LTE中文协议LTE_3GPP_36.213-860(中文版)(221页).doc

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1、-3GPP TS 36.213 V8.6.0 (2009-03)Technical Specification3rd Generation Partnership Project;Technical Specification Group Radio Access Network;Evolved Universal Terrestrial Radio Access (E-UTRA);Physical layer procedures(Release 8)The present document has been developed within the 3rd Generation Partn

2、ership Project (3GPP TM) and may be further elaborated for the purposes of 3GPP. The present document has not been subject to any approval process by the 3GPP Organisational Partners and shall not be implemented. This Specification is provided for future development work within 3GPP only. The Organi

3、sational Partners accept no liability for any use of this Specification.Specifications and reports for implementation of the 3GPP TM system should be obtained via the 3GPP Organisational Partners Publications Offices.第 219 页-KeywordsUMTS, radio, layer 13GPPPostal address3GPP support office address65

4、0 Route des Lucioles Sophia AntipolisValbonne FranceTel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16Intpp.orgCopyright NotificationNo part may be reproduced except as authorized by written permission.The copyright and the foregoing restriction extend to reproduction in all media. 2009, 3GPP Organizati

5、onal Partners (ARIB, ATIS, CCSA, ETSI, TTA, TTC).All rights reserved.UMTS is a Trade Mark of ETSI registered for the benefit of its members3GPP is a Trade Mark of ETSI registered for the benefit of its Members and of the 3GPP Organizational PartnersLTE is a Trade Mark of ETSI currently being registe

6、red for the benefit of its Members and of the 3GPP Organizational PartnersGSM and the GSM logo are registered and owned by the GSM AssociationContentsForeword51Scope62References63Definitions, symbols, and abbreviations73.1Symbols73.2Abbreviations74Synchronisation procedures84.1Cell search84.2Timing

7、synchronisation84.2.1Radio link monitoring84.2.2Inter-cell synchronisation84.2.3Transmission timing adjustments85Power control95.1Uplink power control95.1.1Physical uplink shared channel95.1.1.1UE behaviour95.1.1.2Power headroom125.1.2Physical uplink control channel125.1.2.1UE behaviour125.1.3Soundi

8、ng Reference Symbol145.1.3.1UE behaviour145.2Downlink power allocation155.2.1 eNodeB Relative Narrowband TX Power restrictions166Random access procedure166.1Physical non-synchronized random access procedure166.1.1Timing176.2Random Access Response Grant177 Physical downlink shared channel related pro

9、cedures187.1UE procedure for receiving the physical downlink shared channel197.1.1 Single-antenna port scheme217.1.2 Transmit diversity scheme217.1.3 Large delay CDD scheme227.1.4 Closed-loop spatial multiplexing scheme227.1.5 Multi-user MIMO scheme227.1.6 Resource allocation227.1.6.1Resource alloca

10、tion type 0227.1.6.2Resource allocation type 1237.1.6.3Resource allocation type 2247.1.7 Modulation order and transport block size determination257.1.7.1Modulation order determination257.1.7.2Transport block size determination267.1.7.2.1Transport blocks not mapped to two-layer spatial multiplexing27

11、7.1.7.2.2Transport blocksmapped to two-layer spatial multiplexing327.1.7.2.3Transport blocks mapped for DCI Format 1C337.1.7.3Redundancy Version determination for Format 1C337.2UE procedure for reporting channel quality indication (CQI), precoding matrix indicator (PMI) and rank indication (RI)337.2

12、.1Aperiodic CQI/PMI/RI Reporting using PUSCH367.2.2Periodic CQI/PMI/RI Reporting using PUCCH407.2.3Channel quality indicator (CQI) definition467.2.4Precoding Matrix Indicator (PMI) definition487.3UE procedure for reporting ACK/NACK498Physical uplink shared channel related procedures528.1Resource All

13、ocation for PDCCH DCI Format 0548.2UE sounding procedure558.3UE ACK/NACK procedure578.4UE PUSCH Hopping procedure588.4.1 Type 1 PUSCH Hopping598.4.2 Type 2 PUSCH Hopping598.5UE Reference Symbol procedure608.6Modulation order, redundancy version and transport block size determination608.6.1 Modulatio

14、n order and redundancy version determination608.6.2 Transport block size determination618.6.3 Control information MCS offset determination618.7UE Transmit Antenna Selection639Physical downlink control channel procedures649.1UE procedure for determining physical downlink control channel assignment649

15、.1.1 PDCCH Assignment Procedure649.1.2 PHICH Assignment Procedure659.2PDCCH validation for semi-persistent scheduling6610Physical uplink control channel procedures6710.1UE procedure for determining physical uplink control channel assignment6710.2Uplink ACK/NACK timing72Annex A (informative):Change h

16、istory74ForewordThis Technical Specification (TS) has been produced by the 3rd Generation Partnership Project (3GPP).The contents of the present document are subject to continuing work within the TSG and may change following formal TSG approval. Should the TSG modify the contents of this present doc

17、ument, it will be re-released by the TSG with an identifying change of release date and an increase in version number as follows:Version x.y.zwhere:xthe first digit:1presented to TSG for information;2presented to TSG for approval;3or greater indicates TSG approved document under change control.ythe

18、second digit is incremented for all changes of substance, i.e. technical enhancements, corrections, updates, etc.zthe third digit is incremented when editorial only changes have been incorporated in the document.1ScopeThe present document specifies and establishes the characteristics of the physical

19、s layer procedures in the FDD and TDD modes of E-UTRA.2ReferencesThe following documents contain provisions which, through reference in this text, constitute provisions of the present document. References are either specific (identified by date of publication, edition number, version number, etc.) o

20、r nonspecific. For a specific reference, subsequent revisions do not apply. For a non-specific reference, the latest version applies. In the case of a reference to a 3GPP document (including a GSM document), a non-specific reference implicitly refers to the latest version of that document in the sam

21、e Release as the present document.13GPP TR 21.905: “Vocabulary for 3GPP Specifications”23GPP TS 36.201: “Evolved Universal Terrestrial Radio Access (E-UTRA); Physical Layer General Description”33GPP TS 36.211: “Evolved Universal Terrestrial Radio Access (E-UTRA); Physical channels and modulation”43G

22、PP TS 36.212: “Evolved Universal Terrestrial Radio Access (E-UTRA); Multiplexing and channel coding”53GPP TS 36.214: “Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer Measurements”63GPP TS 36.101: “Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio tran

23、smission and reception”73GPP TS 36.104: “Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) radio transmission and reception”83GPP TS36.321, “Evolved Universal Terrestrial Radio Access (E-UTRA); Medium Access Control (MAC) protocol specification” 93GPP TS36.423, “Evolved Universa

24、l Terrestrial Radio Access (E-UTRA); X2 Application Protocol (X2AP)” 103GPP TS36.133, “Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements for support of radio resource management”113GPP TS36.331, “Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Resource Control (RRC) protoc

25、ol specification”3Definitions, symbols, and abbreviations3.1SymbolsFor the purposes of the present document, the following symbols apply:Downlink bandwidth configuration, expressed in units of as defined in 3 Uplink bandwidth configuration, expressed in units of as defined in 3 Number of SC-FDMA sym

26、bols in an uplink slot as defined in 3Resource block size in the frequency domain, expressed as a number of subcarriers as defined in 3Basic time unit as defined in 33.2AbbreviationsFor the purposes of the present document, the following abbreviations apply.ACKAcknowledgementBCHBroadcast ChannelCCEC

27、ontrol Channel ElementCQIChannel Quality IndicatorCRCCyclic Redundancy CheckDAIDownlink Assignment IndexDLDownlinkDTXDiscontinuous TransmissionEPREEnergy Per Resource Element MCSModulation and Coding SchemeNACKNegative AcknowledgementPBCHPhysical Broadcast ChannelPCFICHPhysical Control Format Indica

28、tor ChannelPDCCHPhysical Downlink Control ChannelPDSCHPhysical Downlink Shared ChannelPHICHPhysical Hybrid ARQ Indicator ChannelPRACHPhysical Random Access ChannelPRBPhysical Resource BlockPUCCHPhysical Uplink Control ChannelPUSCHPhysical Uplink Shared ChannelQoSQuality of ServiceRBGResource Block G

29、roupREResource ElementRPFRepetition FactorRSReference SignalSIRSignal-to-Interference RatioSINRSignal to Interference plus Noise Ratio SPS C-RNTISemi-Persistent Scheduling C-RNTISRSSounding Reference SymbolTATime alignmentTTITransmission Time IntervalUEUser Equipment ULUplinkUL-SCHUplink Shared Chan

30、nelVRBVirtual Resource Block4同步过程4.1小区搜索小区搜索是指UE在小区中获取时间和频率同步并检测小区物理层Cell ID的过程。E-UTRA小区搜索支持包含6个以上资源块的传输带宽范围内的搜索。通过主同步信号和辅同步信号的发送实现下行链路的小区搜索。4.2时间同步4.2.1无线链路监测UE应该监测服务小区无线链路的质量,因为UE要把探测到的同步状况传给高层, 在非DRX(Discontinuous Receptio,省电模式)模式操作,UE的物理层在每个无线帧都要检测无线链路质量,并通过前一时间段200ms周期测得 ,这个无线链路质量的检测依赖于门限Qout a

31、nd Qin(在10相关测试中被隐含定义)。在DRX模式操作,UE的物理层至少每个DRX阶段都要检测无线链路质量,并通过之前的周期10中定义测得。这个无线链路质量的检测依赖于门限Qout and Qin(在10相关测试中被隐含定义)。UE的物理层 在检测无线链路质量的无线帧中指示同步情况并上报给高层:当无线链路质量比门限值Qout差时,指示为失同步;当无线链路质量好于Qin时,指示为同步。4.2.2小区间同步例如,用于有多播物理信道的小区。4.2.3传输定时校正收到定时提前命令后,UE应该调整PUCCH/PUSCH/SRS的上行发送时间。定时提前命令表示为16的整数倍,它和当前上行时间相关。随

32、机接入前导的起始时间在211中设定。随机接入响应中,时间提前命令TA,为11bit,通过索引值TA = 0, 1, 2, ., 1282,来表示NTA值,其中时间序列的数据由NTA = TA 16给出。NTA在3中定义。其它情况下,时间提前命令TA,为6bit,指示当前NTA值相对于新的NTA值NTA,new,的校正,其中索引值TA = 0, 1, 2,., 63, NTA,new = NTA,old + (TA -31)16.这里,NTA 值的校正是通过一个正的或负的数据,根据给出的数据分别来指示上行传输定时的时间提前或延迟子帧n上接收到时间提前命令,相应的定时校正从子帧n+6的开始来进行。

33、当由于时间校正,UE的子帧n和n+1中传输的上行PUCCH/PUSCH/SRS有重叠,UE应传输完整的子帧n,而不传输子帧n+6的重叠部分。如果接收到的下行定时发生改变,没有10中所提到的时间提前要求,上行定时校正不再补偿或只是部分补偿,那么UE随之改变NTA。5功率控制下行功率控制决定单位资源元素上的功率值,可见是在频域进行功率分配再进行时域加CP,同时功率分配是进行在子载波上,是对各个复信号上的幅度的调整。上行功率控制决定所传输的DFT-SOFDM符号上的功率值。5.1上行功率控制上行功率控制控制着不同物理信道的发送功率值。关于小区级的过载指示 (OI) 高干扰指示 (HII) 的干扰协调

34、定义在参考文献9。5.1.1上行物理共享信道5.1.1.1UE行为每个子帧i 的物理上行信道PUSCH的发送功率 设定计算如下: dBm其中: :UE最大发送功率,23dBm左右,见 6的6.2.2节。 :在子帧i中PUSCH所占的带宽,单位是资源块RB。 : = +。高层决定j的取值,j=0 时,对应半静态授权的PUSCH传输或重传;j=1时,对应动态授权的PUSCH传输或重传;j=2时,对应随机接入响应授权的PUSCH传输或重传,此时, ,其中,和由高层信令配置; 当j =0 或1时, 是一个3bit高层配置的小区级参数; 当 j=2时, ;(部分功率补偿因子) PL :下行路损估计值。通

35、过下式计算出,PL = referenceSignalPower higher layer filtered RSRP。其中 referenceSignalPower 由高层配置,RSRP 在参考文档5中定义,而higher layer filter在11中配置。 :公式如下,。其中或者,其配置情况由高层配置用户级参数deltaMCS-Enabled决定。o 当中只有控制数据时,;其它情况等于 。 等于码块数, 等于第个码块的大小,等于加上CRC位的比特数,等于资源元素由公式得出。其中, 和 在参考文档4给出,并且, 和在初始化的时候获得。o 当中只有控制数据时 ;其它情况等于。 :用户级参数

36、,对应于DCI0和联合编码DCI3/3A的PDCCHTPC命令。DCI0使用C-RNTI加扰CRC,DCI3/3A使用TPC-PUSCH-RNTI加扰CRC。当前子帧PUSCH的功率调整值等于,定义如下:o 当累积修正Accumulation-enabled 使能时,或者在DCI0调整情况下 其中是在DCI0或DCI3/3A传下来的信令TPC,来自对应PDCCH的子帧为 , 而且是最初的累积值。 的值定义如下: 在FDD情况下,= 4 在TDD UL/DL配比 1-6时, 由表Table 5.1.1.1-1给出。 在TDD UL/DL 配比 0时o 如果子帧2和7的PUSCH是PDCCH的DC

37、I0调度的,且DCI0中的UL index域高位设为1时, = 7。o 其它PUSCH传输情况时, 由表5.1.1.1-1设置。 除非处在DRX状态,UE会不断地在每个子帧检测DCI0和DCI3/3A分别使用C-RNTI和TPC-PUSCH-RNTI。 如果DCI0和DCI3/3A都被检测成功,UE会选择DCI0的TPC用作。 如果没有TPC命名下发或者处在DRX状态下以及没有上行子帧时,。 的取值单位为dB,其和DCI0中TPC取值对应关系见表5.1.1.1-2。 的取值单位为dB,其和DCI3/3A中TPC取值对应关系见表5.1.1.1-2或者表5.1.1.1-3,具体用户的TPC由高层配

38、置的TPC-Index决定。 如果UE到达最大发送功率时,正的功率修正值TPC不再有效。 如果UE到达最小发送功率时,负的功率修正值TPC不再有效。 UE应该在以下情况复位累加值: 当绝对功率修正值TPC命令收到时; 当收到信令时; 当UE收到随机接入响应消息时;o 当累积修正Accumulation-enabled 不使能时, 其中由上传送下来决定 的值等于: 在 FDD情况下,= 4 在 TDD UL/DL配比1-6时, 由表5.1.1.1-1决定。 在TDD UL/DL配比0o 如果子帧2和7的PUSCH是PDCCH的DCI0调度的,且DCI0中的UL index域高位设为1时, = 7

39、。o 其它PUSCH传输情况时, 由表5.1.1.1-1设置。 的取值单位为dB,其和DCI0中TPC取值对应关系见表5.1.1.1-2。 当子帧DCI0没有检测到、处在DRX状态以及TDD制式下无上行子帧时:。o 在累积修正和绝对值修正情况下,都须满足下面设定: 如果收到高层命令, 否则o 其中 是随机接入响应专有的TPC命令,参见6.2节, o 来自高层,对应总功率放大范围,从第一个preamble到最后一个preamble结束。Table 5.1.1.1-1 for TDD configuration 0-6TDD UL/DLConfigurationsubframe number i0

40、1234567890- -674-6741-64-64-2-4-4-3-444-4-44-5-4-6-775-77-Table 5.1.1.1-2: Mapping of TPC Command Field in DCI format 0/3 to absolute and accumulated values.TPC Command Field inDCI format 0/3Accumulated dBAbsolute dB only DCI format 00-1-410-1211334Table 5.1.1.1-3: Mapping of TPC Command Field in DC

41、I format 3A to values.TPC Command Field inDCI format 3A dB0-1115.1.1.2功率池UE功率池定义如下: dB其中, , , , , PL, and 如5.1.1.1定义。 功率池应该在以下这个范围之内40; -23 dB,单位步长dB,由物理层报给高层。5.1.2上行物理控制信道5.1.2.1UE行为UE侧对发送功率定义如下: dBm其中 :UE最大发送功率,23dBm左右,见 6的6.2.2节。 :高层配置,每个一个配置的Each 值都是格式UCI1a的相对值,其中UCI1a不做调整,具体配置范围参见表5.4-1 3。 :PUC

42、CH格式关系值,其中对应信道质量信息比特如5.2.3.3 4,HARQ比特数。o 对于PUCCH格式1,1a and 1b: o 对于PUCCH格式2, 2a, 2b 和正常CP情况下: o 对于PUCCH格式2和扩展CP情况下: :是高层配置,等于 + 。 :是UE专属修正参数,对应于TPC命令,包括在DCI1A/1B/1D/1/2A/2或者DCI 3/3A中,他们的CRC分别用C-RNTI或者TPC-PUCCH-RNTI。o UE会在PDCCH中检测DCI 3/3A或者DCI1A/1B/1D/1/2A/2的TPC命令,除非在DRX状态。o 如果UE检测PDCCH中DCI 1A/1B/1D/

43、1/2A/2的TPC成功,UE使用调整发送功率值否则 如果UE检测DCI 3/3A成功,UE利用TPC的调整,否则 = 0 dB.o ,其中是当前帧PUCCH的发送功率的调整值大小, 在FDD情况下, and . 在TDD情况下,和值由表10.1-1给出。 dB值由信令PDCCH的DCI1A/1B/1D/1/2A/2中TPC对应给出,参见表5.1.2.1-1。 dB值由信令PDCCH的DCI3/3A中TPC对应给出,参见表5.1.2.1-1或者5.1.2.1-2。高层半静态配置。 初始值由以下定义: 如果高层配置, o 否则o 其中 是随机接入响应专有的TPC命令,参见6.2节。 来自高层,对

44、应总功率放大范围,从第一个preamble到最后一个preamble结束。 如果UE已经达到最大发送功率值,正的TPC不再有效。 如果UE已经达到最小发送功率值,负的TPC不再有效。 UE应该在以下情况下复位初始累加值 小区更改 正在进入或退出RRC激活状态 收到 UE收到随机接入响应消息 TDD制式下,非上行发送子帧时, Table 5.1.2.1-1: Mapping of TPC Command Field in DCI format 1A/1B/1D/1/2A/2/3 to values.TPC Command Field inDCI format 1A/1B/1D/1/2A/2/3 dB0-1102133Table 5.1.2.1-2: Mapping of TPC Command Field in DCI format 3A to values.TPC Command Field inDCI format 3A dB0-1115.1.3侦听参考符号5.1.3.1UE行为UE发送侦听参考信号功率定义如下: dBm其中 :UE最大发送功率,23dBm左右,见 6的6.2.2节。 当时, 是一个4比特用户级的半静态配置参数, 由高层配置,步长 1dB,范围 -3, 12 dB. 当时,是一个4比特用户级的半静态配置参数,高层配置,步长1.5dB,范围-10.5,12 d

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