.2.1 Context Identifiers . 16g35.1.2.2 Mapping of PID Values for IETF RFC 2507 16g35.1.2.3 Management of Full Header Transmission . 17g35.1.3 Robust Header Compression (IETF RFC 3095) . 17g35.1.3.0 General 17g35.1.3.
12、1 Context Identifiers . 17g35.1.3.2 Void. 17g35.1.3.3 Mapping of PID Values for IETF RFC 3095 17g35.1.3.4 Void. 17g35.1.3.5 Protocol Parameters 17g35.1.3.6 Configuration by RRC 18g35.1.4 GMR-1 3G LLA Header Suppression for Spectrally Efficient VoIP . 18g35.1.5 Data Compression . 18g35.2 PDCP Setup 1
13、9g35.2.1 PDCP Protocol Information from RNC to MES . 19g35.2.2 PDCP Capability Information from MES to RNC 19g35.2.3 PDCP Entity Creation/Deletion 20g35.3 Data Transfer 21g35.3.0 General 21g35.3.1 Data transfer over Acknowledged Mode RLC . 21g35.3.2 Data transfer over Unacknowledged and Transparent
14、Mode RLC . 22g35.3.3 RoHC Data Flow 23g35.3.4 Compression/Decompression Flow in GMR-1 3G LLA Profile. 24g35.4 SRNS Relocation 24g35.4.0 General 24g35.4.1 Lossless SRNS Relocation 24g35.4.2 Context Relocation for GMR-1 3G LLA Header Suppressed Session . 24g35.4.3 Context Relocation for All other Sess
15、ion Type 25g35.5 Lossless DL RLC PDU Size Change . 25g35.6 General Procedures. 25g35.6.1 PDCP Sequence Numbering . 25g35.6.2 PDCP Sequence Number Synchronization . 25g3ETSI ETSI TS 101 376-4-15 V3.4.1 (2017-03) 4GMR-1 3G 25.3235.6.3 Sequence Number and Data Forwarding 26g35.7 Header Compression and
16、Decompression for MBMS . 26g35.7.0 General 26g35.7.1 Cell Change Inside the Same Cell Group . 26g35.7.2 Cell change between cell groups . 26g36 Services 26g36.1 Services Provided to Upper Layers 26g36.2 Services Expected from RLC Layer . 26g37 Elements for Layer-to-Layer Communication . 26g37.0 Gene
17、ral . 26g37.1 Control Plane 26g37.1.1 Primitives between PDCP and Upper Layers . 26g37.2 User Plane 28g37.2.1 Primitives Between PDPC and Upper Layer 28g37.2.2 Primitives Between PDPC and RLC . 28g38 Elements for Peer-to-Peer Communication 29g38.1 Protocol Data Units 29g38.2 Formats . 30g38.2.0 Gene
18、ral 30g38.2.1 PDCP-No-Header PDU 30g38.2.2 PDCP Data PDU . 30g38.2.3 PDCP SeqNum PDU 30g38.3 Parameters 31g38.3.0 General 31g38.3.1 PDU Type . 31g38.3.2 PID 31g38.3.3 Data . 32g38.3.4 Sequence number 32g39 Handling of Unknown, Unforeseen, and Erroneous Protocol Data . 32g39.1 Invalid PDU Type 32g39.
19、2 Invalid PID value 32g3Annex A (normative): GMR-1 3G LLA Header Suppression 33g3A.1 Introduction 33g3A.1.0 General . 33g3A.1.1 GMR-1 3G LLA Header SuppressionService Options. 33g3A.2 Silence Suppression 33g3A.3 GMR-1 3G LLA Header Suppression Overview . 34g3A.3.0 General . 34g3A.3.1 Context and Fun
20、ctional Blocks 34g3A.3.2 HCU Application Overview . 35g3A.3.3 HCL Application Overview . 36g3A.4 GMR-1 3G LLA Header Suppression End-to-End Flow . 36g3A.4.1 GMR-1 3G LLA Header Suppression Flow for Downlink 36g3A.4.1.0 General 36g3A.4.1.1 Transmitting Side 36g3A.4.1.2 Receiving Side 38g3A.4.2 GMR-1
21、3G LLA Header Suppression Flow for Uplink . 39g3A.4.2.1 Transmitting Side 39g3A.4.2.2 Receiving Side 39g3A.4.2.3 PDCP Context Creation 40g3Annex B (normative): ROHC Performance Testing . 41g3B.1 Introduction 41g3B.1.0 General . 41g3B.1.1 Purpose of the Performance Testing . 41g3ETSI ETSI TS 101 376-
22、4-15 V3.4.1 (2017-03) 5GMR-1 3G 25.323B.1.2 Input Sequence for Uncompressed Headers . 42g3B.1.3 Feedback Format for the Test Cases. 42g3B.1.4 Feedback Generation for Test Cases (R-Mode Only) 42g3B.1.5 Calculation of Compressed Header Size 43g3B.2 Test Outline - RoHC RTP Profile 0x0001 . 43g3B.2.1 Te
23、st 1a - Base Test of ROHC RTP O-Mode Compressor 43g3B.2.1.1 Test Purpose 43g3B.2.1.2 Sequence Details . 44g3B.2.1.3 Test Requirement 44g3B.2.2 Test 1b - Base Test of ROHC RTP R-Mode Compressor 45g3B.2.2.1 Test Purpose 45g3B.2.2.2 Sequence Details . 45g3B.2.2.3 Test Requirement 46g3B.2.3 Void 46g3B.2
24、.4 Void 46g3B.2.5 Test 3a - Re-Establishment of TS Function after DTX in O-Mode 46g3B.2.5.1 Test Purpose 46g3B.2.5.2 Sequence Details . 47g3B.2.5.3 Test Requirement 47g3B.2.6 Test 3b - Re-Establishment of TS Function after DTX in R-Mode 47g3B.2.6.1 Test Purpose 47g3B.2.6.2 Sequence Details . 48g3B.2
25、.6.3 Test Requirement 48g3B.2.7 Test 4a - Compressor Response to Single Lost Packets in O-Mode . 48g3B.2.7.1 Test Purpose 48g3B.2.7.2 Sequence Details . 49g3B.2.7.3 Test Requirement 49g3B.2.8 Test 4b - Compressor Response to Single Lost Packets in R-Mode . 49g3B.2.8.1 Test Purpose 49g3B.2.8.2 Sequen
26、ce Details . 49g3B.2.8.3 Test Requirement 49g3B.2.9 Void 49g3B.2.10 Void 49g3B.2.11 Test 6a - TS Function During DTX with Varying Delta in O-Mode 49g3B.2.11.1 Test Purpose 49g3B.2.11.2 Sequence Details . 49g3B.2.11.3 Test Requirement 50g3B.2.12 Test 6b - TS Function During DTX with Varying Delta in
27、R-Mode 50g3B.2.12.1 Test Purpose 50g3B.2.12.2 Sequence Details . 50g3B.2.12.3 Test Requirement 51g3B.2.13 Test 7a - SRNS Relocation in O-Mode 51g3B.2.13.0 General 51g3B.2.13.1 Test Purpose 51g3B.2.13.2 Sequence Details . 51g3B.2.13.3 Test Requirement 51g3B.3 Test Packet Structures 52g3Annex C (infor
28、mative): Reference Model for Generating ROHC Performance Requirements . 55g3C.1 Introduction 55g3C.2 For Voice-over-IP (VoIP) Optimization 55g3C.2.1 ROHC Parameters Optimizations for VoIP 55g3C.2.2 Parameter Setting for ROHC Reference Model for VoIP 55g3C.2.3 Setting the Parameter Value N in Test Ca
29、ses for VoIP 56g3Annex D (normative): Data Compression 57g3D.1 Overview 57g3D.2 Control Function 57g3ETSI ETSI TS 101 376-4-15 V3.4.1 (2017-03) 6GMR-1 3G 25.323D.3 Data Compression Function . 57g3D.3.0 General . 57g3D.3.1 Encoding. 57g3D.3.2 Decoding 57g3D.4 Packet Technique and Multi-Packet Techniq
30、ue . 58g3D.5 Transfer 58g3D.6 Communication between Control Function and Data Compression Function . 58g3D.7 Communication between Peer Data Compression Function 58g3D.8 Configuration Parameters . 58g3Annex E (informative): Bibliography . 60g3History 61g3ETSI ETSI TS 101 376-4-15 V3.4.1 (2017-03) 7G
31、MR-1 3G 25.323Intellectual Property Rights IPRs essential or potentially essential to the present document may have been declared to ETSI. The information pertaining to these essential IPRs, if any, is publicly available for ETSI members and non-members, and can be found in ETSI SR 000 314: “Intelle
32、ctual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to ETSI in respect of ETSI standards“, which is available from the ETSI Secretariat. Latest updates are available on the ETSI Web server (https:/ipr.etsi.org/). Pursuant to the ETSI IPR Policy, no investigation, includi
33、ng IPR searches, has been carried out by ETSI. No guarantee can be given as to the existence of other IPRs not referenced in ETSI SR 000 314 (or the updates on the ETSI Web server) which are, or may be, or may become, essential to the present document. Foreword This Technical Specification (TS) has
34、been produced by ETSI Technical Committee Satellite Earth Stations and Systems (SES). The contents of the present document are subject to continuing work within TC-SES and may change following formal TC-SES approval. Should TC-SES modify the contents of the present document it will then be republish
35、ed by ETSI with an identifying change of release date and an increase in version number as follows: Version 3.m.n where: The third digit (n) is incremented when editorial only changes have been incorporated in the specification; The second digit (m) is incremented for all other types of changes, i.e
36、., technical enhancements, corrections, updates, etc. The present document is part 5, sub-part 1 of a multi-part deliverable covering the GEO-Mobile Radio Interface Specifications (Release 3); Third Generation Satellite Packet Radio Service, as identified below: Part 1: “General specifications“: Par
37、t 2: “Service specifications“; Part 3: “Network specifications“; Part 4: “Radio interface protocol specifications“: Sub-part 1: “Mobile Earth Station-Gateway Station System (MES-GSS) Interface; GMR-1 04.001“; Sub-part 2: “GMR-1 Satellite Network Access Reference Configuration; GMR-1 04.002“; Sub-par
38、t 3: “Channel Structures and Access Capabilities; GMR-1 04.003“; Sub-part 4: “Layer 1 General Requirements; GMR-1 3G 44.004“; Sub-part 5: “Data Link Layer General Aspects; GMR-1 04.005“; Sub-part 6: “Mobile earth Station-Gateway Station Interface Data Link Layer Specifications; GMR-1 04.006“; Sub-pa
39、rt 7: “Mobile Radio Interface Signalling Layer 3 General Aspects; GMR-1 3G 04.007“; Sub-part 8: “Mobile Radio Interface Layer 3 Specifications; GMR-1 3G 44.008“; Sub-part 9: “Performance Requirements on the Mobile Radio Interface; GMR-1 04.013“; Sub-part 10: “Rate Adaptation on the Access Terminal-G
40、ateway Station Subsystem (MES-GSS) Interface; GMR-1 04.021“; Sub-part 11: “Radio Link Protocol (RLP) for Data Services; GMR-1 04.022“; ETSI ETSI TS 101 376-4-15 V3.4.1 (2017-03) 8GMR-1 3G 25.323Sub-part 12: “Mobile Earth Station (MES) - Base Station System (BSS) interface; Radio Link Control/Medium
41、Access Control (RLC/MAC) protocol; GMR-1 3G 44.060“; Sub-part 13: “Radio Resource Control (RRC) protocol; Iu Mode; GMR-1 3G 44.118“; Sub-part 14: “Mobile Earth Station (MES) - Base Station System (BSS) interface; Radio Link Control/Medium Access Control (RLC/MAC) protocol; Iu Mode; GMR-1 3G 44.160“;
42、 Sub-part 15: “Packet Data Convergence Protocol (PDCP) specification; GMR-1 3G 25.323“; Part 5: “Radio interface physical layer specifications“; Part 6: “Speech coding specifications“; Part 7: “Terminal adaptor specifications“. Modal verbs terminology In the present document “shall“, “shall not“, “s
43、hould“, “should not“, “may“, “need not“, “will“, “will not“, “can“ and “cannot“ are to be interpreted as described in clause 3.2 of the ETSI Drafting Rules (Verbal forms for the expression of provisions). “must“ and “must not“ are NOT allowed in ETSI deliverables except when used in direct citation.
44、 ETSI ETSI TS 101 376-4-15 V3.4.1 (2017-03) 9GMR-1 3G 25.323Introduction GMR stands for GEO (Geostationary Earth Orbit) Mobile Radio interface, which is used for Mobile Satellite Services (MSS) utilizing geostationary satellite(s). GMR is derived from the terrestrial digital cellular standard GSM an
45、d supports access to GSM core networks. The present document is part of the GMR Release 3 specifications. Release 3 specifications are identified in the title and can also be identified by the version number: Release 1 specifications have a GMR 1 prefix in the title and a version number starting wit
46、h “1“ (V1.x.x). Release 2 specifications have a GMPRS 1 prefix in the title and a version number starting with “2“ (V2.x.x). Release 3 specifications have a GMR-1 3G prefix in the title and a version number starting with “3“ (V3.x.x). The GMR release 1 specifications introduce the GEO-Mobile Radio i
47、nterface specifications for circuit mode Mobile Satellite Services (MSS) utilizing geostationary satellite(s). GMR release 1 is derived from the terrestrial digital cellular standard GSM (phase 2) and it supports access to GSM core networks. The GMR release 2 specifications add packet mode services
48、to GMR release 1. The GMR release 2 specifications introduce the GEO-Mobile Packet Radio Service (GMPRS). GMPRS is derived from the terrestrial digital cellular standard GPRS (included in GSM Phase 2+) and it supports access to GSM/GPRS core networks. The GMR release 3 specifications evolve packet m
49、ode services of GMR release 2 to 3rd generation UMTS compatible services. The GMR release 3 specifications introduce the GEO-Mobile Radio Third Generation (GMR-1 3G) service. Where applicable, GMR-1 3G is derived from the terrestrial digital cellular standard 3GPP and it supports access to 3GPP core networks. Due to the differences between terrestrial and satellite channels, some modifications to the GSM or 3GPP standard are necessary. Some GSM and 3GPP specifications are directly applicable, whereas others are applicable with modifications. Similarly, some GSM and 3