3GPP ETSI ts125.413中文规范

3GPP TS 36.412 V11.0.0 (2012-09)Technical Specification3rd Generation Partnership Project;Technical Specification Group Radio Access Network;Evolved Universal Terrestrial Radio Access Network(E-UTRAN);S1 signalling transport(Release 11)The present document has been developed within the 3rd Generation Partnership 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 Organizational Partners and shall not be implemented.This Specification is provided for future development work within 3GPP only. The Organizational 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 Organizational Partners' Publications Offices.KeywordsLTE, radio3GPPPostal address3GPP support office address650 Route des Lucioles - Sophia AntipolisValbonne - FRANCETel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16InternetCopyright NotificationNo part may be reproduced except as authorized by written permission.The copyright and the foregoing restriction extend to reproduction in all media.© 2012, 3GPP Organizational 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 registered for the benefit of its Members and of the 3GPP Organizational Partners GSM® and the GSM logo are registered and owned by the GSM AssociationContentsForeword (4)1Scope (5)2References (5)3Definitions and abbreviations (5)3.1Definitions (5)3.2Abbreviations (5)4S1 signalling bearer (6)4.1Functions and protocol stack (6)5Data link layer (6)6IP layer (6)7Transport layer (6)Annex A (informative): Change History (8)ForewordThis Technical Specification 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 the present document, 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:x the first digit:1 presented to TSG for information;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 digit is incremented when editorial only changes have been incorporated in the document.1 ScopeThe present document specifies the standards for signalling transport to be used across S1 interface. S1 interface is a logical interface between the eNB and the E-UTRAN core network. The present document describes how the S1-AP signalling messages are transported over S1.2 ReferencesThe 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.) or non-specific.∙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 (includinga GSM document), a non-specific reference implicitly refers to the latest version of that document in the sameRelease as the present document.[1] 3GPP TR 21.905: "Vocabulary for 3GPP Specifications".[2] IETF RFC 2460 (1998-12): "Internet Protocol, Version 6 (IPv6) Specification".[3] IETF RFC 791(1981-09): "Internet Protocol".[4] IETF RFC 2474 (1998-12): "Definition of the Differentiated Services Field (DS Field) in the IPv4and IPv6 Headers".[5] IETF RFC 4960 (2007-09): "Stream Control Transmission Protocol".3 Definitions and abbreviations3.1 DefinitionsFor the purposes of the present document, the terms and definitions given in TR 21.905 [1] and the following apply. A term defined in the present document takes precedence over the definition of the same term, if any, in TR 21.905 [1].S1: interface between an eNB and an EPC, providing an interconnection point between the EUTRAN and the EPC. It is also considered as a reference point.S1-MME: Reference point for the control plane protocol between E-UTRAN and MME.3.2 AbbreviationsFor the purposes of the present document, the following abbreviations apply.eNB E-UTRAN Node BEPCDiffServ Differentiated ServiceIP Internet ProtocolMME Mobility Management EntityPPP Point to Point ProtocolSCTP Stream Control Transmission Protocol4 S1 signalling bearer4.1 Functions and protocol stackS1 signalling bearer provides the following functions:- Provision of reliable transfer of S1-AP message over S1-MME interface.- Provision of networking and routeing function- Provision of redundancy in the signalling network- Support for flow control and congestion controlThe protocol stack for S1 signalling bearer is shown in figure 4.1 and details on each protocol are described in the following clauses.Figure 4.1: S1-MME signalling bearer protocol stackThe transport network layer is based on IP transport, comprising SCTP on top of IP.5 Data link layerThe support of any suitable data link layer protocol, e.g. PPP, Ethernet, etc. , shall not be prevented.6 IP layerThe eNB and MME shall support IPv6 (IETF RFC 2460 [2]) and/or IPv4 (IETF RFC 791 [3]).The IP layer of S1-MME only supports point-to-point transmission for delivering S1-AP message.The eNB and MME shall support the Diffserv Code Point marking as described in IETF RFC 2474 [4].7 Transport layerSCTP (IETF RFC 4960 [5]) shall be supported as the transport layer of S1-MME signalling bearer. The Payload Protocol Identifier assigned by IANA to be used by SCTP for the application layer protocol S1AP is 18.SCTP refers to the Stream Control Transmission Protocol developed by the Sigtran working group of the IETF for the purpose of transporting various signalling protocols over IP network.There shall be only one SCTP association established between one MME and eNB pair.The eNB shall establish the SCTP association. The SCTP Destination Port number value assigned by IANA to be used for S1AP is 36412.Within the SCTP association established between one MME and eNB pair:- a single pair of stream identifiers shall be reserved for the sole use of S1AP elementary procedures that utilize non UE-associated signalling.- At least one pair of stream identifiers shall be reserved for the sole use of S1AP elementary procedures that utilize UE-associated signallings. However a few pairs (i.e. more than one) should be reserved.- A single UE-associated signalling shall use one SCTP stream and the stream should not be changed during the communication of the UE-associated signalling.Transport network redundancy may be achieved by SCTP multi-homing between two end-points, of which one or both is assigned with multiple IP addresses. SCTP end-points shall support a multi-homed remote SCTP end-point. For SCTP endpoint redundancy an INIT may be sent from MME or eNB, at any time for an already established SCTP association, which shall be handled as defined in IETF RFC 4960 [5] in subclause 5.2.The SCTP congestion control may, using an implementation specific mechanism, initiate higher layer protocols to reduce the signalling traffic at the source and prioritise certain messages.Annex A (informative): Change History。

通信标准参考性技术文件IMT-DS FDD(WCDMA)系统Iu接口技术规范：信令传输IMT-DS FDD(WCDMA) System Iu Interface: Signalling Transport20XX-XX-XX发布 20XX-XX-XX实施中华人民共和国信息产业部科学技术司印发目次前言 (II)1 范围 (2)2 引用标准 (2)3 缩写 (3)4 A TM层 (3)4.1 概述 (3)5 RANAP信令承载 (3)5.1 概述 (3)5.2 CS域信令承载 (4)5.3 PS域的信令承载 (4)5.4 信令承载提供的业务 (5)前言本通信标准参考性技术文件主要用于规定IMT-2000 DS系统FDD模式(WCDMA)的Iu接口信令传输的内容。

本文基于 3GPP制订的Release-99(2000年9月份版本)技术规范，具体对应于TS 25.412 V3.5.0。

本参考性技术文件由信息产业部电信研究院提出。

本参考性技术文件由信息产业部电信研究院归口。

本参考性技术文件起草单位：信息产业部电信传输研究所深圳市中兴通讯股份有限公司本参考性技术文件主要起草人：续合元、盛蕾、徐菲刘太江、赵静荣本参考性技术文件2001年1月首次发布。

本参考性技术文件委托无线通信标准研究组负责解释。

通信标准参考性技术文件IMT-DS FDD(WCDMA)系统Iu接口技术规范：信令传输IMT-DS FDD(WCDMA) System Iu Interface: Signalling Transport1 范围本参考性技术文件规定了Iu接口信令传输协议，它基于3GPP制订的Release-99(2000年9月份版本)技术规范，具体对应于TS 25.412 V3.5.0。

2 引用标准下列标准所包含的条文，通过在本标准中引用而成为本标准的条文。

本标准出版时，所示版本均为有效。

所有标准都会被修订，使用本标准的各方应探讨使用下列标准最新版本的可能性。

通信标准参考性技术文件IMT-DS FDD(WCDMA)系统无线接口物理层技术规范：复用与信道编码IMT-DS FDD(WCDMA) System Radio Interface Physical Layer Techinical Specification: Multiplexing and channel coding20XX-XX-XX发布 20XX-XX-XX实施中华人民共和国信息产业部科学技术司印发目次1 范围 (2)2 引用标准 (2)3名词与缩略语 (2)3.1 定义 (2)3.2 符号 (2)3.3 缩略语 (3)4. 复用、信道编码和交织 (4)4.1 概述 (4)4.2 传输信道编码/复用 (4)4.2.1 CRC附加 (8)4.2.2 传输块的级联和码块分段 (9)4.2.3 信道编码 (10)4.2.4 无线帧尺寸均衡 (17)4.2.5 第一次交织 (18)4.2.6 无线帧分段 (20)4.2.7 速率匹配 (21)4.2.8 传输信道(TRCH)复用 (41)4.2.9 不连续发射(DTX)比特的插入 (42)4.2.10 物理信道的分段 (43)4.2.11 第二次交织 (44)4.2.12 物理信道的映射 (45)4.2.13 对不同编码组合传输信道(CCTRCH)类型的限制 (46)4.2.14 不同传输信道到一个编码组合传输信道(CCTRCH)的复用以及一个编码组合传输信道(CCTRCH)到物理信道的映射 (47)4.3 传输格式检测 (49)4.3.1 盲传输格式检测 (49)4.3.2 基于传输格式组合标识(TFCI)的明确传输格式检测 (50)4.3.3 传输格式合并标志（TFCI）的编码 (50)4.3.4 在分裂模式中的传输格式组合标识（TFCI）的操作 (51)4.3.5 传输格式组合标识(TFCI)码字的映射 (53)4.4 压缩模式 (54)4.4.1 上行链路的帧结构 (54)4.4.2 下行链路帧结构的类型 (54)4.4.3减少传输时间的方法 (55)4.4.4 传输间隔位置 (55)附录A (信息): 盲传输检测 (57)A.1使用固定位置的盲传输格式检测 (57)A.1.1 使用接收功率比的盲传输格式检测 (57)A.1.2 使用CRC的盲传输格式检测 (58)附录B (信息): 压缩模式的等待时间 (61)B.1DL, UL 与DL+UL压缩模式的等待时间 (61)前言本通信标准参考性技术文件主要用于描述IMT-DS FDD(WCDMA)系统的无线接口的物理层的编码与复用部分内容。

中国移动统一D P I设备技术规范L T E信令采集解析服务器接口规范v The document was prepared on January 2, 2021中国移动通信企业标准QB-╳╳-╳╳╳-╳╳╳╳中国移动统一D P I设备技术规范-L T E信令采集解析服务器接口规范T e c h n i c a l S p e c i f i c a t i o n o f D e e p P a c k e tI n s p e c t i o n E q u i p m e n t f o r C M C C(L T E S i g n a l l i n g C o l l e c t i o n S e r v e r I n t e r f a c eP a r t)版本号：╳╳╳╳-╳╳-╳╳发布╳╳╳╳-╳╳-╳╳实施中国移动通信集团公司发布目录前言本规范对中国移动网内使用的深度包检测（DPI）设备的功能和性能提出要求，是部署统一DPI设备需要遵从的技术文件。

本规范定义了LTE采集解析设备服务器的接口规范，包含LTE不同接口XDR格式及接口要求等内容。

本规范是流量控制系统系列标准之一，该系列规范的结构、名称或预计的名称如下：本规范由中移技号印发。

本规范由中国移动通信集团计划部提出。

本规范起草单位：中国移动通信研究院。

本规范主要起草人：梁燕萍、祖国英、余立、张欢、刘坤、郗卓宁、邢喆本规范解释权：中国移动通信研究院。

1范围本规范适用于中国移动的深度报文检测（DPI）设备，供中国移动内部和厂家共同使用。

本规范是中国移动进行DPI设备采购的技术依据。

本规范主要包含LTE不同接口XDR格式及接口要求等内容。

2规范性引用文件下列文件中的条款通过本标准的引用而成为本标准的条款。

凡是注日期的引用文件，其随后所有的修改单（不包括勘误的内容）或修订版均不适用于本标准，然而，鼓励根据本标准达成协议的各方研究是否可使用这些文件的最新版本。

3g直放站监控系统南向接口技术规范-接口数据要求中国移动通信企业标准QB-W-001-20073G直放站监控系统南向接口技术规范-接口数据要求3rd Generation Repeater Data Requirment forMaintenance and Management版本号： 1.0.1╳╳╳╳-╳╳-╳╳发布╳╳╳╳-╳╳-╳╳实施中国移动通信有限公司发布目录前言 (VII)1范围 (1)2引用标准 (1)3术语和定义 (2)4符号和缩略语 (2)5数据要求 (2)5.1设备监控数据 (3)5.2设备采样数据 (10)5.3设备设置数据 (13)5.4设备告警数据 (15)5.5上报数据 (16)5.6监控链路告警数据 (17)5.7服务器告警数据 (17)5.8直放站效果监控 (18)5.8.1效果监控原理框图 (18)5.8.2硬件要求 (18)5.8.3软件要求 (18)5.8.4效果监控的意义 (18)6直放站监控数据定义 (19)6.1设备监控数据 (19)6.1.1设备厂商代码 R001 (19)6.1.2设备类别 R002 (19)6.1.3设备型号 R003 (19)6.1.4设备生产序列号 R004 (19)6.1.5设备实际载波总数 R005 (19)6.1.6经纬度 R006～R007 (20)6.1.7信源经纬度 R008～R009 (20)6.1.8设备监控参量列表 R010 (20)6.1.9当前监控软件版本 R011 (20)6.1.10监控软件运行模式 R012 (20)6.1.11AP：C协议最大长度 R013 (20)6.1.12MCP：B交互机制 R014 (21)6.1.13连发系数（N C） R015 (21)6.1.14设备响应超时（T OT1） R016 (21)6.1.15发送间隔时间（T G） R017 (21)6.1.16暂停传输等待时间（T P） R018 (21)6.1.17监控模式－升级模式转换时间 R019 (21)6.1.18软件远程升级结果 R020 (22)6.1.21设备编号 R023 (22)6.1.22短信服务中心号码 R024 (22)6.1.23查询/设置电话号码1-5 R025～R029 (22)6.1.24上报号码 R030 (22)6.1.25监控中心IP地址1～2（IPv4） R031 (23)6.1.26监控中心IP服务端口号 R032 (23)6.1.27PS域接入点名称（APN） R033 (23)6.1.28心跳包间隔时间 R034 (23)6.1.29设备电话号码 R035 (23)6.1.30PS域参数：用户标识 R036 (23)6.1.31PS域参数：口令 R037 (23)6.1.32通信方式 R038 (24)6.1.33上报类型 R039 (24)6.1.34设备当前时间 R040 (24)6.1.35FTP服务器IP地址（IPv4） R041 (24)6.1.36FTP服务器端口号 R042 (24)6.1.37FTP参数：用户名 R043 (24)6.1.38FTP参数：口令 R044 (24)6.1.39FTP参数：相对路径 R045 (25)6.1.40FTP参数：文件名 R046 (25)6.1.41站点等级 R047 (25)6.1.42站点描述 R048 (25)6.1.43直放站代码 R049 (25)6.1.44下一个文件数据块序号 R050 (25)6.1.45数据块长度 R051 (26)6.1.46文件标识码 R052 (26)6.1.47文件传输控制 R053 (27)6.1.48文件数据包应答 R054 (27)6.1.49文件数据块序号 R055 (27)6.1.50文件数据块 R056 (27)6.1.51FTP方式文件传输进度指示 R057 (27)6.1.52批采开始时间 R058 (28)6.1.53批采时长 R059 (28)6.1.54批采对象 R060 (28)6.1.55批采开关 R061 (28)6.1.56批采状态 R062 (28)6.1.57批采数据每组长度 R063 (28)6.1.58远程数据通信模块 R064 (28)6.1.59PS域传输协议 R065 (28)6.1.60设备接收端口（UDP协议） R066 (29)6.2设备采样数据 (29)6.2.1功放温度值 I001 (29)6.2.4下行输出功率电平 I004 (33)6.2.5上行理论增益 I005 (33)6.2.6下行实际增益 I006 (33)6.2.7下行驻波比值 I007 (34)6.2.8上行驻波比值 I008 (35)6.2.9光收/发功率 I009/I010 (35)6.2.10上行/下行信号旁路状态 I011/I012 (35)6.2.11信源信息 I013～I017 (36)6.2.12下行输入导频功率电平 I018 (36)6.2.13下行输出导频功率电平 I019 (36)6.2.14设备日志 I020 (37)6.2.15批采数据 I021 (38)6.2.16常规时隙0，2～6下行输入功率电平 I022 (38)6.2.17常规时隙0，2～6下行输出功率电平 I023 (39)6.2.18常规时隙1～6上行输出功率电平 I024 (39)6.3设备设置数据 (41)6.3.1射频信号开关 W001 (42)6.3.2信源小区主扰码参照值 W002 (42)6.3.3射频切换开关 W003 (43)6.3.4功放开关 W004 (43)6.3.5工作信道号/移频信道号 W005/W006 (43)6.3.6工作频带上/下边带信道号 W007/W008 (43)6.3.7移频频带上/下边带信道号 W009/W010 (44)6.3.8上/下行衰减值 W011/W012 (44)6.3.9功放过温门限 W013 (44)6.3.10上/下行驻波比门限 W014/W015 (44)6.3.11下行输入欠功率门限 W016 (45)6.3.12下行输入过功率门限 W017 (45)6.3.13下行输出欠功率门限 W018 (45)6.3.14下行输出过功率门限 W019 (45)6.3.15上行输出过功率门限 W020 (45)6.3.16上行输出欠功率门限 W021 (46)6.3.17下行输入导频欠功率门限 W022 (46)6.3.18下行输入导频过功率门限 W023 (46)6.3.19下行输出导频欠功率门限 W024 (46)6.3.20下行输出导频过功率门限 W025 (46)6.3.21第二时隙切换点 W026 (46)6.3.22设备同步关闭门限 W027 (47)6.3.23同步载波信道号 W028 (47)6.3.24设备同步开启门限 W029 (47)6.3.25时隙0～6衰减值 W030 (47)6.3.26上行导频时隙衰减值 W031 (48)6.4设备告警数据 (52)6.4.1电源掉电告警 F001 (52)6.4.2电源故障告警 F002 (52)6.4.3太阳能电池低电压告警 F003 (52)6.4.4监控模块电池故障告警 F004 (53)6.4.5位置告警 F005 (54)6.4.6门禁告警 F006 (54)6.4.7功放过温告警 F007 (54)6.4.8信源变化告警 F008 (54)6.4.9其他模块告警 F009 (54)6.4.10本振失锁告警 F010 (55)6.4.11上/下行功放，上/下行低噪放故障告警 F011/ F012/ F013/ F014 (55)6.4.12下行输入欠功率告警 F015 (56)6.4.13下行输入过功率告警 F016 (56)6.4.14下行输出欠功率告警 F017 (56)6.4.15下行输出过功率告警 F018 (56)6.4.16上行输出过功率告警 F019 (57)6.4.17上行输出欠功率告警 F020 (57)6.4.18下行输入导频欠功率告警 F021 (57)6.4.19下行输入导频过功率告警 F022 (58)6.4.20下行输出导频欠功率告警 F023 (58)6.4.21下行输出导频过功率告警 F024 (58)6.4.22下行驻波比告警 F025 (58)6.4.23上行驻波比告警 F026 (59)6.4.24光收发故障告警 F027 (59)6.4.25主从监控链路告警 F028 (59)6.4.26外部告警1～6 F029～F034 (59)6.4.27塔顶放大器告警 F035 (59)6.4.28功放旁路告警 F036 (60)6.4.29自激关机保护告警 F037 (60)6.4.30自激降增益保护告警 F038 (60)6.4.31TD-SCDMA失步告警 F039 (60)6.4.32射频电路故障告警 F040 (61)6.5上报数据 (62)6.5.1告警上报 N001 (62)6.5.2开站上报 N002 (62)6.5.3巡检上报 N003 (62)6.5.4故障修复上报 N004 (62)6.5.5配置变更上报 N005 (63)6.5.6登录监控中心上报 N006 (63)6.5.7心跳上报 N007 (63)6.5.8设备监控软件更新上报 N008 (63)6.6监控链路告警数据 (64)6.6.1Modem通信故障L001 (64)6.6.2IP数据通信故障L002 (64)6.6.3短信网关登录异常故障L003 (64)6.6.4网关链路故障L004 (64)6.7服务器告警数据 (65)6.7.1CPU负荷过载异常S001 (65)6.7.2数据库过载异常S002 (65)6.7.3内存过载异常S003 (65)6.7.4磁盘空间过载异常S004 (65)6.8资产信息 (65)6.9工程基本信息 (65)6.9.1工程项目编号P001 (65)6.9.2工程名称P002 (65)6.9.3合同编号P003 (65)6.9.4工程负责人P004 (65)6.9.5工程负责人电话P005 (66)6.9.6项目描述P006 (66)6.9.7项目干系单位P007 (66)6.9.8工程状态P008 (66)6.9.9工程开始时间P009 (66)6.9.10工程竣工时间P010 (66)6.9.11工程设计文件编号P011 (66)6.9.12工程竣工文件编号P012 (66)6.9.13工程验收时间P013 (66)6.9.14工程验收人P014 (67)6.10物业信息 (67)6.10.1物业名称T001 (67)6.10.2物业地址T002 (67)6.10.3物业管理单位T003 (67)6.10.4物业联系人T004 (67)6.10.5物业联系人电话T005 (67)6.10.6供电状态T006 (67)6.10.7物业信号覆盖情况T007 (67)6.10.8物业类型T008 (67)6.10.9物业描述T009 (68)6.11环境信息 (68)6.11.1室内/室外E001 (68)6.12天线信息 (68)6.12.1天线类型AN001 (68)6.12.2天线型号AN002 (68)6.12.3天线用途 AN003 (68)6.12.6天线方位角 AN006 (68)6.12.7天线倾角 AN007 (68)6.12.8天线增益AN008 (69)6.12.9设计覆盖范围AN009 (69)6.12.10馈线长度AN010 (69)7各类直放站所具备数据对应关系 (69)7.1宽带直放站 (69)7.2选频直放站 (72)7.3光纤直放站直接耦合近端机 (75)7.4光纤直放站无线耦合近端机 (78)7.5光纤直放站宽带远端机 (81)7.6光纤直放站选频远端机 (84)7.7干线放大器 (88)7.8移频直放站直接耦合宽带近端机 (91)7.9移频直放站直接耦合选频近端机 (94)7.10移频直放站无线耦合宽带近端机 (97)7.11移频直放站无线耦合选频近端机 (100)7.12移频直放站宽带远端机 (103)7.13移频直放站选频远端机 (106)7.14双向宽带塔放 (109)7.15双向选频塔放 (112)7.16光纤载波调度器宽带基站端机 (115)7.17光纤载波调度器选频基站端机 (118)7.18光纤载波调度器宽带远端机 (122)7.19光纤载波调度器选频远端机 (125)7.20双频光纤直放站直接耦合近端机 (128)7.21双频光纤直放站远端机 (131)7.22基站放大器 (134)7.23微型直放站 (137)8附录1：其他相关列表 (147)9附录2：关于设备使用MODEM (151)10附录3：外部告警接口的补充说明 (151)10.1告警接口定义 (151)10.2外部告警接口方式 (152)10.3直放站告警输入与外部设备连接 (152)10.4直放站告警接口采用的航空接头图片 (153)11修订历史 (154)12规范作者 (155)前言本规范定义了中国移动WCDMA和TD-SCDMA直放站网络监控管理的数据要求。

审核人：检查人：潘少安日期：2013-12-6版本：V1.0页码：1 / 443GPP规范目录索引目录1:3GPP编号规则 (3)2:GERAN协议目录 (3)2.1:部分数据业务常用协议目录 (3)2.2：GERAN总目录 (5)3:UTRAN协议目录 (5)3.1：部分数据业务常用协议目录 (5)3.2 UTRAN总目录 (8)3GPP规范目录索引1:3GPP编号规则所有 3G 和 GSM 规范具有一个由 4 或 5 位数字组成的 3GPP 编号。

（例如： 09.02 或 29.002 ）。

前两位数字对应下表所列的系列。

接着的两位数字对应 01-13 系列，或 3 位数字对应 21-55 系列。

词 "3G" 意味着采用 UTRAN 无线接入网的 3GPP 系统，词 "GSM" 意味着采用 GERAN 无线接入网的 3GPP 系统（因而， "GSM" 包括 GPRS 和 EDGE 性能）。

21-35 系列规范只用于 3G 或既用于 GSM 也用于 3G 。

第三位数字为 "0" 表示用于两个系统，例如 29.002 用于 3G 和 GSM 系统，而 25.101 和 25.201 仅用于 3G 。

其它系列的大多数规范仅用于 GSM 系统。

然而当规范编号用完后，须查看每个规范的信息页面（见下表）或查看 01.01 / 41.101 (GSM) 和 21.101 (3G) 中的目录。

2:GERAN协议目录本目录摘自3GPP TS 41.1012.1:部分数据业务常用协议目录2.2：GERAN总目录由于3GPP的规范很多如果全部列举出来相对繁琐，上述只列举了一些常用的规范的。

如果想要查找更多的3GPP规范可以查看TS 41.101，这个规范包含了所有的2G中的规范。

41101-b00.doc3:UTRAN协议目录本目录摘自3GPP规范TS 21.1013.1：部分数据业务常用协议目录3.2 UTRAN总目录由于3GPP的规范很多如果全部列举出来相对繁琐，上述只列举了一些常用的规范的。

3GPP TS 36.211 V8.5.0 (2008-12)Technical Specification3GPP;技术规范组无线接入网;通用陆地无线接入演进(E-UTRA);物理信道与调制(Release 8)ContentsF 前言 (6)1 Scope (7)2参考文献 (7)3定义，符号与缩写 (7)3.1符号 (7)3.2缩写 (9)4帧结构 (9)4.1帧结构类型 1 (9)4.2帧结构类型 2 (10)5上行链路 (11)5.1概要 (11)5.1.1物理信道 (11)5.1.2物理信号 (11)5.2时隙结构和物理资源 (12)5.2.1资源格 (12)5.2.2资源单元 (13)5.2.3资源块 (13)5.3物理上行共享信道 (13)5.3.1加扰 (14)5.3.2调制 (14)5.3.3转换预编码 (14)5.3.4映射到物理资源 (15)5.4物理上行控制信道 (16)5.4.1PUCCH格式1, 1a 和1b (17)5.4.2PUCCH 格式2, 2a 和 2b (19)5.4.3映射到物理资源 (20)5.5参考信号 (21)5.5.1参考信号序列的生成 (21)3N或更长的基本序列 (22)5.5.1.1长为RB sc3N的基本序列 (22)5.5.1.2长度低于RB sc5.5.1.3分组跳 (24)5.5.1.4序列跳 (25)5.5.2解调用参考信号 (25)5.5.2.1PUSCH中解调用参考符号 (25)5.5.2.1.1参考信号序列 (25)5.5.2.1.2映射到物理资源 (26)5.5.2.2PUCCH中解调用参考符号 (27)5.5.2.2.1参考信号序列 (27)5.5.2.2.2映射到物理资源 (28)5.5.3探测参考符号 (28)5.5.3.1序列生成 (28)5.5.3.2映射到物理资源 (28)5.5.3.3 探测参考符号子帧配置 (31)5.6SC-FDMA基带信号生成 (32)5.7物理随机接入信道 (33)5.7.1时频结构 (33)5.7.2导频序列生成 (39)5.8调制与上变频 (43)6下行链路 (44)6.1概述 (44)6.1.1物理信道 (44)6.1.2 物理信号 (44)6.2 时隙结构和物理资源单元 (45)6.2.1 资源格 (45)6.2.2 资源单元 (45)6.2.3 资源块 (46)6.2.3.1 局部类型虚拟资源块 (47)6.2.3.2 分布类型虚拟资源块 (47)6.2.4 资源单元组 (48)6.2.5 半双工FDD 操作保护间隔 (49)6.2.6 TDD 操作保护间隔 (49)6.3 下行信道一般结构 (49)6.3.1 加扰 (50)6.3.2 调制 (50)6.3.3 层映射 (50)6.3.3.1 单天线端传输层映射 (50)6.3.3.2 空分复用层映射 (51)6.3.3.3 发送分集层映射 (51)6.3.4 预编码 (52)6.3.4.1 单天线端口传输预编码 (52)6.3.4.2 空分复用预编码 (52)6.3.4.2.1 无CDD预编码 (52)6.3.4.2.2 大延时CDD预编码 (52)6.3.4.2.3 预编码码本 (53)6.3.4.3 发射分集预编码 (54)6.3.5 映射到资源单元 (55)6.4物理下行共享信道PDSCH (55)6.5 物理组播信道PMCH (55)6.6 物理广播信道PBCH (56)6.6.1 加扰 (56)6.6.2 调制 (56)6.6.3 层映射与预编码 (56)6.6.4 映射到资源单元 (56)6.7 物理控制格式指示信道PCFICH (57)6.7.1 加扰 (57)6.7.2 调制 (57)6.7.3层映射与预编码 (57)6.7.4资源单元映射 (58)6.8物理下行控制信道PDCCH (58)6.8.1PDCCH格式 (58)6.8.2PDCCH 复用与加扰 (58)6.8.3调制 (59)6.8.4层映射与预编码 (59)6.8.5到资源单元的映射 (59)6.9物理混合ARQ指示信道PHICH (60)6.9.1调制 (61)6.9.2资源组调整，层映射和预编码 (61)6.9.3到资源单元的映射 (63)6.10参考信号 (64)6.10.1小区专用参考信号CRS (65)6.10.1.2到资源单元的映射 (65)6.10.2MBSFN 参考信号 (67)6.10.2.1序列生成 (67)6.10.2.2到资源单元的映射 (67)6.10.3用户端专用参考信号DRS (69)6.10.3.1序列生成 (69)6.10.3.2到资源单元的映射 (70)6.11同步信号 (71)6.11.1主同步信号 (72)6.11.1.1序列生成 (72)6.11.1.2到资源单元的映射 (72)6.11.2次同步信号 (72)6.11.2.1序列生成 (72)6.11.2.2到资源单元的映射 (74)6.12OFDM 基带信号生成 (75)6.13调制与上变换 (75)7一般功能 (76)7.1调制映射 (76)7.1.1BPSK (76)7.1.2QPSK (76)7.1.316QAM (77)7.1.464QAM (77)7.2伪随机序列产生 (78)8定时 (79)8.1上行-下行帧定时 (79)Annex A (informative): Change history (80)1 S copeThe present document describes the physical channels for evolved UTRA.2参考文献[1] 3GPP TR 21.905: "Vocabulary for 3GPP Specifications".[2] 3GPP TS 36.201: "Evolved Universal Terrestrial Radio Access (E-UTRA); Physical Layer –General Description".[3] 3GPP TS 36.212: "Evolved Universal Terrestrial Radio Access (E-UTRA); Multiplexing and channel coding".[4] 3GPP TS 36.213: "Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedures".[5] 3GPP TS 36.214: "Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer – Measurements".[6] 3GPP TS 36.104: “Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) radio transmission and reception ”.[7] 3GPP TS 36.101: “Evolved Un iversal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception”.[8] 3GPP TS36.321, “Evolved Universal Terrestrial Radio Access (E-UTRA); Medium Access Control (MAC) protocol specification”3Definitions, symbols and abbreviations3.1SymbolsFor the purposes of the present document, the following symbols apply:),(l kResource element with frequency-domain index k and time-domain index l )(,p l k aValue of resource element ),(l k [for antenna port p ] DMatrix for supporting cyclic delay diversityRA DDensity of random access opportunities per radio frame 0fCarrier frequencyRA fPRACH resource frequency index within the considered time domain location PUSCH sc M Scheduled bandwidth for uplink transmission, expressed as a number of subcarriers PUSCH RB M Scheduled bandwidth for uplink transmission, expressed as a number of resource blocks (q)M bit Number of coded bits to transmit on a physical channel [for code word q ](q)M sy m b Number of modulation symbols to transmit on a physical channel [for code word q ] lay er sy m b M Number of modulation symbols to transmit per layer for a physical channel ap sy m b MNumber of modulation symbols to transmit per antenna port for a physical channelNA constant equal to 2048 for kHz 15=∆f and 4096 for kHz 5.7=∆fl N ,CPDownlink cyclic prefix length for OFDM symbol l in a slot(1)cs N Number of cyclic shifts used for PUCCH formats 1/1a/1b in a resource block with a mix of formats 1/1a/1b and 2/2a/2b(2)RB N Bandwidth available for use by PUCCH formats 2/2a/2b, expressed in multiples of RBsc N HO RB NThe offset used for PUSCH frequency hopping, expressed in number of resource blocks (set by higher layers)cellID N Physical layer cell identity MBSFN ID N MBSFN area identityDL RB NDownlink bandwidth configuration, expressed in multiples of RBsc NDL min,RB N Smallest downlink bandwidth configuration, expressed in multiples of RBsc N DL max,RB N Largest downlink bandwidth configuration, expressed in multiples of RB sc N UL RB N Uplink bandwidth configuration, expressed in multiples of RB sc N UL min,RB N Smallest uplink bandwidth configuration, expressed in multiples of RB sc N UL max,RB N Largest uplink bandwidth configuration, expressed in multiples of RB sc NDL sy m b N 每个下行时隙中 OFDM 符号个数 UL sy m b N每个上行时隙中 SC-FDMA 符号个数 RB sc N频域资源块大小, 表示为子载波个数SP NNumber of downlink to uplink switch points within the radio frame PUCCH RS NNumber of reference symbols per slot for PUCCHTA NTiming offset between uplink and downlink radio frames at the UE, expressed in units of s T offset TA NFixed timing advance offset, expressed in units of s T )1(PUCCH n Resource index for PUCCH formats 1/1a/1b )2(PUCCH nResource index for PUCCH formats 2/2a/2b PDCCH n Number of PDCCHs present in a subframe PRB nPhysical resource block numberRA PRB nFirst physical resource block occupied by PRACH resource considered RA offset PRB nFirst physical resource block available for PRACH VRB n Virtual resource block number RNTI n Radio network temporary identifier f n System frame numbers n Slot number within a radio frame P Number of cell-specific antenna ports p Antenna port number qCode word numberRA rIndex for PRACH versions with same preamble format and PRACH density Q m Modulation order: 2 for QPSK, 4 for 16QAM and 6 for 64QAM transmissions()t s p l )(Time-continuous baseband signal for antenna port p and OFDM symbol l in a slot 0RA tRadio frame indicator index of PRACH opportunity1RA tHalf frame index of PRACH opportunity within the radio frame2RA tUplink subframe number for start of PRACH opportunity within the half frame f T Radio frame duration s T Basic time unit slot TSlot durationWPrecoding matrix for downlink spatial multiplexing PRACH β Amplitude scaling for PRACH PUCCH β Amplitude scaling for PUCCH PUSCH β Amplitude scaling for PUSCHSRS β Amplitude scaling for sounding reference symbols f ∆ Subcarrier spacingRA f ∆ Subcarrier spacing for the random access preamble υ Number of transmission layers3.2AbbreviationsFor the purposes of the present document, the following abbreviations apply:CCE Control Channel Element CDDCyclic Delay Diversity4 帧结构Throughout this specification, unless otherwise noted, the size of various fields in the time domain is expressed as a number of time units )2048150001s ⨯=T seconds.Downlink and uplink transmissions are organized into radio frames with ms 10307200s f =⨯=T T duration. Two radio frame structures are supported: - Type 1, applicable to FDD, - Type 2, applicable to TDD.4.1 Frame structure type 1Frame structure type 1 is applicable to both full duplex and half duplex FDD. Each radio frame isms 10307200s f =⋅=T T long and consists of 20 slots of length ms 5.0T 15360s slot =⋅=T , numbered from 0 to 19. A subframe is defined as two consecutive slots where subframe i consists of slots i 2and 12+i .For FDD, 10 subframes are available for downlink transmission and 10 subframes are available for uplink transmissions in each 10 ms interval. Uplink and downlink transmissions are separated in the frequency domain. In half-duplex FDD operation, the UE cannot transmit and receive at the same time while there are no such restrictions in full-duplex FDD.Figure 4.1-1: Frame structure type 1.4.2 Frame structure type 2Frame structure type 2 is applicable to TDD. Each radio frame of length ms 10307200s f =⋅=T T consists of two half-frames of length ms 5153600s =⋅T each. Each half-frame consists of five subframes of length ms 107203s =⋅T . The supported uplink-downlink configurations are listed in Table 4.2-2 wher e, for each subframe in a radio frame, “D” denotes the subframe is reserved for downlink transmissions, “U” denotes the subframe is reserved for uplinktransmissions and “S” denotes a special subframe with the three fields DwPTS, GP and UpPTS. The length o f DwPTS and UpPTS is given by Table 4.2-1 subject to the total length of DwPTS, GP and UpPTS being equalto ms 107203s =⋅T . Each subframe i is defined as two slots, i 2and 12+i of length ms 5.015360s slot =⋅=T T in each subframe.Uplink-downlink configurations with both 5 ms and 10 ms downlink-to-uplink switch-point periodicity are supported. In case of 5 ms downlink-to-uplink switch-point periodicity, the special subframe exists in both half-frames. In case of 10 ms downlink-to-uplink switch-point periodicity, the special subframe exists in the first half-frame only. Subframes 0 and 5 and DwPTS are always reserved for downlink transmission. UpPTS and the subframe immediately following the special subframe are always reserved for uplink transmission.GPSDwPTSSFigure 4.2-1: Frame structure type 2 (for 5 ms switch-point periodicity).Table 4.2-1: Configuration of special subframe (lengths of DwPTS/GP/UpPTS).Table 4.2-2: Uplink-downlink configurations.5上行链路5.1Overview上行传输最小资源单位记为资源单元，定义见 5.2.2.节5.1.1物理信道定义下列上行物理信道- 上行物理共享信道PUSCH - 上行物理控制信道PUCCH - 物理随机接入信道PRACH5.1.2 物理信号定义一个不携带信息的物理信号：参考信号5.2时隙结构与物理资源5.2.1资源格每个时隙传输的信号可描述为包含RBsc UL RB N N 个子载波和UL sy m b N 个 SC-FDMA 符号的资源格，如图 5.2.1-1所示。

LTE学习之路（9）——3GPPTS协议系列总结规范编号规范名称内容更新时间射频系列规范TS 36.101UE⽆线发送和接收描述FDD和TDD E-UTRA UE的最⼩射频（RF）特性08-Oct-2010TS BS⽆线发送与接收描述E-UTRA BS在成对频谱和⾮成对频谱的最⼩RF特性30-Sep-2010TS FDD直放站⽆线发送与接收描述FDD直放站的射频要求和基本测试条件30-Sep-2010TS BS与直放站的电磁兼容包含对E-UTRA基站、直放站和补充设备的电磁兼容（EMC）评估01-Oct-2010TS移动终端和辅助设备的电磁兼容的要求建⽴了对于E-UTRA终端和附属设备的主要EMC要求，保证不对其他设备产⽣电磁⼲扰，并保证⾃⾝对电磁⼲扰有⼀定的免疫性。

定义了EMC测试⽅法、频率范围、最⼩性能要求等01-Oct-2010TS⽀持⽆线资源管理的要求描述⽀持FDD和TDD E-UTRA的⽆线资源管理需求，包括对E-UTRAN和UE测量的要求，以及针对延迟和反馈特性的点对点动态性和互动的要求08-Oct-2010TS BS⼀致性测试描述对FDD/TDD E-UTRA 基站的射频测试⽅法和⼀致性要求30-Sep-2010TS FDD直放站⼀致性测试描述了FDD直放站的⼀致性规范，基于36.106中定义的核⼼要求和基本⽅法，对详细的测试⽅法、过程、环境和⼀致性要求等进⾏详细说明01-Oct-2010TS⽀持辅助全球导航卫星系统(A-GNSS)的要求描述了基于UE和UE辅助FDD或TDD的辅助全球导航卫星系统终端的最低性能21-Jun-2010TS UE⽀持零散频段的要求定义了终端⽀持与版本⽆关频段时所要满⾜的要求。

04-Oct-2010物理层系列规范TS LTE物理层——总体描述物理层综述协议，主要包括物理层在协议结构中的位置和功能，包括物理层4个规范36.211、36.212、36.213、36.214的主要内容和相互关系等30-Mar-2010TS物理信道和调制主要描述物理层信道和调制⽅法。

标准协议之3GPP标准协议所有3G和GSM规范具有一个由4或5位数字组成的3GPP编号。

（例如：09.02或29.002）。

前两位数字对应下表所列的系列。

接着的两位数字对应01-13系列，或3位数字对应21-55系列。

词"3G"意味着采用UTRAN无线接入网的3GPP系统，词"GSM" 意味着采用GERAN无线接入网的3GPP系统（因而，"GSM"包括GPRS和EDGE性能）。

21-35系列规范只用于3G或既用于GSM也用于3G。

第三位数字为"0"表示用于两个系统，例如29.002用于3G和GSM系统，而25.101和25.201仅用于3G。

其它系列的大多数规范仅用于GSM系统。

然而当规范编号用完后，须查看每个规范的信息页面（见下表）或查看01.01 / 41.101 (GSM) 和21.101 (3G) 中的目录。

Q=可选的子部分编号-1或2位数字，如果有V=版本号，无分隔点-3位数字例如：21900-320.zip 是3GPP TR 21.900 版本3.2.00408-6g0.zip 是3GPP TS 04.08 版本6.16.032111-4-410 是3GPP TS 32.111 部分4 版本4.1.0 29998-04-1-100 是3GPP TS 29.998 部分4 子部分1 版本----------------------------------------------------------------------------------------------------------------好好研究下这个网站/specification-numbering就明白了每一个小类后面都有说明的----------------------------------------------------------------------------------------------------------------mark。

GNSS标准EN 303 413是一项涉及全球导航卫星系统的技术标准，其内容涵盖了GNSS接收机的性能规范和测试方法。

随着全球导航卫星系统在各行各业的广泛应用，EN 303 413的制定对于保障GNSS设备性能和互操作性具有重要意义。

本文将从多个角度对EN 303 413进行全面评估，并剖析其对GNSS领域的意义和影响。

1. EN 303 413标准概述EN 303 413标准是由欧洲电信标准委员会（ETSI）制定的，旨在规范GNSS接收机的技术要求和测试方法。

它主要涵盖了GNSS接收机的定位精度、灵敏度、时间参考、数据传输和接口等方面的规范要求，以及相应的测试方法和评估标准。

该标准的发布填补了GNSS设备相关标准的空白，为GNSS设备的研发、生产和应用提供了技术指导和保障。

2. EN 303 413对GNSS设备的影响EN 303 413标准的制定对GNSS设备的性能、质量和互操作性产生了深远影响。

该标准规定了GNSS接收机的性能指标和测试方法，强制要求GNSS设备在定位精度、灵敏度和时间参考等方面达到一定的技术要求，从而提高了GNSS设备的精度和可靠性。

EN 303 413还规定了GNSS设备的数据传输和接口标准，促进了不同厂家生产的GNSS设备之间的互操作性，为用户提供了更多的选择空间和应用灵活性。

3. 个人观点和理解EN 303 413的发布对于推动全球导航卫星系统的应用和发展具有积极意义。

作为一项技术标准，它为GNSS设备的研发和生产提供了统一的技术依据，有利于提高GNSS设备的性能和质量水平，增强用户体验和安全性。

EN 303 413的制定也有助于促进不同厂家的GNSS设备之间的互操作性，打破了技术壁垒，为用户带来更多的选择和便利。

我认为EN 303 413标准的出台对于推动全球导航卫星系统的蓬勃发展和社会应用具有重要意义，值得行业各方共同关注和遵守。

EN 303 413标准作为全球导航卫星系统领域的重要技术标准，对GNSS设备的性能、质量和互操作性产生了深远影响。

GSM 01.01 V1.1.0 (1999-11)Technical Specification Digital cellular telecommunications system (Phase 2+);GSM Release 1999 Specifications(GSM 01.01 version 1.1.0 Release 1999)RGLOBAL SYSTEM FORMOBILE COMMUNICATIONSReferenceRTR/SMG-000101Q8 (38o03i04.PDF)KeywordsDigital cellular telecommunications system,Global System for Mobile communications (GSM)ETSIPostal addressF-06921 Sophia Antipolis Cedex - FRANCEOffice address650 Route des Lucioles - Sophia AntipolisValbonne - FRANCETel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16Siret N° 348 623 562 00017 - NAF 742 CAssociation à but non lucratif enregistrée à laSous-Préfecture de Grasse (06) N° 7803/88Internetsecretariat@etsi.frIndividual copies of this ETSI deliverablecan be downloaded fromIf you find errors in the present document, send yourcomment to: editor@etsi.frCopyright NotificationNo part may be reproduced except as authorized by written permission. The copyright and the foregoing restriction extend to reproduction in all media.© European Telecommunications Standards Institute 1999.All rights reserved.ContentsIntellectual Property Rights (4)Foreword (4)1 Scope (5)2 References (5)2 References (5)3 Abbreviations (5)4 General (5)4.1 Specification and report numbering (5)4.2 Specification series (5)4.2.1 01 and 21-series (5)4.2.2 02 and 22-series (6)4.2.3 03 and 23-series (6)4.2.4 04 and 24-series (6)4.2.5 05 series (6)4.2.6 06 series (6)4.2.7 07 and 27-series (6)4.2.8 08 and 28-series (6)4.2.9 09 and 29-series (6)4.2.10 11 series (7)4.2.11 12 series (7)4.2.12 13 series (7)5 Content of GSM Release 1999 (7)5.1 GSM only Work Areas (7)5.2 Common GSM/3G Work Areas (8)5.2.1 Work areas related to the services (8)5.2.2 Work areas related to the system architecture (8)5.2.3 Work areas related to the security (8)5.2.4 Work areas related to the codec (9)5.2.5 Work areas related to the network management (9)5.2.6 Work areas related to the core network specification (9)5.2.7 Work areas related to the testing of the MS (10)5.2.8 Work areas related to the data (10)5.2.9 Work areas related to the User Card (10)5.2.10 Work areas related to the access network (10)5.2.11 Work areas handled by other groups (11)5.3 Release 99 work areas impacting other systems (11)6 Specifications and Reports (11)6.1 GSM Only (11)6.2 Common GSM and UMTS (16)Annex A (informative): Document change history (21)History (22)Intellectual Property RightsIPRs 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 SR 000 314: "Intellectual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to ETSI in respect of ETSI standards", which is available free of charge from the ETSI Secretariat. Latest updates are available on the ETSI Web server (http://www.etsi.fr/ipr or /ipr).Pursuant to the ETSI Interim IPR Policy, no investigation, including IPR searches, has been carried out by ETSI. No guarantee can be given as to the existence of other IPRs not referenced in SR 000 314 (or the updates on the ETSI Web server) which are, or may be, or may become, essential to the present document.ForewordThis ETSI Technical Specification (TS) has been produced by the Special Mobile Group (SMG) of the European Telecommunications Standards Institute (ETSI).This TS identifies the GSM system specifications for GSM Release 1999.The contents of this TS are subject to continuing work within SMG and may change following formal SMG approval. Should SMG modify the contents of this TS it will then be republished by ETSI with an identifying change of release date and an increase in version number as follows:Version 8.x.ywhere:8 indicates release 1999 of GSM Phase 2+;x the second digit is incremented for all changes of substance, i.e. technical enhancements, corrections, updates, etc.y the third digit is incremented when editorial only changes have been incorporated in the specification.Ed Note: This draft Specification has been produced following the SMG#29, ETSI Board#20 and PCG approval of SMG#29 TD P-99-546.TD P-99-546 states "The provisional list given in annex A should be further elaborated andreviewed by SMG STCs and TSG WGs". This is an ongoing process, which it is hoped will becompleted by SMG#30. It is anticipated that this Specification will then be presented to SMG#30 asV1.0.0 (to meet the approval time scale of V8.0.0 at SMG#31).The content of Clause 5 should be considered unstable and is included only for completeness at thistime. The R99 "Roadmap" style content requires further work ( SMG 12 in conjunction withMCC?).The equivalent 3G Specification (21.101) is being developed in a similar manner within 3GPP andaligned with this document.1 ScopeThe present document identifies the GSM system specifications for GSM Release 1999.2 References2 ReferencesThe 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.) or non-specific.∙For a specific reference, subsequent revisions do not apply.∙For a non-specific reference, the latest version applies.∙For this Release 1999 document, references to documents are for Release 1999 versions.[1] GSM 01.04: "Abbreviations and acronyms".3 AbbreviationsFor the purposes of the present document, the terms and definitions given in GSM 01.04 apply.4 GeneralGSM Release 1999 consist of GSM only specifications and the GSM Core Network specifications developed for both GSM Release 1999 and Release 1999 of the 3rd Generation mobile system.GSM Release 1999 also consist of many enhanced features developed within the 3rd Generation Partnership Project. The present document identifies the GSM system set of specifications required to implement GSM Release 1999. 4.1 Specification and report numberingSpecifications for GSM Release 1999 only can be identified by the "ab.de" numbering scheme.Specifications for both GSM Release 1999 and Release 1999 of the 3rd Generation mobile system are identified by the "ab.cde" numbering scheme.NOTE: A "c" digit equal to zero indicates a GSM heritage of a Specification.4.2 Specification seriesIn general the Specification series is identified as follows:4.2.1 01 and 21-seriesRequirements specificationsThese specifications are often transient and contain requirements towards other specifications. They may become obsolete when technical solutions have been fully specified; they could then, e.g., be replaced by reports describing the performance of the system, they could be deleted without replacement or be kept for historical reasons but turned into background material. When found necessary and appropriate, the transient or permanent nature of a requirement specification may be expressed in its scope.4.2.2 02 and 22-seriesService aspectsSpecifications in this series specify services, service features, building blocks or platforms for services (a service feature or service building bloc k may provide certain generic functionality’s for the composition of a service, including the control by the user; a platform may comprise a single or more network elements, e.g. UIM, mobile terminal, auxiliary system to the core network etc.); stage 1 specifications that are felt appropriate belong into this series; reports defining services which can be realised by generic building blocks etc. also belong into this series.4.2.3 03 and 23-seriesTechnical realisationThis series mainly contains stage 2 specifications (or specifications of a similar nature describing interworking over several interfaces, the behaviour in non-exceptional cases, etc.).4.2.4 04 and 24-seriesSignalling protocols (UE - CN network)This series contains the detailed and bit exact stage 3 specifications of protocols between MS/UE and the Core network.4.2.5 05 seriesGSM Radio aspects4.2.6 06 seriesCodecsThis series defines speech codecs and other codecs for GSM.4.2.7 07 and 27-seriesDataThis series defines the functions necessary to support data applications at the user equipment side.4.2.8 08 and 28-seriesSignalling protocols (RSS - network part )This series contains the detailed and bit exact stage 3 specifications of protocols relevant for interfaces internal to the Radio Access Network and between this and the Core Network.4.2.9 09 and 29-seriesSignalling protocols (NSS)This series contains the detailed and bit exact stage 3 specifications of protocols within the Core Network.4.2.10 11 seriesSIM and conformance testThis series specifies the Subscriber Identity Module (SIM) and the interfaces between SIM and other entities. and the conformance test specifications for GSM.4.2.11 12 seriesOperation and maintenanceThis series defines the application of TMN for GSM and other functions for operation, administration and maintenance of a GSM network.4.2.12 13 seriesAccess requirementsThis series contains Access requirement specifications for GSM.5 Content of GSM Release 19995.1 GSM only Work Areas5.2 Common GSM/3G Work Areas5.2.1 Work areas related to the services5.2.2 Work areas related to the system architecture5.2.3 Work areas related to the security5.2.4 Work areas related to the codec5.2.5 Work areas related to the network management5.2.6 Work areas related to the core network specificationConcerning N1 (layer MM/CM/SM) (SMG3A at SMG)Concerning N2 (Camel) (SMG3C at SMG)None1 The difference with the WI entitled “UMTS Charging & Billing” is that the latter specifies the requirements whereas “3G chargingmanagement” intends to specify the actual mechanisms. This should be clarified in the WI titles.Concerning N3 (Interworking with external networks) (SMG3D at SMG)5.2.7 Work areas related to the testing of the MS5.2.8 Work areas related to the data5.2.9 Work areas related to the User Card5.2.10 Work areas related to the access networkConcerning the testing of the BSS (RAN4 at 3GPP, SMG2C at SMG)Concerning all the other groupsNone5.2.11 Work areas handled by other groups5.3 Release 99 work areas impacting other systems6 Specifications and Reports6.1 GSM OnlyNumber Title01.01 GSM Release 1999 Specifications01.02 General Description of a GSM Public Land Mobile Network (PLMN)01.04 Abbreviations and Acronyms01.31 Fraud Information Gathering System (FIGS); Service requirements - Stage 001.33 Lawful Interception requirements for GSM01.56 GSM Cordless Telephony System (CTS) (Phase 1); CTS Authentication and Key GenerationAlgorithms Requirements02.01 Principles of Telecommunication Services Supported by a GSM Public Land MobileNetwork(PLMN)02.03 Teleservices Supported by a GSM Public Land Mobile Network (PLMN)02.06 Types of Mobile Stations (MS)02.07 Mobile Station (MS) Features02.09 Security aspects02.17 Subscriber Identity Modules, Functional Characteristics02.19 Subscriber Identity Module Application Programming Interface (SIM API); Service description;Stage 102.31 Fraud Information Gathering System (FIGS) Service description - Stage 102.32 Immediate Service Termination (IST); Service description - Stage 102.33 Lawful intercept Stage 102.40 Procedures for Call Progress Indications02.48 Security mechanisms for the SIM Application Toolkit; Stage 102.56 GSM Cordless Telephony System (CTS), Phase 1; Service description; Stage 102.63 Packet Data on Signalling channels Service (PDS) - Stage 102.68 Voice Group Call Service (VGCS); Stage 1(ASCI spec)02.69 Voice Broadcast Service (VBS); Stage 1(ASCI spec)02.76 Noise Suppression for the AMR02.94 Follow Me Stage 102.95 Digital cellular telecommunications system (Phase 2+); Support of Private Numbering Plan(SPNP); Service description, Stage 103.01 Network Functions03.05 Technical Performance Objectives03.10 Public Land Mobile Network (PLMN) Connection Types03.13 Discontinuous Reception (DRX) in the GSM System03.19 GSM API for SIM toolkit stage 203.20 Security-related Network Functions03.22 Functions related to Mobile Station (MS) in idle mode03.26 Multiband operation of GSM/DCS 1800 by a single operator03.30 Radio Network Planning Aspects03.31 Fraud Information Gathering System (FIGS); Service description - Stage 203.33 Lawful Interception - stage 203.35 Immediate Service Termination (IST); Stage 203.43 Support of Videotext03.44 Support of Teletext in a Public Land Mobile Network (PLMN)03.45 Technical realisation of facsimile Group 3 service- transparent03.47 Example Protocol Stacks for Interconnecting Service Centre(s) (SC) and Mobile ServicesSwitching Centre(s) (MSC)03.48 Tool Kit Security Stage 203.49 Example Protocol Stacs for Interconnecting Cell Broadcast Centre (CBC) and Base StationControler (BSC)03.50 Transmission Planning Aspects of the Speech Service in the GSM Public Land Mobile Network(PLMN) System03.52 Lower layers of the GSM Cordless Telephony System (CTS) radio interface - Stage 203.56 GSM Cordless Telephony System (CTS), Phase 1; CTS Architecture Description; Stage 2 03.58 Characterisation, test methods and quality assessment for handsfree Mobile Stations (MSs) 03.63 PDS Stage 203.64 Overall description of the GPRS radio interface; Stage 203.68 Voice Group Call Service (VGCS) - Stage 203.69 Voice Broadcast service (VBS) - Stage 203.71 Location Services (LCS) Stage 203.94 Follow Me Stage 204.01 Mobile Station - Base Station System (MS - BSS) Interface General Aspects and Principles04.02 GSM Public Land Mobile Network (PLMN) Access Reference Configuration04.03 Mobile Station - Base Station System (MS - BSS) Interface Channel Structures and AccessCapabilities04.04 Layer 1 - General Requirements04.05 Data Link (DL) Layer General Aspects04.06 Mobile Station - Base Stations System (MS - BSS) Interface Data Link (DL) Layer Specification 04.08 Mobile Radio Interface Layer 3 specification Core Network Protocols stage 2 (structuredprocedures)04.13 Performance Requirements on Mobile Radio Interface04.14 Individual equipment type requirements and interworking; Special conformance testing functions 04.18 Mobile Radio Interface Layer 3 specification; Radio Resource Control Protocol04.21 Rate Adaption on the Mobile Station - Base Station System (MS-BSS) Interface04.30 Location Services (LCS); Mobile radio interface layer 3 supplementary services specification;Mobile Originating Location Request (MO-LR).04.31 Location Services (LCS); Mobile Station (MS) - Serving Mobile Location Centre (SMLC); RadioResource LCS Protocol (RRLP)04.33 Lawful intercept Stage 304.35 Location Services (LCS); Broadcast Network Assistance for Enhanced Observed Time Difference(E-OTD) and Global Positioning System (GPS) Positioning Methods04.56 GSM Cordless Telephony System (CTS), (Phase 1) CTS Radio Interface Layer 3 Specification 04.57 GSM Cordless Telephony System (CTS), (Phase 1) CTS CTS supervising system Layer 3Specification04.60 General Packet Radio Service (GPRS); Mobile Station (MS) - Base Station System (BSS) interface;Radio Link Control/ Medium Access Control (RLC/MAC) protocol04.63 Packet Data on Signalling channels Service (PDS) Service Description, Stage 304.64 Mobile Station - Serving GPRS Support Node (MS-SGSN) Logical Link Control (LLC) LayerSpecification04.65 Mobile Station (MS) - Serving GPRS Support Node (SGSN); Subnetwork DependentConvergence Protocol (SNDCP)04.68 Group Call Control (GCC) Protocol04.69 Broadcast Call Control (BCC) Protocol - Stage 304.71 Location Services (LCS) Stage 304.94 Follow Me Stage 305.01 Physical Layer on the Radio Path (General Description)05.02 Multiplexing and Multiple Access on the Radio Path05.03 Channel Coding05.04 Modulation05.05 Radio Transmission and Reception05.08 Radio Subsystem Link Control05.09 Link Adaptation05.10 Radio Subsystem Synchronization05.50 Background for RF Requirements05.56 CTS-FP Radio Sub-system06.01 Full Rate Speech Processing Functions06.02 Half Rate Speech Processing Functions06.06 Half Rate Speech - Part 7: ANSI-C Code for GSM Half Rate Speech Codec06.07 Half Rate Speech - Part 8: Test Sequence for GSM Half Rate Speech Codec06.08 Half Rate Speech; Performance Characterization of the GSM half rate speech codec 06.10 Full Rate Speech Transcoding06.11 Substitution and Muting of Lost Frames for Full Rate Speech Channels06.12 Comfort Noise Aspects for Full Rate Speech Traffic Channels06.20 Half Rate Speech Transcoding06.21 Substitution and Muting of Lost Frames for Half Rate Speech Traffic Channels 06.22 Comfort Noise Aspects for Half Rate Speech Traffic Channels06.31 Discontinuous Transmission (DTX) for Full Rate Speech Traffic Channels06.32 Voice Activity Detection (VAD)06.41 Discontinuous Transmission (DTX) for Half Rate Speech Traffic Channels06.42 Voice Activity Detection (VAD) for Half Rate Speech Traffic Channels06.51 Enhanced full rate speech processing functions: General description06.53 ANSI-C code for the enhanced full rate speech codec06.54 Test sequences for the GSM Enhanced Full Rate (EFR)06.55 Performance characterisation of the GSM EFR Speech Codec06.60 Enhanced full rate speech transcoding06.61 Substitution and muting of lost frames for encanced full rate speech traffic channels 06.62 Comfort noise aspects for Enhanced Full Rate (EFR) speech traffic channels06.76 ANSI-C code of the selected AMR-NS algorithm.06.81 Discontinuous Transmission (DTX) for encanced full rate speech traffic channels 06.82 Voice Activity Detection (VAD) for encanced full rate speech traffic channels06.85 Subjective tests on the interoperability of the HR/FR/EFR speech codecs; single, tandem andtandem free operation08.01 Base Station System - Mobile Services Switching Centre (BSS-MSC) Interface General Aspects 08.02 Base Station System - Mobile Services Switching Centre (BSS-MSC) Interface - InterfacePrinciples08.04 Base Station System - Mobile Services Switching Centre (BSS-MSC) Interface Layer 1Specification08.06 Signalling Transport Mechanism Specification for the Base Station System - Mobile ServicesSwitching Centre (BSS-MSC) Interface08.08 Mobile Switching Centre - Base Station system (MSC-BSS) Interface Layer 3 Specification08.14 General Packet Radio Service (GPRS); Base Station System (BSS) - Serving GPRS Support Node(SGSN) interface; Gb Interface Layer 108.16 General Packet Radio Service (GPRS); Base Station System (BSS) - Serving GPRS Support Node(SGSN) Interface; Network Service08.18 General Packet Radio Service (GPRS); Base Station System (BSS) - Serving GPRS Support Node(SGSN); BSS GPRS Protocol08.20 Rate Adaptation on the BSS-MSC Interface08.31 Location Services (LCS); Serving Mobile Location Centre (SMLC) - Serving Mobile LocationCenter (SMLC); SMLC Peer Protocol (SMLCPP) Location Centre (SMLC); Radio Resource LCSProtocol (RRLP)08.51 Base Station Controller - Base Tranceiver Station (BSC-BTS) Interface General Aspects08.52 Base Station Controller - Base Tranceiver Station (BSC-BTS) Interface - Interface Principles 08.54 Base Station Controler - Base Transceiver Station (BSC-BTS) Interface Layer 1 Structure ofPhysical Circuits08.56 Base Station Controller - Base Tranceiver Station (BSC-BTS) Interface Layer 2 Specification 08.58 Base Station Controler - Base Transceiver Station (BCS-BTS) Interface Layer 3 Specification 08.60 Inband Control of Remote Transcoders and Rate Adaptors08.61 Inband Control of Remote Transcoder and Rate Adaptors;(Half Rate)08.71 Location services (LCS) SMLC-BSS interface L 309.03 Signalling Requirements on Interworking between the Intergrated Services Digital Network (ISDN)or Public Switched Telephone Network (PSTN) and the Public Land Mobile Network (PLMN) 09.08 Application of the Base Station System Application Part (BSSAP) on the E-Interface09.31 Location Services (LCS); Base Station System Application Part LCS Extension (BSSAP-LE) 09.90 Interworking between Phase 1 Infrastructure and Phase 2 Mobile Stations (MS)09.91 Interworking Aspects of the SIM/ME Interface Between Phase 1 and Phase 209.94 Recommended Infrastructure Measures to Overcome Specific Mobile Stations Faults11.10-1 Conformance Specification11.10-2 Mobile Station (MS) Conformance Specification, Part 2 – ICS11.10-3 Mobile Station (MS) Conformance Specification, Part 3 – Abstract Test suites11.11 Specification of the Subscriber Identity Module - Mobile Equipment (SIM-ME) Interface11.14 Phase 2+ SIM Application Tool kit11.17 SIM test specification11.18 Specification of the 1.8 Volt Subscriber Identity Module - Mobile Equipment (SIM - ME)Interface11.19 CTS SIM Fixed Part11.21 GSM Radio Aspects Base Station System Equipment Specification11.23 GSM Signalling Aspects Base Station System equipment Specification11.26 GSM Repeater Equipment Specification11.56 CTS phase 1, CTS Fixed Part Tests12.15 GPRS charging13.11 Terminal essential requirements (RTTE)13.21 BSS Radio aspects requirements (RTTE)6.2 Common GSM and UMTSNumber Title21.978 Feasibility Technical Report – CAMEL Control of VoIP Services22.002 Bearer Services Supported by a GSM PLMN22.004 General on Supplementary Services22.011 Service accessibility22.016 International Mobile Equipment Identities (IMEI)22.022 Personalisation of GSM ME Mobile functionality specification - Stage 122.024 Description of Charge Advice Information (CAI)22.030 Man-Machine Interface (MMI) of the Mobile Station (MS)22.034 High Speed Circuit Switched Data (HSCSD) - Stage 122.038 SIM application toolkit (SAT); Stage 122.041 Operator Determined Call Barring22.042 Network Identity and Time Zone (NITZ), stage 122.043 Support of Localised Service Area (SoLSA) - Stage 122.053 Tandem Free Operation of speech codecs; Stage 1 service description22.057 Mobile Station Application Execution Environment (MExE); Stage 122.060 General Packet Radio Service (GPRS); Stage 122.066 Support of Mobile Number Portability (MNP); Stage 122.067 enhanced Multi-Level Precedence and Pre-emption service (eMLPP) - Stage 122.071 Location Services (LCS); Stage 1 (T1P1)22.072 Call Deflection (CD); Stage 122.078 CAMEL phase 3; Stage 122.079 Support of Optimal Routing; Stage 122.081 Line Identification Supplementary Services; Stage 122.082 Call Forwarding (CF) Supplementary Services; Stage 122.083 Call Waiting (CW) and Call Hold (HOLD) Supplementary Services; Stage 1 22.084 MultiParty (MPTY) Supplementary Service; Stage 122.085 Closed User Group (CUG) Supplementary Services; Stage 122.086 Advice of Charge (AoC) Supplementary Services; Stage 122.087 User-to-user signalling (UUS); Stage 122.088 Call Barring (CB) Supplementary Services; Stage 122.090 Unstructured Supplementary Service Data (USSD); Stage 122.091 Explicit Call Transfer (ECT) Supplementary Service; Stage 122.093 Call Completion to Busy Subscriber (CCBS); Stage 122.096 Calling Name Presentation (CNAP); Stage 1 (T1P1)22.097 Multiple Subscriber Profile (MSP); Stage 122.115 Service Aspects Charging and billing22.121 Provision of Services in UMTS - The Virtual Home Environment22.129 Handover Requirements between UMTS and GSM or other Radio Systems23.002 Network Architecture23.003 Numbering, Addressing and Identification23.007 Restoration procedures23.008 Organisation of subscriber data23.009 Handover procedures23.011 Technical Realization of Supplementary Services - General Aspects23.012 Location registration procedures23.014 Support of Dual Tone Multi Frequency (DTMF) signalling?23.015 Technical realisation of Operator Determined Barring (ODB)23.016 Subscriber data management - Stage 223.018 Basic Call Handling - Technical realisation23.022 Functions related to Mobile Station (MS) in idle mode23.032 Universal Geographical Area Description (GAD)23.034 High Speed Circuit Switched Data (HSCSD) - Stage 223.038 Alphabets & Language23.039 Interface Protocols for the Connection of Short Message Service Centers (SMSCs) to ShortMessage Entities (SMEs)23.040 Technical realisation of SMS Point to Point23.041 Technical Realization of Short Message Service Cell Broadcast (SMSCB)23.042 Compression algorithm for SMS23.046 Technical realisation of facsimile Group 3 service- non-transparent23.053 Tandem Free Operation (TFO); Service description; Stage 223.054 Shared Interworking Functions - Stage 223.057 Mobile Station Application Execution Environment (MExE)23.060 General Packet Radio Service (GPRS) Service description; Stage 223.066 Support of GSM Mobile Number Portability (MNP) stage 223.067 Enhanced Multi-Level Precedence and Preemption Service (EMLPP) - Stage 223.070 Routing of calls to/from Public Data Networks23.072 Call Deflection Supplementary Service - Stage 223.073 Support of Localised Service Area (SoLSA) - Stage 223.078 CAMEL Stage 223.079 Support of Optical Routeing - Phase 1 - Stage 223.081 Line Identification Supplementary Services - Stage 223.082 Call Forwarding (CF) Supplementary Services - Stage 223.083 Call Waiting (CW) and Call Hold (HOLD) Supplementary Service - Stage 223.084 MultiParty (MPTY) Supplementary Service - Stage 223.085 Closed User Group (CUG) Supplementary Service - Stage 223.086 Advice of Charge (AoC) Supplementary Service - Stage 223.087 User-to-User Signalling (UUS) - Stage 223.088 Call Barring (CB) Supplementary Service - Stage 223.090 Unstructured Supplementary Service Data (USSD) - Stage 223.091 Explicit Call Transfer (ECT) Supplementary Service - Stage 223.093 Call Completion to Busy Subscriber (CCBS) - Stage 223.096 Name Identification Supplementary Service - Stage 223.097 Multiple Subscriber Profile (MSP); Stage 223.108 Mobile Radio Interface Layer 3 specification Core Network Protocols stage 2 (structuredprocedures)23.110 UMTS Access Stratum Services and Functions23.116 Super Charger - Stage 223.119 Gateway Location Register (GLR) - Stage223.121 Architecture Requirements for release 9923.908 Technical report on Pre-Paging23.909 Technical report on the Gateway Location Register23.911 Technical report on Out-of-band transcoder control23.912 Technical report on Super-Charger23.920 Evolution of the GSM platform towards UMTS23.923 Combined GSM and Mobile IP mobility handling in UMTS IP CN23.925 UMTS Core network based ATM transport23.927 VHE, Open Service Architecture24.007 Mobile Radio Interface Signalling Layer 3 - General Aspects24.008 Mobile Radio Interface Layer 3 specification; Core Network Protocols-Stage 324.010 Mobile Radio Interface Layer 3 - Supplementary Services Specification - General Aspects 24.011 Point-to-Point (PP) Short Message Service (SMS) Support on Mobile Radio Interface24.012 Short Message Service Cell Broadcast (SMSCB) Support on the Mobile Radio Interface? 24.022 Radio Link Protocol (RLP) for Data and Telematic Services on the (MS-BSS) Interface and theBase Station System - Mobile-services Switching Centre (BSS-MSC) Interface?24.067 Enhanced Multi-Level Precedence and Pre-emption service (eMLPP) - Stage 324.072 Call Deflection Supplementary Service - Stage 324.080 Mobile radio Layer 3 Supplementary Service specification - Formats and coding24.081 Line Identification Supplementary Service - Stage 324.082 Call Forwarding Supplementary Service - Stage 324.083 Call Waiting (CW) and Call Hold (HOLD) Supplementary Service - Stage 324.084 MultiParty (MPTY) Supplementary Service - Stage 324.085 Closed User Group (CUG) Supplementary Service - Stage 324.086 Advice of Charge (AoC) Supplementary Service - Stage 324.087 User-to-User Signalling (UUS) - Stage 324.088 Call Barring (CB) Supplementary Service - Stage 324.090 Unstructured Supplementary Service Data (USSD) - Stage 324.091 Explicit Call Transfer (ECT) Supplementary Service - Stage 324.093 Call Completion to Busy Subscriber (CCBS) - Stage 324.096 Name Identification Supplementary Service - Stage 326.075 AMR speech Codec; Performance Characterization of the GSM AMR Speech Codec27.001 General on Terminal Adaptation Functions (TAF) for Mobile Stations (MS)27.002 Terminal Adaptation Functions (TAF) for services using Asynchronous bearer capabilities 27.003 Terminal Adaptation Functions (TAF) for services using Synchronous bearer capabilities。

短消息网关设备规范I n t e r n e t S h o r t M e s s a g e G a t e w a yE q u i p m e n t S p e c i f i c a t i o n版本号：3.0.0╳╳╳╳-╳╳-╳╳公布目录1 范畴 (4)2 引用标准 (4)3 符号和缩略语 (4)4 ISMG组网结构 (5)5 ISMG的功能 (6)5.1业务操纵功能 (6)5.1.1 支持与DSMP的接口功能 (6)5.1.2支持MO短信息 (7)5.1.3支持MT短信息 (7)5.1.4支持短信息前转功能 (7)5.1.5 支持MO短消息正向定购功能 (8)5.1.6 支持点播类业务 (8)5.1.7 支持用户伪码功能 (8)5.1.8 支持可信任号码组的功能 (8)5.1.9 支持LBS业务 (8)5.1.10支持神州行用户的实时计费功能 (8)5.1.11支持路由功能 (9)5.1.12 支持SP的长服务代码 (9)5.1.13支持灵活的目的号码编码方案 (9)5.1.14支持对多点接入型全网SP下发的短信进行有条件拦截的功能 (10)5.1.15支持对SP下发的短信进行合法性判定的功能 (11)5.1.16支持短信息储备重发功能 (11)5.1.17支持短信息压缩功能 (12)5.1.18支持短信息优先级 (12)5.1.19支持计费功能 (12)5.1.20支持各种鉴权功能 (13)5.1.21支持报表功能 (13)5.1.22支持流量操纵 (13)5.2数据治理功能 (13)5.2.1 SP信息的治理 (13)5.2.2短信息网关信息治理 (14)5.2.3 DSMP信息治理 (14)5.2.4 SMSC信息治理 (14)5.2.5 SCP信息治理 (14)5.2.6路由数据治理 (15)5.2.7灵活的目的号码的治理 (16)5.2.8 短信息优先级的治理 (16)5.3网管功能 (16)5.3.1支持统计数据采集 (16)5.3.2支持配置信息的查询和修改 (17)5.3.3支持监控和跟踪功能 (17)5.3.4支持故障治理 (18)6 计费功能详述 (19)6.1各类计费话单的生成 (19)6.2各类计费话单包含的信息 (19)6.3计费话单的储备和传送 (23)7 接口规程 (24)7.1 ISMG与SP的接口 (24)7.2 ISMG与SMSC的接口 (24)7.3 ISMG与其它ISMG的接口 (24)7.4 ISMG与DSMP的接口 (24)7.5 ISMG与G-SCP的接口 (24)7.6 ISMG与GNS的接口 (25)7.7对ISMG涉及的错误代码的说明 (25)8 性能指标与可靠性要求 (25)8.1 ISMG的性能指标 (25)8.2 ISMG的可靠性要求 (25)9 安全性要求 (25)9.1 网络安全 (25)9.2 系统安全 (26)9.3 应用安全 (26)10 硬件要求 (26)10.1 对CPU的要求 (26)10.2 对内存的要求 (26)10.3 对硬盘的要求 (26)10.4 对网络链路的要求 (26)10.5 对磁带、光盘等后备储备器的要求 (26)11 软件要求 (27)11.1 对操作系统的要求 (27)11.2 对ISMG软件的要求 (27)12 环境要求 (27)13 附录A:编制历史 (28)前言该标准对短信息网关设备实现的功能提出了要求。

gb 12513标准GB 12513标准是指中国国家标准GB 12513-2011《道路车辆-车辆识别号》的简称，该标准规定了车辆识别号的结构、编码规则和标记要求。

车辆识别号是指车辆制造商为了唯一标识和识别车辆而在车辆制造过程中打印或冲压在车辆上的一组字符，它是车辆的唯一标识，类似于人的身份证号码。

车辆识别号的准确、规范使用对于保障车辆管理、维修和交通安全具有重要意义。

根据GB 12513标准，车辆识别号通常由17位字符组成，包括字母和数字。

这17位字符可以分为三个部分，WMI（世界制造商识别码）、VDS（车辆描述符部分）和VIS（车辆识别号序列号部分）。

其中WMI由3个字符组成，用于标识车辆制造商的世界制造商识别码；VDS由6个字符组成，用于描述车辆的基本特征和车型；VIS由8个字符组成，用于标识车辆的生产顺序号。

这种结构的设计既方便了车辆制造商对车辆信息的管理，也方便了车辆管理部门对车辆信息的查询和识别。

在实际应用中，GB 12513标准的合理使用可以带来诸多好处。

首先，它可以帮助车辆管理部门准确识别和管理车辆信息，包括车辆的制造商、型号、生产日期等重要信息，有利于提高车辆管理的效率和准确性。

其次，它可以帮助车主和维修人员准确识别车辆，方便进行维修和保养工作，保障车辆的安全和可靠性。

此外，车辆识别号的规范使用还可以帮助执法部门打击车辆盗窃和非法交易行为，维护社会治安和交通秩序。

然而，虽然GB 12513标准在车辆识别号的结构和编码规则方面做出了详细规定，但在实际应用中仍然存在一些问题和挑战。

例如，一些车辆制造商可能存在违规操作，导致车辆识别号的真实性和唯一性受到质疑；一些车辆管理部门可能存在信息录入不规范、查询不及时的情况，影响了车辆识别号的实际应用效果。

因此，我们需要进一步加强对GB 12513标准的宣传和培训，提高相关部门和人员的规范操作意识，确保车辆识别号的准确、规范使用。

总的来说，GB 12513标准对于车辆识别号的结构、编码规则和标记要求做出了详细规定，它在车辆管理、维修和交通安全方面具有重要意义。