ETSI TR 125 903-2016 Universal Mobile Telecommunications System (UMTS) Continuous connectivity for packet data users (V13 0 0 3GPP TR 25 903 version 13 0 0 Release 13)《通用移动通信系统(UMT.pdf

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1、 ETSI TR 1Universal Mobile TelContinuous con(3GPP TR 25.9TECHNICAL REPORT 125 903 V13.0.0 (2016elecommunications System (onnectivity for packet data use.903 version 13.0.0 Release 1316-01) (UMTS); sers 13) ETSI ETSI TR 125 903 V13.0.0 (2016-01)13GPP TR 25.903 version 13.0.0 Release 13Reference RTR/T

2、SGR-0125903vd00 Keywords UMTS ETSI 650 Route des Lucioles F-06921 Sophia Antipolis Cedex - FRANCE Tel.: +33 4 92 94 42 00 Fax: +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 docum

3、ent can be downloaded from: http:/www.etsi.org/standards-search The present document may be made available in electronic versions and/or in print. The content of any electronic and/or print versions of the present document shall not be modified without the prior written authorization of ETSI. In cas

4、e of any existing or perceived difference in contents between such versions and/or in print, the only prevailing document is the print of the Portable Document Format (PDF) version kept on a specific network drive within ETSI Secretariat. Users of the present document should be aware that the docume

5、nt may be subject to revision or change of status. Information on the current status of this and other ETSI documents is available at http:/portal.etsi.org/tb/status/status.asp If you find errors in the present document, please send your comment to one of the following services: https:/portal.etsi.o

6、rg/People/CommiteeSupportStaff.aspx Copyright Notification No part may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying and microfilm except as authorized by written permission of ETSI. The content of the PDF version shall not be modified withou

7、t the written authorization of ETSI. The copyright and the foregoing restriction extend to reproduction in all media. European Telecommunications Standards Institute 2016. All rights reserved. DECTTM, PLUGTESTSTM, UMTSTMand the ETSI logo are Trade Marks of ETSI registered for the benefit of its Memb

8、ers. 3GPPTM and LTE are Trade Marks of ETSI registered for the benefit of its Members and of the 3GPP Organizational Partners. GSM and the GSM logo are Trade Marks registered and owned by the GSM Association. ETSI ETSI TR 125 903 V13.0.0 (2016-01)23GPP TR 25.903 version 13.0.0 Release 13Intellectual

9、 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: “Intellectual Property Rights (IPR

10、s); 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, including IPR searches, has been

11、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 Report (TR) has been produced by ETSI 3rd Generat

12、ion Partnership Project (3GPP). The present document may refer to technical specifications or reports using their 3GPP identities, UMTS identities or GSM identities. These should be interpreted as being references to the corresponding ETSI deliverables. The cross reference between GSM, UMTS, 3GPP an

13、d ETSI identities can be found under http:/webapp.etsi.org/key/queryform.asp. Modal verbs terminology In the present document “shall“, “shall not“, “should“, “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

14、Rules (Verbal forms for the expression of provisions). “must“ and “must not“ are NOT allowed in ETSI deliverables except when used in direct citation. ETSI ETSI TR 125 903 V13.0.0 (2016-01)33GPP TR 25.903 version 13.0.0 Release 13Contents Intellectual Property Rights 2g3Foreword . 2g3Modal verbs ter

15、minology 2g3Foreword . 6g3Introduction 6g31 Scope 7g32 References 7g33 Definitions, symbols and abbreviations . 8g33.1 Definitions 8g33.2 Symbols 8g33.3 Abbreviations . 8g34 Technical Concepts 9g34.1 New DPCCH slot format 10g34.1.1 Description of the concept 10g34.1.1.1 General description . 10g34.1

16、.1.2 Detailed Proposals . 12g34.1.1.2.1 SIR Target adjustment . 12g34.1.1.2.2 CPC Initiation and Termination 13g34.1.2 Analysis of the concept . 14g34.1.2.1 Simulation Results on UL TPC error rate . 14g34.1.2.2 Simulation results on other UL channels 17g34.1.2.2.1 CQI transmission. 18g34.1.2.2.2 HAR

17、Q-ACK transmission . 25g34.1.2.2.3 Observations from simulations of HS-DPCCH performance in sub-clauses 4.1.2.2.1 and 4.1.2.2.2 . 30g34.1.2.3 Conclusions from TPC performance (sub-clause 4.1.2.1) and HS-DPCCH performance (sub-clause 4.1.2.2) . 31g34.1.2.4 Power control delay. 31g34.1.3 Benefits of t

18、he concept . 32g34.1.4 Open issues of the concept 32g34.2 Uplink DPCCH Gating . 32g34.2.1 Description of the concept 32g34.2.1.1 General Principle . 33g34.2.1.2 Basic Packet Traffic Example . 33g34.2.1.3 VoIP Traffic Example . 33g34.2.1.4 Operation of the Uplink DPCCH Gating 34g34.2.2 Analysis of th

19、e concept . 36g34.2.2.1 Power control stability 36g34.2.2.2 F-DPCH performance . 39g34.2.2.3 Uplink link performance 43g34.2.2.3.1 Additional Link Level Results . 46g34.2.2.3.1.2 Simulation Results . 48g34.2.2.3.1.2.1 Simulations Results Over Data Active Periods 48g34.2.2.3.1.2.2 Simulations Results

20、 Over Data Inactive Periods 51g34.2.2.3.2 Link Level Results for CQI Decoding and for Large TB Sizes . 54g34.2.2.3.2.1 Simulation Assumptions 54g34.2.2.3.2.2 CQI Decoding Simulation Results . 55g34.2.2.3.2.3 Simulation Results with 2000-bit TB Size . 57g34.2.2.3.3 Preamble detection link level resul

21、t for uplink DPCCH gating with long gating gap . 60g34.2.2.3.3.1 Simulation Assumptions 60g34.2.2.3.3.2 Simulation Results . 61g34.2.2.4 System performance 62g3ETSI ETSI TR 125 903 V13.0.0 (2016-01)43GPP TR 25.903 version 13.0.0 Release 134.2.2.4.1 Simulation assumptions . 62g34.2.2.4.2 VoIP results

22、 with and without gating 2 ms TTI 62g34.2.2.4.3 VoIP results with and without gating 10 ms TTI and packet bundling 64g34.2.2.4.4 VoIP results - Summary 66g34.2.2.4.5 Impact of inactive users to cell throughput 66g34.2.2.4.6 System-level performance with high-velocity UEs . 68g34.2.2.5 UE battery sav

23、ing calculations 70g34.2.3 Benefits of the concept . 73g34.2.4 Open issues of the concept 73g34.3 SIR_target reduction. 74g34.3.1 Description of the concept 74g34.3.1.1 L1 signalling approach 74g34.3.1.1.1 Interworking aspects 75g34.3.1.1.2 Handling of VoIP traffic 76g34.3.1.2 L2 signalling approach

24、 77g34.3.1.2.1 New parameters for L2 signalling approach 78g34.3.1.3 Approach with predefined/configured rules 78g34.3.2 Analysis of the concept . 79g34.3.2.1 Simulation of the concept 79g34.3.2.1.1 Simulation assumptions. 79g34.3.2.1.2 Simulation results 80g34.3.2.2 Noise rise caused by UL DPCCH .

25、82g34.3.2.3 Potential gain in terms of number of additional users 2 presented to TSG for approval; 3 or greater indicates TSG approved document under change control. y the second digit is incremented for all changes of substance, i.e. technical enhancements, corrections, updates, etc. z the third di

26、git is incremented when editorial only changes have been incorporated in the document. Introduction Packet-oriented features like HSDPA and E-DCH in WCDMA/UMTS systems will promote the subscribers“ desire for continuous connectivity, where the user stays connected over a long time span with only occ

27、asional active periods of data transmission, and avoiding frequent connection termination and re-establishment with its inherent overhead and delay. This is the perceived mode a subscriber is used to in fixed broadband networks (e.g. DSL) and a precondition to attract users from fixed broadband netw

28、orks. To support a high number of HSDPA users in the code limited downlink the feature F-DPCH was introduced in REL-6. In the uplink, the limiting factor for supporting a similarly high number of E-DCH users is the noise rise. For such a high number of users in the cell it can be assumed that many u

29、sers are not transmitting any user data for some time (e.g. for reading during web browsing or in between packets for periodic packet transmission such as VoIP).The corresponding overhead in the noise rise caused by maintained control channels will significantly limit the number of users that can be

30、 efficiently supported. As completely releasing dedicated channels during periods of traffic inactivity would cause considerable delays for reestablishing data transmission and a corresponding bad user perception, this WI is intended to reduce the impact of control channels on uplink noise rise whil

31、e maintaining the connections and allowing a much faster reactivation for temporarily inactive users. ETSI ETSI TR 125 903 V13.0.0 (2016-01)73GPP TR 25.903 version 13.0.0 Release 131 Scope The present document summarizes the work done under the WI Continuous Connectivity for Packet Data Users define

32、d in 1 by listing technical concepts addressing the objectives of the work item (see below), analysing these technical concepts and selecting the best solution (which might be a combination of technical concepts). The objective of this work item is to reduce the uplink noise rise from physical contr

33、ol channels of packet data users, e.g. for users which have temporarily no data transmission. This is intended to significantly increase the number of packet data users (i.e. HS-DSCH/E-DCH users without UL DPDCH) in the UMTS FDD system that can stay in CELL_DCH state over a long time period, without

34、 degrading cell throughput, and that can restart transmission after a period of inactivity with a much shorter delay ( 3.3 Abbreviations For the purposes of the present document, the following abbreviations apply: ACK Acknowledgement CQI Channel Quality Indicator CPC Continuously Packet Connected or

35、 Continuous Packet Connectivity CRC Cyclic Redundancy Check DCH Dedicated Channel DL Downlink DPCCH Dedicated Physical Control Channel DPCH Dedicated Physical Channel DPDCH Dedicated Physical Data Channel DTX Discontinuous Transmission E-DCH Enhanced Dedicated Channel ETSI ETSI TR 125 903 V13.0.0 (2

36、016-01)93GPP TR 25.903 version 13.0.0 Release 13E-DPCCH E-DCH Dedicated Physical Control Channel E-DPDCH E-DCH Dedicated Physical Data Channel E-AGCH E-DCH Absolute Grant Channel E-HICH E-DCH HARQ Acknowledgement Indicator Channel E-RGCH E-DCH Relative Grant Channel F-DPCH Fractional Dedicated Physi

37、cal Channel HSDPA High Speed Downlink Packet Access HS-DSCH High Speed Downlink Shared Channel HS-PDSCH High Speed Physical Downlink Shared Channel HS-SCCH High Speed Physical Downlink Shared Control Channel NACK Negative Acknowledgement P-CCPCH Primary Common Control Physical Channel RL Radio LinkS

38、-CCPCH Secondary Common Control Physical Channel SCH Synchronisation Channel SIR Signal-to-Interference RatioTFC Transport Format Combination TPC Transmit Power Control TPC CER TPC Command Error Rate TTI Transmission Time Interval UE User Equipment UL Uplink UTRAN UMTS Terrestrial Radio Access Netwo

39、rk 4 Technical Concepts This section describes and analyses the suggested technical concepts addressing the problem described by the work item Continuous Connectivity for Packet Data Users defined in 1. This section 4 includes feasible concepts to address the WI without claiming that the concepts ar

40、e complete or restricting the addition of alternatives. The following common base for all concepts can be assumed: Packet data users in CELL_DCH state using HSDPA and E-DCH as described in REL-6 are addressed. The UE is and will remain in the CELL_DCH RRC state whatever continuous connectivity conce

41、pt will be applied. The signalling radio bearers (SRBs) are assumed to be mapped on HS-DSCH in downlink (as is necessary for F-DPCH, anyway) and on E-DCH in uplink. UL channels present in this case: UL DPCCH, HS-DPCCH, E-DPCCH, E-DPDCH (E-DPCCH, E-DPDCH are DTXed when no data (or rate requests) need

42、s to be transmitted on E-DPDCH). DL channels present in this case: F-DPCH, HS-SCCH, HS-PDSCH, E-AGCH, E-RGCH, E-HICH. To avoid DL channelization code limitations F-DPCH instead of DL DPCCH is considered. Different phases during the stay in the CELL_DCH state can be distinguished by the activity of t

43、he data channels: active DL: Packet on HS-PDSCH is transmitted to the UE in the TTI. inactive DL: No packet is transmitted on HS-PDSCH to the UE in the TTI. active UL: Packet on E-DPDCH is transmitted to the Node B in the TTI. inactive UL: No packet is transmitted on E-DPDCH to the Node B in the TTI

44、. It is the aim that the application of a continuous connectivity concept will not affect the performance of a transmission in an active TTI. The description of the active and inactive phases does not preclude the way and whether or not CELL_DCH substates should be introduced. The continuous connect

45、ivity concepts are addressing the control channels (i.e. one or more) during inactive phases in UL and/or DL. The triggers for initiating and terminating the use of a continuous connectivity concept relative to the start and end of active and inactive phases depend on the considered concept. For exa

46、mple: whether the concept is triggered when there is inactivity in just one direction (i.e. only DL, only UL) or in both directions (UL ETSI ETSI TR 125 903 V13.0.0 (2016-01)103GPP TR 25.903 version 13.0.0 Release 13 whether a transition from activity to inactivity will directly trigger the applicat

47、ion of the concept or whether there is a short period of inactive phase without applying the concept (e.g. if a timer is used to trigger the concept); whether very short periods of DL and/or UL inactivity (e.g. during transmission of VoIP packets or where a UE is not scheduled but data is waiting in

48、 the scheduler queue) could also be addressed by a continuous connectivity concept. whether during an inactive phase the concept is used during transmission of physical layer signalling (e.g. on HS-DPCCH or HS-SCCH). The period during which a continuous connectivity concept is applied is called “Con

49、tinuously Packet Connected mode“ or shorter “CPC mode“. Transitions between the different phases: The following transitions are called “ CPC initiation“: active phase to CPC mode inactive phase where REL-6 is applied as usual to CPC mode while the transition back is called “CPC termination“: CPC mode to active phase. CPC mode to inactive phase where REL-6 is applied as usual Triggers for the transitions and a description of the signalling (e.g. L1 or L2 signalling) or the implicit rules/blind detection (if no signalling is require

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