TELECOMMUNICATIONS STANDARDS ADVISORY COMMITTEE Update...

For information only TSAC Paper No. 21/2000

TSAC Paper No. 21/2000 September 2000

TELECOMMUNICATIONS STANDARDS ADVISORY COMMITTEE

Update on IMT-2000 Development

Introduction

This paper describes the latest development of the International MobileTelecommunications – 2000 (IMT-2000) which is the Third Generation (3G) MobileSystem envisaged by the International Telecommunication Union (ITU). For thebackground information on IMT-2000, members may refer to the NSP WG Paper No.12/1999 dated July 1999.

Development of IMT-2000 by ITU

Radio Interfaces

2. In September 1998, a number of proposals for the IMT-2000 terrestrialand satellite Radio Transmission Technologies (RTTs) were submitted to theITU-R Task Group 8/1 (TG 8/1). These proposals were based on a variety of accesstechnologies including FDMA, TDMA and CDMA. The different CDMA proposalsby the Third Generation Partnership Project (3GPP) and the Third GenerationPartnership Project 2 (3GPP2) for the terrestrial components which used incompatiblechip rates created some compatibility problems. To help achieve maximum degree ofcommonality in the IMT-2000 radio interfaces, the Operators’ Harmonization Group(OHG) put forth a proposal requesting 3GPP and 3GPP2 to harmonize their CDMAstandards. The proposal was endorsed in the 17th TG 8/1 meeting held in June 1999in Beijing and accepted by 3GPP and 3GPP2 which had amended their respectiveCDMA proposals accordingly.

3. In the 18th TG 8/1 meeting held in Helsinki in late October 1999,approval was given to the radio specifications for IMT-2000 which cover a selectedset of terrestrial and satellite radio interfaces. The approved radio interfaces are asfollows —

Terrestrial Components

(a) CDMA Direct Sequence (CDMA DS), which is called UniversalTerrestrial Radio Access (UTRA) Frequency Division Duplex (FDD) orWideband CDMA (WCDMA) developed by 3GPP

(b) CDMA Multi-Carrier (CDMA MC), which is called cdma2000(consists of 1X and 3X components1) developed by 3GPP2

1 The 1X and 3X components use 1.25 MHz and 3.75 MHz bandwidth respectively.



(c) CDMA Time Division Duplex (CDMA TDD), which is called UTRATDD developed by 3GPP and Time Division-Synchronous CDMA (TD-SCDMA) developed by China Wireless Telecommunication Standard(CWTS) Group

(d) TDMA Single-Carrier (TDMA SC), which is called UniversalWireless Communication-136 (UWC-136) developed by theTelecommunications Industry Association (TIA) TR 45.3 Subcommitteewith inputs from the Universal Wireless Communications Consortium

(e) FDMA/TDMA, which is called Digital Enhanced CordlessTelecommunications (DECT) developed by the EuropeanTelecommunications Standards Institute (ETSI)

Satellite Components

(f) Satellite Wideband CDMA (SW-CDMA), which is based on theproposal from the European Space Agency (ESA)

(g) Wideband Code/Time Division Multiple Access (W-C/TDMA),which is based on the proposal from the ESA

(h) SAT-CDMA, which is based on the proposal from theTelecommunications Technology Association (TTA), Korea

(i) Satellite Radio Interface-D (SRI-D), which is based on the proposalfrom ICO Global Communications

(j) Satellite Radio Interface-E (SRI-E), which is based on the proposalfrom Inmarsat

(k) Satcom 2000, which is based on the proposal from Iridium

4. In the ITU Radiocommunication Assembly held in early May 2000, theITU-R recommendations for the IMT-2000 radio interfaces were formally approved.The major technical characteristics of the terrestrial and satellite radio interfaces aresummarized at Annex 1 to this paper. The recommendations make reference to thedetailed specifications of the five terrestrial radio interfaces being developed by 3GPP,3GPP2, CWTS, TIA TR 45.3 and ETSI. The progress of standard development forIMT-2000 in these organizations/partnerships is further reported in paragraphs 9 to 16below.

5. Following the approval of the IMT-2000 radio specifications in theHelsinki meeting, the TG 8/1 Task Group disbanded in December 1999. A newWorking Party WP8F was formed as a follow-on to TG 8/1. WP8F is responsible forthe overall system aspects of IMT-2000 with focus on the wireless terrestrialcomponents. The work items assigned to it include spectrum needs, higher data rate



capabilities, IP-based service needs of mobile systems and development of systemsbeyond IMT-2000.

Core Network

6. In December 1999, ITU-T agreed to a set of specifications for thenetwork aspects of IMT-2000 covering areas including services, functionalarchitectures, signalling, protocols, management, security and performance. The listof specifications is given below —

(a) Q.1521 “Requirements on underlying networks and signalling protocolsto support Universal Personal Telecommunication (UPT)”, which dealswith the requirements on underlying networks and signalling protocolsto support UPT Service Set 1

(b) Q.1531 “UPT security requirements for Service Set 1”, which specifiesUPT security requirements

(c) Q.1542 “UPT Stage 2 for Service Set 1 on Capability Set 2 (CS-2)”,which covers procedures for UPT functional modeling and informationflows

(d) Q.1721 “Information Flows for IMT-2000, Capability Set 1 (CS-1)”,which specifies stage 2 information flow procedures for supporting end-to-end inter-family and inter-system IMT-2000 CS-1 services andnetwork capabilities

(e) Q.1731 “Radio-technology Independent Requirements for IMT-2000Layer 2 Radio Interface”, which defines common services, functions andprimitives for the radio technology independent parts of layer 2 of IMT-2000 radio interface

(f) Q.1751 “Interworking Signalling Requirements for IMT-2000 CS-1”,which specifies signalling requirements for NNI protocol

Frequency Allocation

7. At World Radiocommunication Conference 1992 (WRC-92), thefrequency bands 1885-2025 MHz and 2110-2200 MHz were identified for IMT-2000on a worldwide basis, of which 1980-2010 MHz and 2170-2200 MHz were intendedfor the satellite component of IMT-2000 subject to coordination. At WRC-97, the1-3 GHz band was endorsed as most suitable for IMT-2000. It was also decided thatWRC-2000 should review the spectrum issues, considering that there was an urgentneed to provide spectrum for IMT-2000 terrestrial component.

8. In the Conference Preparatory Meeting (CPM) Report to WRC-2000, thepossible candidates for additional IMT-2000 spectrum were proposed. At WRC-2000



held at the end of May 2000, the following additional spectrums were identified forthe terrestrial and satellite components of IMT-2000 —

Terrestrial Component

(a) 806 - 960 MHz(b) 1710 - 1885 MHz(c) 2500 - 2690 MHz

Satellite Component

(a) 1525 - 1544 MHz(b) 1545 - 1559 MHz(c) 1610 - 1626.5 MHz(d) 1626.5 - 1645.5 MHz(e) 1646.5 - 1660.5 MHz(f) 2483.5 - 2500 MHz(g) 2500 - 2520 MHz(h) 2670 - 2690 MHz

Development of IMT-2000 by Regional Standardisation Bodies

Third Generation Partnership Project (3GPP)

9. There are four Technical Specification Groups (TSGs) in 3GPP whichare responsible for the development of Technical Specifications and Technical Reportsof the Universal Mobile Telecommunications System (UMTS). UMTS is the termused by 3GPP for IMT-2000. It is based on the UTRA FDD/TDD radio accesstechnologies and the evolved GSM core network. Responsibilities of the four TSGs of3GPP are as follows —

(a) TSG CN (Core Network) — responsible for specifying call control,mobility management and session management between the userequipment and the core network; core network internal interfaces for callassociated and non-call associated signalling; interconnection of the corenetwork with external networks.

(b) TSG RAN (Radio Access Network) — responsible for the radioaspects of terminal equipment and the UTRA network functions (bothFDD and TDD), requirements and interfaces.

(c) TSG SA (Services and System Aspects) — responsible for the overallarchitecture and service capabilities of systems.

(d) TSG T (Terminals) — responsible for the terminal equipmentperformance specifications, and the Universal Subscriber IdentityModule (USIM) and its interface specifications.



10. In July 2000, 3GPP created a new TSG called GERAN (GSM/EDGERadio Access Network) which is responsible for the maintenance and development ofGSM Technical Specifications and Technical Reports, including GSM evolved radioaccess technologies (such as the General Packet Radio Service (GPRS) and EnhancedData rates for GSM Evolution (EDGE)). TSG GERAN will continue the work ofpreviously undertaken by the Special Mobile Group (SMG) of ETSI which disbandedin July 2000.

11. 3GPP defines UMTS in a phased approach. In December 1999, 3GPPapproved the UMTS Phase 1 Release 1999 specifications, which could enable thelaunch of 3G communications services as early as in 2001. 3GPP is now working onthe UMTS Release 2000 specifications which will provide further enhancements andfeatures such as an “all-IP” based network, further refinements of radio access modes,seamless service provisioning, etc. The lists of UMTS Phase 1 Release 1999specifications and the published Release 2000 specifications are given at Annex 2 tothis Paper.

Third Generation Partnership Project 2 (3GPP2)

12. There are six Technical Specification Groups (TSGs) in 3GPP2 whichare responsible for the development of Technical Specifications and Technical Reportsof the 3GPP2’s IMT-2000 system which is based on the cdma2000 radio interface andthe evolved ANSI-41 core network. Responsibilities of the six TSGs are as follows —

(a) TSG-A (Access Network Interfaces) — responsible for thespecifications of interfaces between the radio access network and corenetwork, as well as within the access network.

(b) TSG-C (cdma2000) — responsible for the specifications of therequirements, functions and interfaces for the cdma2000 infrastructureand user terminal equipment.

(c) TSG-P (Wireless Packet Data Interworking) — responsible for thespecifications of the packet data network part of systems for theprovision of services like wireless IP, voice over IP, Internet access,multimedia, etc.

(d) TSG-R (Interface of 3GPP Radio Access Technology to 3G CoreNetwork evolved from ANSI-41) — responsible for the InterworkingFunction (IWF) specifications of interface of 3GPP’s UTRA radioaccess technology to an evolved ANSI-41 core network.

(e) TSG-S (Service and System Aspects) — responsible for thedevelopment of service capability requirements for systems based on the3GPP2 specifications, and the high level architectural issues tocoordinate service development across the various TSGs.



(f) TSG-N (ANSI-41/Wireless Intelligent Network) — responsible for thespecifications of the core network internal interfaces for call associatedand non-call associated signalling.

13. In April 2000, 3GPP2 announced the completion of the cdma2000 radiointerface Release A specifications. 3GPP2 is now working on new items whichinclude the definition of an all IP-wireless network that will maintain interoperabilitywith the traditional circuit networks and provide an evolution path for the operators’current networks. The list of technical specifications available from the website of3GPP2 is given at Annex 3 to this Paper.

China Wireless Telecommunication Standard (CWTS) Group

14. The CWTS is responsible for the development of technical standards forthe TD-SCDMA radio interface. TD-SCDMA has high degree of commonality with3GPP’s UTRA TDD standard. The list of technical specifications available from thewebsite of CWTS for the TD-SCDMA standard is given at Annex 4 to this Paper.

Telecommunications Industry Association (TIA) TR 45.3 Subcommittee

15. The TIA TR 45.3 Subcommittee is responsible for the development ofperformance, compatibility and interoperability standards for equipment that makesuse of Time Division Multiple Access (TDMA) radio access technology for the IMT-2000 system. At end of March 2000, TR 45.3 announced the publication of the UWC-136 specifications. The list of specifications is given at Annex 5 to this Paper.

European Telecommunications Standards Institute (ETSI)

16. The ETSI DECT Project has published a list of technical specificationswhich define the IMT-2000 radio interface using FDMA/TDMA technology. The listof published DECT specifications for IMT-2000 is given at Annex 6 to this Paper.

3G Implementation in Other Countries

Singapore

17. Singapore issued a consultation paper in October 1999 on the frameworkfor 3G mobile network deployment. According to the consultation paper, Singaporeearmarked 2×60 MHz spectrum (1920-1980 MHz / 2110-2170 MHz) for terrestrial 3Gservices. As a preliminary consideration, 4 to 6 licences could be issued if mixture of10 MHz and 15 MHz blocks were assigned to the licensees.

Japan



18. The Ministry of Posts and Telecommunications (MPT) has allocated2×60 MHz spectrum at 1920-1980 MHz (mobile to base) and 2110-2170 MHz (baseto mobile) for terrestrial IMT-2000 services. The radio technologies selected areCDMA DS (i.e. wideband CDMA or UTRA FDD) and CDMA MC (i.e. cdma2000).In June 2000, MPT granted approval to three licensees for the launch of terrestrialIMT-2000 services. It is expected that services will start in 2001.

Korea

19. The Ministry of Information and Communication (MIC) has reserved 60MHz spectrum for IMT-2000. The radio technology selected is CDMA MC. InFebruary 2000, a working level task force was formed to review various aspects of the3G licensing including the number of licensees, the procedure of licensing and thecounter-measures to prevent redundant investment. It is expected that 3G operatorswill be selected and licensed by the end of this year.

Australia

20. The Australian Communications Authority (ACA) issued a secondconsultation paper proposing the re-allocation of the spectrums 1900-1980 MHz,2110-2170 MHz, 830-835 MHz and 875-880 MHz for 3G services in July 2000.Licensing in Australia will be by auction which is anticipated to start in early 2001.

United Kingdom

21. The UK has reserved the spectrums 1900-1920 MHz (unpaired) and1920-1980 MHz / 2110-2170 MHz (paired) for terrestrial 3G mobile communications.Licences were granted to five operators through an auction exercise held inMarch/April 2000. It is expected that 3G services will start in early 2002.

Finland

22. In March 1999, the Telecommunications Administration Centre (TAC)awarded the national 3G licences to four operators. The radio technologies employedare CDMA DS and CDMA TDD. 2×15 MHz from the 1920-1980 MHz / 2110-2170MHz paired spectrum (for CDMA DS) plus 5 MHz unpaired spectrum from 1900-1920 MHz and 2010-2025 MHz (for CDMA TDD) were assigned to each operator.Services are expected to start in early 2002.

France

23. The Autorité de Régulation des Télécommunications (ART) planned tolicense four 3G mobile operators. The radio technologies employed would beCDMA DS and CDMA TDD respectively. Each operator would be allocated 2×15MHz paired spectrum in 1920-1980 MHz / 2110-2170 MHz for CDMA DS operation



and 5 MHz unpaired spectrum in 1900-1920 MHz and 2010-2025 MHz for CDMATDD operation.

Germany

24. The auction for the 3G licences in Germany completed in mid August2000. There are six successful operators in the auction, each assigned two 2×5 MHzblocks from the bands 1900-1980 MHz, 2010-2025 MHz and 2110-2170 MHz. Theradio technologies employed would be CDMA DS and CDMA TDD. It is expectedthat 3G service will be launched from 2002.

Switzerland

25. The Federal Communications Commission (ComCom) prepared to grantfour licences to the 3G operators through an auction exercise to be held in midNovember 2000. CDMA DS and CDMA TDD are the preferred standards. Abandwidth of 2×15 MHz (for CDMA DS) and 5 MHz (for CDMA TDD) from thecore bands 1900-2025 MHz and 2110-2200 MHz are considered sufficient.Commercial introduction of the first 3G network is expected to be on 1 January 2002.

Sweden

26. The National Post and Telecom Agency intended to issue four 3Glicences, tentatively in November 2000. Each licensee will be allocation 2×15 MHzfrom 1920-1980 MHz / 2110-2170 MHz for CDMA DS operation and 5 MHz forfrom 1900-1920 MHz and 2010-2025 MHz for CDMA TDD operation. Services areexpected to start in 2002.

United States

27. Discussions are ongoing concerning the possible new spectrum bandsfor 3G systems. The Federal Communications Commission (FCC) intends to auctionspectrum outside the harmonized ITU spectrum plan bands identified by WRC-92 for3G applications, with 12 licenses to be awarded across six regions. This US auction ofspectrum in the 700 MHz band is expected to start in the second quarter of 2000.

Choices of IMT-2000 Radio Standards

28. The leading equipment manufacturers have been conducting or areplanning to conduct trials on IMT-2000 with the mobile operators in various countriesincluding Japan, the United Kingdom, Germany, Italy, Sweden, the United States, etc.Some manufacturers have also entered into agreement with the operators for theprovision of equipment for their IMT-2000 networks. Currently, the IMT-2000 radio



technologies which gain most interest and attract most development efforts are CDMADS (i.e. wideband CDMA or UTRA FDD) and CDMA MC (i.e. cdma2000).

29. Most European countries have adopted the CDMA DS standard whereasJapan chose both CDMA DS and CDMA MC. Judging from the current development,it is expected that the first commercial IMT-2000 systems will be based on these twotypes of technologies and services would be available in as early as 2001. However, itis to be noted that Mainland China is now intensifying the research efforts on the TD-SCDMA standard developed by the Government-funded CWTS Group incollaboration with Siemens of Germany. This will have an impact on the proponentsof CDMA DS and CDMA MC who would like to have a share on the massive Chinamobile market.

Development of IMT-2000 in Hong Kong

30. In September 1998, OFTA formed an IMT-2000 Focus Group to collectviews from the relevant parties on service provisioning, technical standards andspectrum requirements for IMT-2000. After a series of five meetings held in theperiod from September 1998 to July 1999, the Focus Group issued its report inSeptember 1999. The report summarises the views collected from the Focus Groupmembers and draws conclusions with respect to various aspects including satelliteoperations, 2G to 3G migration, numbering and number portability, multiple 3Gstandards network, spectrum requirements, spectrum allocation, frequency coordinationwith Mainland, etc. The report is available for download from OFTA’s website.

31. On 21 March 2000, OFTA issued an Industry Consultation Paper on thelicensing framework for the 3G mobile services. The consultation period is twomonths. Comments from the public, industry (operators and manufacturers) andvarious interested parties, both local and overseas, have been received. Both theConsultation Paper and the comments on it are available for download from OFTA’swebsite.

32. Concerning standard setting of IMT-2000, the TA stated in theConsultation Paper that it was necessary to promote the adoption of technicalstandards that were compatible with each other from the users’ point of view in orderto facilitate competition between networks and to maximize user convenience inaccessing roaming services. The choice of 3G standards will have to be constrainedby the band plan in Hong Kong. The TA therefore intended to allow the prospectiveoperators to use IMT-2000 standards adopted by the ITU within their assigned 3Gfrequency bands for 3G services, subject to the TA being satisfied that the varioustechnical standards are compatible with each other from the users’ point of view.

33. The principles proposed by the TA in the Consultation Paper havereceived general support from the parties who have commented on the standard issue.



Some submissions pointed out that to implement these principles, it would benecessary to adopt the technical standard expected to be most widely accepted in otherparts of the world because terminals capable of working with more than one IMT-2000 radio interface standard might be not available in the initial years. Somesubmissions commented guard bands between frequency blocks assigned to operatorsusing different IMT-2000 radio interfaces would be required if multiple standardswere adopted. The use of guard bands would reduce the amount of usable spectrum.One submission commented that terminal interoperability should not be mandatedbecause this would effectively serve as a mandate on the radio standard.

Way Forward

34. The mobile industry is beginning to migrate from the 2G age to the 3Gera where in addition to voice telephony, a wide variety of multimedia and dataservices will be available. The future of the mobile telecommunications marketcannot be foreseen accurately at present but certainly it will be an exciting one full ofinnovations. To keep in pace with the mobile world, the development of IMT-2000 invarious aspects including service capabilities, availability and functionality ofterminals, deployment status, evolution etc. will be kept in view and reported in future.Members are invited to note the development of IMT-2000.

Office of the Telecommunications AuthoritySeptember 2000

For information only Annex 1 to TSAC Paper No. 21/2000

Annex 1 to TSAC Paper No. 21/2000 Page iSeptember 2000

Annex 1 - Major Technical Characteristics of Approved Radio TransmissionTechnologies (RTTs) for IMT-2000

Terrestrial Component of IMT-2000

Radio Interface Major Technical Characteristics

CDMA Direct Sequence(UTRA TDD)

! Multiple access : direct sequence CDMA! Duplexing : FDD! Chip rate : 3.84 Mcps! Bandwidth : about 5 MHz! Data Modulation : BPSK, QPSK! Operating environment : vehicular, pedestrian, indoor

CDMA Multi-Carrier(cdma2000)

! Multiple access : multi-carrier CDMA! Duplexing : FDD! Chip rate : N × 1.2288 Mcps, currently N = 1, 3 where

N can be extended to 6, 9, 12! Bandwidth : N x 1.25 MHz, currently N = 1, 3! Data Modulation : BPSK, QPSK! Operating environment : vehicular, pedestrian, indoor

CDMA TDD(UTRA TDD /TD-SCDMA)

! Multiple access : TDMA/CDMA! Duplexing : TDD! Chip Rate : 3.84 Mcps or 1.28 Mcps! Bandwidth : less than 5 MHz or less than 1.6 MHz! Modulation : QPSK! Operating environment : vehicular, pedestrian, indoor

TDMA Single-Carrier(UWC-136)

! Multiple access : TDMA! Duplexing : FDD (TDD optional for 136HS indoor bearer)! Channel spacing :

for 136+ bearer : 30 kHzfor 136HS Outdoor bearer : 200 kHzfor 136HS Indoor bearer : 1600 kHz

! Modulation :for 136+ bearer : π/4 DQPSK, 8-PSKfor 136HS Outdoor bearer : GMSK, 8-PSKfor 136HS Indoor bearer : binary offset QAM,

quaternary offset QAM! Operating environment : vehicular, pedestrian, indoor

FDMA/TDMA(DECT)

! Multiple access : TDMA! Duplexing : TDD! Channel spacing : 1728 kHz! Modulation : GFSK, π/2 DBPSK, π/4 DQPSK, π/8 D8PSK! Operating environment : pedestrian, indoor


Annex 1 to TSAC Paper No. 21/2000 Page iiSeptember 2000

Satellite Component of IMT-2000

Radio Interface Features

SW-CDMA ! Multiple access : direct sequence CDMA! Duplexing : FDD! Chip rate : 1.920 Mcps or 3.840 Mcps! Channel bandwidth : 2.350 MHz (for 1.920 Mcps chip rate)

4.700 MHz (for 3.840 Mcps chip rate)! Modulation : dual-code BPSK (uplink)

QPSK or BPSK (downlink)! Data rate : 1.2 kbit/s to 144 kbit/s! Satellite constellation : LEO, MEO, GEO or HEO

W-T/CDMA ! Multiple access :uplink : hybrid wideband quasi-synchronous quasi-orthogonal

C/TDMAdownlink : hybrid wideband orthogonal C/TDM

! Duplexing : FDD or FDD/TDD! Chip rate : 1.920 Mcps or 3.840 Mcps! Channel bandwidth : 2.350 MHz (for 1.920 Mcps chip rate)

4.700 MHz (for 3.840 Mcps chip rate)! Modulation : QPSK or dual-code BPSK (uplink)

QPSK or BPSK (downlink)! Data rate : 1.2 kbit/s to 144 kbit/s! Satellite constellation : LEO, MEO, GEO, HEO

SAT-CDMA ! Multiple access : CDMA/FDMA! Duplexing : FDD! Chip Rate : 3.84 Mcps! Channel bandwidth : about 5 MHz! Modulation : dual-channel QPSK (uplink)

QPSK (downlink)! Data rate : 2.4 kbit/s to 64 kbit/s (basic bearer services)

2.4 kbit/s to 144 kbit/s (packet data services)! Satellite constellation : LEO

SRI-D ! Multiple access : FDMA / TDMA! Duplexing : FDD! Channel spacing : 25 kHz! Modulation : GMSK (uplink)

QPSK/BPSK (downlink)! Data rate : up to 38.4 kbit/s! Satellite constellation : MEO


Annex 1 to TSAC Paper No. 21/2000 Page iiiSeptember 2000

SRI-E ! Multiple access : TDMA! Duplexing : FDD! Channel spacing : 100 kHz! Modulation : QPSK/16QAM! Data rate : up to 144 kbit/s (up to 432 kbit/s using multiple

channels)! Satellite constellation : GEO

Satcom 2000 ! Multiple access : FDMA / TDMA and FDMA / CDMA! Duplexing : TDD/FDD! Chip rate : 1.228 to 4.096 Mcps (for CDMA only)! Channel bandwidth :

TDMA : 27.17 kHzCDMA : 1.25 to 5 MHz

! Modulation :TDMA : QPSKCDMA : 16QAM/QPSK

! Date rate :TDMA : 2.4 to 4 kbit/sCDMA : up to 9.6 kbit/s (up to 144 kbit/s using multiple

channels)! Satellite constellation : LEO



Annex 2

List of 3GPP UMTS Phase 1 Release 1999 Specifications and Reports for IMT-2000(available at http://www.3gpp.org/TSG/2000-06.htm)

Type Number Title Version

TS 21.101 3rd Generation mobile system Release 1999 Specifications 3.0.1TS 21.111 USIM and IC card requirements 3.1.0TS 21.133 Security Threats and Requirements 3.1.0TS 21.200 3GPP drafting rules 0.0.1TR 21.810 Multi-mode UE issues 2.0.0TR 21.900 3GPP Working methods 3.2.0TR 21.904 UE Capability Requirements (UCR) 3.0.1TR 21.905 3G Vocabulary 3.0.0TR 21.978 Feasibility Technical Report – CAMEL Control of VoIP Services 2.1.0TS 22.001 Principles of Circuit Telecommunication Services Supported by a Public Land

Mobile Network (PLMN)3.2.0

TS 22.002 Circuit Bearer Services Supported by a PLMN 3.3.0TS 22.003 Circuit Teleservices supported by a Public Land Mobile Network (PLMN) 3.2.0TS 22.004 General on Supplementary Services 3.2.1TS 22.011 Service accessibility 3.2.0TS 22.016 International Mobile Equipment Identities (IMEI) 3.1.0TS 22.022 Personalisation of GSM ME Mobile functionality specification - Stage 1 3.0.1TS 22.024 Description of Charge Advice Information (CAI) 3.0.1TS 22.030 Man-Machine Interface (MMI) of the Mobile Station (MS) 3.3.0TS 22.034 High Speed Circuit Switched Data (HSCSD) - Stage 1 3.2.2TS 22.038 SIM application toolkit (SAT); Stage 1 3.1.0TS 22.041 Operator Determined Call Barring 3.1.0TS 22.042 Network Identity and Time Zone (NITZ), stage 1 3.0.1TS 22.043 Support of Localised Service Area (SoLSA) - Stage 1 3.0.1TS 22.057 Mobile Station Application Execution Environment (MExE); Stage 1 3.0.1TS 22.060 General Packet Radio Service (GPRS); Stage 1 3.3.0TS 22.066 Support of Mobile Number Portability (MNP); Stage 1 3.1.0TS 22.067 enhanced Multi-Level Precedence and Pre-emption service (eMLPP) - Stage 1 3.0.1TS 22.071 Location Services (LCS); Stage 1 (T1P1) 3.2.0TS 22.072 Call Deflection (CD); Stage 1 3.0.1TS 22.078 CAMEL; Stage 1 3.3.0TS 22.079 Support of Optimal Routing; Stage 1 3.0.1TS 22.081 Line Identification Supplementary Services; Stage 1 3.1.0TS 22.082 Call Forwarding (CF) Supplementary Services; Stage 1 3.0.1TS 22.083 Call Waiting (CW) and Call Hold (HOLD) Supplementary Services; Stage 1 3.0.1TS 22.084 MultiParty (MPTY) Supplementary Service; Stage 1 3.0.1TS 22.085 Closed User Group (CUG) Supplementary Services; Stage 1 3.1.0TS 22.086 Advice of Charge (AoC) Supplementary Services; Stage 1 3.1.0TS 22.087 User-to-user signalling (UUS); Stage 1 3.1.0TS 22.088 Call Barring (CB) Supplementary Services; Stage 1 3.0.1TS 22.090 Unstructured Supplementary Service Data (USSD); Stage 1 3.1.0TS 22.091 Explicit Call Transfer (ECT) Supplementary Service; Stage 1 3.0.1TS 22.093 Call Completion to Busy Subscriber (CCBS); Stage 1 3.0.1TS 22.094 Follow Me Stage 1 3.1.0TS 22.096 Calling Name Presentation (CNAP); Stage 1 (T1P1) 3.0.1TS 22.097 Multiple Subscriber Profile (MSP); Stage 1 3.1.0TS 22.100 UMTS Phase 1 3.6.0




TS 22.101 UMTS Service principles 3.9.0TS 22.105 Services & Service capabilities 3.8.0TS 22.115 Service Aspects Charging and billing 3.3.0TS 22.121 Provision of Services in UMTS - The Virtual Home Environment 3.2.0TS 22.129 Handover Requirements between UMTS and GSM or other Radio Systems 3.2.0TS 22.135 Multicall Stage 1 3.2.0TS 22.140 Multimedia Messaging Service Stage 1 3.0.0TR 22.945 Study of provision of fax service in GSM and UMTS 3.0.0TR 22.971 Automatic establishment of roaming relationships 3.1.1TR 22.975 Advanced addressing 3.1.0TS 23.002 Network Architecture 3.3.0TS 23.003 Numbering, Addressing and Identification 3.4.1TS 23.007 Restoration procedures 3.3.0TS 23.008 Organisation of subscriber data 3.3.0TS 23.009 Handover procedures 3.2.0TS 23.011 Technical Realization of Supplementary Services - General Aspects 3.0.1TS 23.012 Location management procedures 3.2.1TS 23.014 Support of Dual Tone Multi Frequency (DTMF) signalling 3.1.0TS 23.015 Technical realisation of Operator Determined Barring (ODB) 3.1.0TS 23.016 Subscriber data management - Stage 2 3.4.0TS 23.018 Basic Call Handling - Technical realisation 3.4.0TS 23.032 Universal Geographical Area Description (GAD) 3.1.0TS 23.034 High Speed Circuit Switched Data (HSCSD) - Stage 2 3.2.0TS 23.038 Alphabets & Language 3.3.0TR 23.039 Interface Protocols for the Connection of Short Message Service Centers (SMSCs)

to Short Message Entities (SMEs)3.1.0

TS 23.040 Technical realisation of Short Message Service 3.4.1TS 23.041 Technical Realization of Cell Broadcast Service 3.2.0TS 23.042 Compression algorithm for SMS 3.1.0TS 23.054 Shared Interworking Functions - Stage 2 3.0.0TS 23.057 Mobile Station Application Execution Environment (MExE) 3.1.1TS 23.060 General Packet Radio Service (GPRS) Service description; Stage 2 3.3.0TS 23.066 Support of GSM Mobile Number Portability (MNP) stage 2 3.2.0TS 23.067 Enhanced Multi-Level Precedence and Preemption Service (EMLPP) - Stage 2 3.1.0TS 23.072 Call Deflection Supplementary Service - Stage 2 3.2.0TS 23.073 Support of Localised Service Area (SoLSA) - Stage 2 3.0.1TS 23.078 CAMEL Stage 2 3.4.0TS 23.079 Support of Optimal Routing - Phase 1 - Stage 2 3.4.0TS 23.081 Line Identification Supplementary Services - Stage 2 3.0.1TS 23.082 Call Forwarding (CF) Supplementary Services - Stage 2 3.2.0TS 23.083 Call Waiting (CW) and Call Hold (HOLD) Supplementary Service - Stage 2 3.1.0TS 23.084 MultiParty (MPTY) Supplementary Service - Stage 2 3.1.0TS 23.085 Closed User Group (CUG) Supplementary Service - Stage 2 3.0.1TS 23.086 Advice of Charge (AoC) Supplementary Service - Stage 2 3.0.1TS 23.087 User-to-User Signalling (UUS) - Stage 2 3.0.1TS 23.088 Call Barring (CB) Supplementary Service - Stage 2 3.1.0TS 23.090 Unstructured Supplementary Service Data (USSD) - Stage 2 3.1.0TS 23.091 Explicit Call Transfer (ECT) Supplementary Service - Stage 2 3.1.0TS 23.093 Call Completion to Busy Subscriber (CCBS) - Stage 2 3.1.0TS 23.094 Follow Me Stage 2 3.1.0TS 23.096 Name Identification Supplementary Service - Stage 2 3.0.1TS 23.097 Multiple Subscriber Profile (MSP); Stage 2 3.1.1TS 23.101 General UMTS Architecture 3.0.1TS 23.107 Quality of Service, Concept and Architecture 3.2.0


Annex 2 to TSAC Paper No. 21/2000 Page iiiSeptember 2000


TS 23.108 Mobile Radio Interface Layer 3 specification Core Network Protocols stage 2(structured procedures)

3.2.0

TS 23.110 UMTS Access Stratum Services and Functions 3.4.0TS 23.116 Super Charger - Stage 2 3.0.0TS 23.119 Gateway Location Register (GLR) - Stage2 3.0.0TS 23.121 Architecture Requirements for release 99 3.3.0TS 23.122 Non Access Stratum functions related to Mobile Station (MS) in idle mode 3.2.0TS 23.127 Virtual Home Environment / Open Service Architecture 3.0.0TS 23.135 Multicall Stage 2 3.0.0TS 23.140 Multimedia Messaging Service (MMS) 3.0.1TS 23.153 Out of Band Transcoder Control - Stage 2 2.0.0TS 23.171 Functional stage 2 description of location services in UMTS 3.0.0TR 23.814 Separating RR and MM specific parts of the MS Classmark 3.1.0TR 23.908 Technical report on Pre-Paging 3.0.1TR 23.909 Technical report on the Gateway Location Register 3.0.1TR 23.910 Circuit Switched Data Bearer Services 3.0.0TR 23.911 Technical report on Out-of-band transcoder control 3.0.1TR 23.912 Technical report on Super-Charger 3.0.2TR 23.922 Architecture for an All IP network 1.0.0TR 23.923 Combined GSM and Mobile IP mobility handling in UMTS IP CN 3.0.0TR 23.925 UMTS Core network based ATM transport 0.2.0TR 23.930 Iu Principles 3.0.0TR 23.972 Circuit Switched Multimedia Telephony 3.0.0TS 24.002 GSM-UMTS Public Land Mobile Network (PLMN) Access Reference

Configuration3.0.0

TS 24.007 Mobile Radio Interface Signalling Layer 3 - General Aspects 3.3.1TS 24.008 Mobile Radio Interface Layer 3 specification; Core Network Protocols - Stage 3 3.3.1TS 24.010 Mobile Radio Interface Layer 3 - Supplementary Services Specification - General

Aspects3.0.0

TS 24.011 Point-to-Point (PP) Short Message Service (SMS) Support on Mobile RadioInterface

3.2.0

TS 24.012 Short Message Service Cell Broadcast (SMSCB) Support on the Mobile RadioInterface

3.0.0

TS 24.022 Radio Link Protocol (RLP) for Data and Telematic Services on the (MS-BSS)Interface and the Base Station System - Mobile-services Switching Centre (BSS-MSC) Interface

3.2.0

TS 24.030 Location Services LCS Stage 3 SS (MO-LR) 3.0.0TS 24.067 Enhanced Multi-Level Precedence and Pre-emption service (eMLPP) - Stage 3 3.0.0TS 24.072 Call Deflection Supplementary Service - Stage 3 3.0.0TS 24.080 Mobile radio Layer 3 Supplementary Service specification - Formats and coding 3.2.0TS 24.081 Line Identification Supplementary Service - Stage 3 3.0.0TS 24.082 Call Forwarding Supplementary Service - Stage 3 3.0.0TS 24.083 Call Waiting (CW) and Call Hold (HOLD) Supplementary Service - Stage 3 3.0.0TS 24.084 MultiParty (MPTY) Supplementary Service - Stage 3 3.0.0TS 24.085 Closed User Group (CUG) Supplementary Service - Stage 3 3.0.0TS 24.086 Advice of Charge (AoC) Supplementary Service - Stage 3 3.0.0TS 24.087 User-to-User Signalling (UUS) - Stage 3 3.0.0TS 24.088 Call Barring (CB) Supplementary Service - Stage 3 3.0.0TS 24.090 Unstructured Supplementary Service Data (USSD) - Stage 3 3.0.0TS 24.091 Explicit Call Transfer (ECT) Supplementary Service - Stage 3 3.0.0TS 24.093 Call Completion to Busy Subscriber (CCBS) - Stage 3 3.0.0TS 24.096 Name Identification Supplementary Service - Stage 3 3.0.0TS 24.135 Multicall Stage 3 3.0.0TS 25.101 UE Radio transmission and reception (FDD) 3.2.2


Annex 2 to TSAC Paper No. 21/2000 Page ivSeptember 2000


TS 25.102 UE Radio transmission and reception (TDD) 3.2.0TS 25.104 UTRA (BS) FDD; Radio transmission and reception 3.2.0TS 25.105 UTRA (BS) TDD: Radio transmission and reception 3.2.0TS 25.113 Base station EMC 3.1.0TS 25.123 Requirements for support of radio resource management (TDD) 3.1.1TS 25.133 Requirements for support of radio resource management (FDD) 3.1.0TS 25.141 Base station conformance testing (FDD) 3.1.0TS 25.142 Base station conformance testing (TDD) 3.1.0TS 25.201 Physical layer -General Description 3.0.2TS 25.211 Physical channels and mapping of transport channels onto physical channels (FDD) 3.2.0TS 25.212 Multiplexing and channel coding (FDD) 3.2.0TS 25.213 Spreading and modulation (FDD) 3.2.0TS 25.214 Physical layer procedures (FDD) 3.2.0TS 25.215 Physical layer; Measurements (FDD) 3.2.0TS 25.221 Physical channels and mapping of transport channels onto physical channels

(TDD)3.2.0

TS 25.222 Multiplexing and channel coding (TDD) 3.2.1TS 25.223 Spreading and modulation (TDD) 3.2.0TS 25.224 Physical layer procedures (TDD) 3.2.0TS 25.225 Physical layer; Measurements (TDD) 3.2.0TS 25.301 Radio Interface Protocol Architecture 3.4.0TS 25.302 Services provided by the physical layer 3.4.0TS 25.303 UE functions and inter-layer procedures in connected mode 3.3.0TS 25.304 UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected

Mode3.2.0

TS 25.305 Stage 2 Functional Specification of Location Services in UTRAN (LCS) 3.1.0TS 25.321 Medium Access Control (MAC) Protocol Specification 3.3.0TS 25.322 Radio Link Control (RLC) Protocol Specification 3.2.0TS 25.323 Packet Data Convergence Protocol (PDCP) protocol 3.1.0TS 25.324 Radio Interface for Broadcast/Multicast Services 3.1.0TS 25.331 Radio Resource Control (RRC) Protocol Specification 3.2.0TS 25.401 UTRAN Overall Description 3.2.0TS 25.402 Synchronisation in UTRAN Stage 2 3.1.0TS 25.410 UTRAN Iu Interface: General Aspects and Principles 3.2.0TS 25.411 UTRAN Iu interface Layer 1 3.2.0TS 25.412 UTRAN Iu interface signalling transport 3.3.0TS 25.413 UTRAN Iu interface RANAP signalling 3.1.0TS 25.414 UTRAN Iu interface data transport & transport signalling 3.3.0TS 25.415 UTRAN Iu interface user plane protocols 3.2.0TS 25.419 UTRAN Iu interface: Cell broadcast protocols between SMS-CBC and RNC 3.0.0TS 25.420 UTRAN Iur Interface: General Aspects and Principles 3.1.0TS 25.421 UTRAN Iur interface Layer 1 3.0.0TS 25.422 UTRAN Iur interface signalling transport 3.3.0TS 25.423 UTRAN Iur interface RNSAP signalling 3.1.0TS 25.424 UTRAN Iur interface data transport & transport signalling for CCH data streams 3.2.0TS 25.425 UTRAN Iur interface user plane protocols for CCH data streams 3.1.0TS 25.426 UTRAN Iur and Iub interface data transport & transport signalling for DCH data

streams3.2.0

TS 25.427 UTRAN Iur and Iub interface user plane protocols for DCH data streams 3.2.0TS 25.430 UTRAN Iub Interface: General Aspects and Principles 3.1.0TS 25.431 UTRAN Iub interface Layer 1 3.0.0TS 25.432 UTRAN Iub interface signalling transport 3.1.0TS 25.433 UTRAN Iub interface NBAP signalling 3.1.0TS 25.434 UTRAN Iub interface data transport & transport signalling for CCH data streams 3.2.0


Annex 2 to TSAC Paper No. 21/2000 Page vSeptember 2000


TS 25.435 UTRAN Iub interface user plane protocols for CCH data streams 3.2.0TS 25.442 UTRAN Implementation Specific O&M Transport 3.1.0TR 25.831 Study Items for future release 0.0.2TR 25.832 Manifestations of Handover and SRNS relocation 3.0.0TR 25.833 Physical layer items not for inclusion in Release 99 1.0.0TR 25.921 Guidelines and principles for protocol description and error handling 3.1.0TR 25.922 Radio Resource Management Strategies 3.1.0TR 25.925 Radio Interface for Broadcast/Multicast Services 3.1.0TR 25.926 UE Radio Access capabilities definition 3.0.0TR 25.931 UTRAN Functions, examples on signalling procedures 1.2.4TR 25.941 Document structure 3.1.0TR 25.942 RF system scenarios 2.1.3TR 25.943 Deployment aspects 2.0.0TR 25.944 Channel coding and multiplexing examples 3.0.0TR 25.990 Vocabulary for UTRAN 3.0.0TS 26.071 AMR speech Codec; General description 3.0.1TS 26.073 AMR speech Codec; C-source code 3.1.0TS 26.074 AMR speech Codec; Test sequences 3.0.1TS 26.090 AMR speech Codec; Transcoding Functions 3.1.0TS 26.091 AMR speech Codec; Error concealment of lost frames 3.1.0TS 26.092 AMR speech Codec; comfort noise for AMR Speech Traffic Channels 3.0.1TS 26.093 AMR speech Codec; Source Controlled Rate operation 3.1.0TS 26.094 AMR Speech Codec; Voice Activity Detector for AMR Speech Traffic Channels 3.0.0TS 26.101 AMR speech Codec; Frame Structure 3.1.0TS 26.102 AMR speech Codec; Interface to Iu and Uu 3.1.0TS 26.103 Codec lists 3.0.0TS 26.104 AMR speech Codec; Floating point C-Code 0.3.0TS 26.110 Codec for Circuit switched Multimedia Telephony Service; General Description 3.0.1TS 26.111 Codec for Circuit switched Multimedia Telephony Service; Modifications to H.324 3.1.0TS 26.131 Narrow Band (3,1kHz) Speech & Video Telephony Terminal Acoustic

Characteristics3.0.0

TS 26.132 Narrow Band (3,1kHz) Speech & Video Telephony Terminal Acoustic TestSpecification.

0.0.1

TR 26.911 Codec for Circuit switched Multimedia Telephony Service;TerminalImplementor’s Guide

3.2.0

TR 26.912 Codec for Circuit switched Multimedia Telephony Service; Quantitativeperformance evaluation of H.324 Annex C over 3G

3.0.0

TR 26.913 Quantitative performance evaluation of real-time packet switched multimediaservices over 3G

0.0.1

TR 26.915 QoS for Speech and Multimedia Codec; Quantitative performance evaluation ofreal-time packet switched multimedia services over 3G

3.0.0

TR 26.975 Performance characterization of the AMR speech codec 1.1.0TS 27.001 General on Terminal Adaptation Functions (TAF) for Mobile Stations (MS) 3.4.0TS 27.002 Terminal Adaptation Functions (TAF) for services using Asynchronous bearer

capabilities3.3.0

TS 27.003 Terminal Adaptation Functions (TAF) for services using Synchronous bearercapabilities

3.3.0

TS 27.005 Use of Data Terminal Equipment - Data Circuit terminating Equipment (DTE -DCE) interface for Short Message Service (SMS) and Cell Broadcast Service(CBS)

3.1.0

TS 27.007 AT command set for 3G User Equipment (UE) 3.4.0TS 27.010 Terminal Equipment to User Equipment (TE-UE) multiplexer protocol User

Equipment (UE)3.3.0

TS 27.060 GPRS Mobile Stations supporting GPRS 3.4.0


Annex 2 to TSAC Paper No. 21/2000 Page viSeptember 2000


TS 27.103 Wide Area Network Synchronisation 3.0.0TR 27.901 Report on Terminal Interfaces - An Overview 3.0.0TR 27.903 Discussion of Synchronisation Standards 3.0.0TS 29.002 Mobile Application Part (MAP) 3.4.0TS 29.007 General requirements on Interworking between the PLMN and the ISDN or PSTN 3.4.0TS 29.010 Information Element Mapping between Mobile Station - Base Station System (MS

- BSS) and Base Station System - Mobile-services Switching Centre (BSS - MCS)Signalling Procedures and the Mobile Application Part (MAP)

3.2.0

TS 29.011 Signalling Interworking for Supplementary Services 3.0.0TS 29.013 Signalling interworking between ISDN supplementary services Application Service

Element (ASE) and Mobile Application Part (MAP) protocols3.0.0

TS 29.016 Serving GPRS Support Mode SGSN - Visitors Location Register (VLR); GsInterface Network Service Specification

3.0.0

TS 29.018 Serving GPRS Support Mode SGSN - Visitors Location Register (VLR); GsInterface Layer 3 Specification

3.3.0

TS 29.060 GPRS Tunnelling protocol (GTP) across the Gn and Gp interface 3.4.0TS 29.061 General Packet Radio Service (GPRS); Interworking between the Public Land

Mobile Network (PLMN) supporting GPRS and Packet3.3.0

TS 29.078 CAMEL; Stage 3 3.3.0TS 29.119 GPRS Tunnelling Protocol (GTP) specification for Gateway Location Register

(GLR)3.0.0

TS 29.120 Mobile Application Part (MAP) specification for Gateway Location Register(GLR); stage 3

3.0.0

TR 30.531 Work Plan and Study Items - RAN WG3 0.7.0TS 31.101 UICC-terminal interface; Physical and logical characteristics 3.1.0TS 31.102 Characteristics of the USIM Application 3.1.0TS 31.110 Numbering system for telecommunication IC card applications 3.1.0TS 31.111 USIM Application Toolkit (USAT) 3.0.0TS 31.120 Terminal tests for the UICC Interface; part 1 0.0.0TS 31.121 Terminal tests for the UICC Interface; part 2 0.0.0TS 31.122 UICC Test Specification 0.0.0TS 32.005 GSM call and event data for the Circuit Switched (CS) domain 3.0.0TS 32.015 GSM call and event data for the Packet Switched (PS) domain 3.1.1TS 32.101 3G Telecom Management principles and high level requirements 3.1.1TS 32.102 3G Telecom Management Architecture 3.1.1TS 32.104 3G Performance Management 3.1.1TS 32.105 3G Charging call event data 0.0.1TS 32.106 3G Configuration Management 3.0.1TS 32.111 3G Fault Management 3.0.1TS 33.102 Security Architecture 3.4.0TS 33.103 Security Integration Guidelines 3.2.0TS 33.105 Cryptographic Algorithm requirements 3.3.0TS 33.106 Lawful interception requirements 3.1.0TS 33.107 Lawful interception architecture and functions 3.0.0TS 33.120 Security Objectives and Principles 3.0.0TR 33.900 Guide to 3G security 1.2.0TR 33.901 Criteria for cryptographic Algorithm design process 3.0.0TR 33.902 Formal Analysis of the 3G Authentication Protocol 3.1.0TR 33.908 Security Algorithms Group of Experts (SAGE); General report on the design,

specification and evaluation of 3GPP standard confidentiality and integrityalgorithms

3.0.0

TR 33.909 ETSI SAGE 3GPP Standards Algorithms Task Force: Report on the evaluation of3GPP standard confidentiality and integrity algorithms

3.0.0

TS 34.108 Common Test Environments for User Equipment (UE) Conformance Testing 1.0.1


Annex 2 to TSAC Paper No. 21/2000 Page viiSeptember 2000


TS 34.109 Logical Test Interface (TDD and FDD) 1.2.0TS 34.121 Terminal Conformance Specification, Radio Transmission and Reception (FDD) 3.0.1TS 34.122 Terminal Conformance Specification, Radio Transmission and Reception (TDD) 1.2.1TS 34.123-1 UE Conformance Specification, Part 1 – Conformance specification 1.0.1TS 34.123-2 UE Conformance Specification, Part 2 – ICS 1.0.1TS 34.123-3 UE Conformance Specification, Part 3 – Abstract Test suites 0.0.0TS 34.124 Electro-Magnetic Compatibility (EMC) for Terminal equipment - stage 1 3.0.0TR 34.907 Report on electrical safety requirements and regulations 3.0.0TR 34.925 Specific Absorption Rate (SAR) requirements and regulations in different regions 3.0.0TS 35.201 Specification of the 3GPP confidentiality and integrity algorithms; Document 1: f8

and f9 specifications3.1.0

TS 35.202 Specification of the 3GPP confidentiality and integrity algorithms; Document 2:Kasumi algorithm specification

3.1.0

TS 35.203 Specification of the 3GPP confidentiality and integrity algorithms; Document 3:Implementors' test data

3.1.0

TS 35.204 Specification of the 3GPP confidentiality and integrity algorithms; Document 4:Design conformance test data

3.1.0


Annex 2 to TSAC Paper No. 21/2000 Page viiiSeptember 2000

List of UMTS Phase 1 Release 2000 Technical Specifications and Reports(available at http://www.3gpp.org/TSG/2000-06.htm)


TS 21.102 3rd Generation mobile system Release 2000 Specifications 0.0.0TS 22.003 Circuit Teleservices supported by a Public Land Mobile Network (PLMN) 4.0.0TS 22.011 Service accessibility 4.0.0TS 22.053 Tandem Free Operation of speech codecs; Stage 1 service description 0.1.1TS 22.060 General Packet Radio Service (GPRS); Stage 1 4.0.0TS 22.226 Global text telephony; stage 1: Service description 0.0.0TR 22.976 Study on PS domain services and capabilities 1.4.0TS 23.146 Technical realisation of facsimile Group 3 service - non-transparent 2.0.0TS 23.226 Global text telephony; stage 2: Architecture 0.0.0TS 23.227 Terminal local model 0.0.0TR 23.821 Architecture Principles for Release2000 0.0.0TS 25.106 UTRA Repeater; Radio transmission and reception 0.0.1TS 25.143 UTRA Repeater; Conformance testing 0.0.0TR 25.924 Opportunity Driven Multiple Access (ODMA) 1.0.0TR 25.928 1.28Mcps UTRA TDD Physical Layer 0.0.3TR 25.932 Delay budget within the access stratum 0.0.0TR 25.933 IP Transport in UTRAN 0.0.0TR 25.934 AAL2 QoS optimization 0.0.0TR 25.945 RF requirements for low chip rate TDD option 0.0.0TS 26.226 Global text telephony; Transport of text in the voice channel 0.0.0TR 26.901 AMR Wideband Speech Codec Feasibility Study Report 4.0.1TR 26.920 Architectural Model for the 3G Transcoders 0.1.1TS 27.226 Global Text telephony; Terminal aspects 0.0.0TS 28.062 Inband Tandem Free Operation (TFO) of Speech Codecs; Service Description;

Stage 30.0.0

TR 34.910 Conformance Test specifications – Relevant for Regulatory use 0.0.1TR 34.926 Table of International EMC requirements 0.0.0



Annex 3

List of 3GPP2 Technical Specifications for IMT-2000(available at http://www.3gpp2.org/docs/sd/3GPP2_Specs_Doc.html)

TSG Number Title

TSG-A A.S0001 Access Network Interfaces (3G-IOS V4)TSG-A A.R0003 Abis Technical ReportTSG-A A.R0004 Tandem Free OperationTSG-C C.S0001-A cdma2000 - IntroductionTSG-C C.S0002-A cdma2000 - Physical LayerTSG-C C.S0002-A cdma2000 - Physical Layer (with DS Removal)TSG-C C.S0003-A cdma2000 - MACTSG-C C.S0004-A cdma2000 - Layer 3TSG-C C.S0005-A cdma2000 - Layer 3TSG-C C.S0006-A cdma2000 - AnalogueTSG-C C.S0007-A* Direct Spread Specification for Spread Spectrum Systems on ANSI-41 (DS-41)TSG-C C.S0008-A* Multi-Carrier Specification for Spread Spectrum Systems on GSM MAP (MC-MAP)TSG-C C.S0009-A Speech Service OptionTSG-C C.S0010-0 Base Station Minimum PerformanceTSG-C C.S0011-0 Mobile Station Minimum PerformanceTSG-C C.S0012-0 Minimum Performance Standard for Speech SO1TSG-C C.S0013-0 Mobile Station Loopback TestTSG-C C.S0014-0 Enhanced Variable Rate Codec (EVRC)TSG-C C.S0015-0 Short Message ServiceTSG-C C.S0016-0 OTASP of MS in Spread Spectrum SystemsTSG-C C.S0017-0 (14.4 kbps) Data SOs for Spread Spectrum Systems - STU III Transparent + Non-

TransparentTSG-C C.S0017-0-1 Addendum for cdma2000 RLP and Additional Packet Data SupportTSG-C C.S0018-0 Minimum Performance Specification for the Enhanced Variable Rate Codec, Speech

Service Option 3 for Spread Spectrum Digital SystemsTSG-C C.S0020-0 High Rate (13 kbps) Speech SOTSG-C C.S0020-0-1 High Rate Speech SO TTY/TDD AddendumTSG-C C.S0021-0 Minimum Performance for HR (13 kbps)TSG-C C.S0022-0 Location Services (Position Determination Service)TSG-C C.S0023-0 Removable User Identity ModuleTSG-C C.R1000-0 Requirements Mapping for cdma2000TSG-C C.R1001-0 Parameter Value AssignmentsTSG-N N.S0001 User Selective Call ForwardingTSG-N N.S0002 Answer HoldTSG-N N.S0003 User Identity ModuleTSG-N N.S0004 WIN Phase 2TSG-N N.S0005 Cellular Radiotelecommunications Intersystem OperationsTSG-N N.S0006 PCS Multi-band-Based on IS-41-CTSG-N N.S0007 DCCH Based on IS-41-CTSG-N N.S0008 Circuit Modes Services-Data-Based on IS-41-CTSG-N N.S0009 IMSITSG-N N.S0010 Advanced Features in Wideband Spread Spectrum SystemsTSG-N N.S0011 OTASP and OTAPATSG-N N.S0012 CNAP/CNARTSG-N N.S0013 WIN

* These are draft specifications available for download from the website of CWTS as given at Annex 4.



TSG Number Title

TSG-N N.S0014 Authentication EnhancementsTSG-N N.S0015 ANSI-41-D Miscellaneous EnhancementsTSG-N N.S0016 TIA/EIA-41-D Enhancements for InternationalisationTSG-N N.S0017 International Implementation of Wireless Telecommunication Systems Compliant with

TIA/EIA-41TSG-N N.S0018 TIA/EIA-41-D PrePaid ChargingTSG-N N.S0019 Intersystem Link ProtocolTSG-N N.S0020 Segmentation and ReassemblyTSG-P P.S0001 Wireless IP Network StandardTSG-S S.R0005-A 3GPP2 Network Reference Model (Rev. A)TSG-S S.R0006 Cellular Features DescriptionTSG-S S.R0007 User Selective Call Forwarding (Stage 1)TSG-S S.R0008 Answer Hold (Stage 1)TSG-S S.R0009 User Identity Module (Stage 1)TSG-S S.R0010 Preferred Language Enhancement (Stage 1)TSG-S S.R0011 Advice of Charge (Stage 1)TSG-S S.R0012 Rejection of Undesired Annoying Calls (Stage 1)TSG-S S.R0013 Global Emergency Call Origination (Stage 1)TSG-S S.R0014 Tandem Free Operation (Stage 1)TSG-S S.R0015 ISDN Interworking (Stage 1)TSG-S S.R0016 Automatic Code Gapping (Stage 1)TSG-S S.R0017 3G Wireless Network Management System High Level Requirements (Stage 1)TSG-S S.R0018 Prepaid Charging



Annex 4

List of CWTS TD-SCDMA Technical Specifications for IMT-2000(available at http://www.cwts.org/cwts/doc_eng.htm)

Number Title

TS C001 V3.0.0 Radio Interface Protocol ArchitectureTS C002 V3.0.0 Services Provided by the Physical LayerTS C003 V3.0.0 UE Functions and Interlayer Procedures in Connected ModeTS C004 V2.1.0 UE Procedures in Idle ModeTS C101 V3.0.0 Physical Layer-General DescriptionTS C102 V3.0.0 Physical Channels and Mapping of Transport Channels onto Physical ChannelsTS C103 V2.2.0 Multiplexing and Channel CodingTS C104 V3.0.1 Spreading and ModulationTS C105 V3.0.0 Physical Layer ProceduresTS C106 V2.0.0 Physical Layer-Measurements (TD-SCDMA)TS C201 V3.0.0 MAC Protocol SpecificationTS C202 V2.1.0 RLC Protocol SpecificationTS C203 V2.1.0 RRC Protocol SpecificationTS C301 V1.0.0 Base Station Conformance TestingTS C302 V1.0.0 UE Conformance TestingTS C401 V3.0.0 TD-SCDMA (UE); Radio Transmission and ReceptionTS C402 V3.0.0 Node B, Radio Transmission and ReceptionTS C403 V1.2.0 RF Parameters in Support of RRMTS C404 V1.0.0 UE and BTS EMS



Annex 5

List of TIA TR 45.3 UWC-136 Specifications for IMT-2000(available at http://ftp.tiaonline.org/uwc136/)

Number Title

TIA/EIA-136-000-B List of PartsTIA/EIA-136-005-A Introduction, Identification and Semi-permanent MemoryTIA/EIA-136-010-B Optional Mobile Station FacilitiesTIA/EIA-136-020-B SOC, BSMC, and Other Code AssignmentsTIA/EIA-136-100-B Introduction to ChannelsTIA/EIA-136-110-A RF Channel AssignmentsTIA/EIA-136-121-A Digital Control Channel Layer 1TIA/EIA-136-122-B Digital Control Channel Layer 2TIA/EIA-136-123-B Digital Control Channel Layer 3TIA/EIA-136-131-B Digital Traffic Channel Layer 1TIA/EIA-136-132 Digital Traffic Channel Layer 2TIA/EIA-136-133-B Digital Traffic Channel Layer 3TIA/EIA-136-140-B Analog Control ChannelTIA/EIA-136-150-B Analog Voice ChannelTIA/EIA-136-210 ACELP Minimum PerformanceTIA/EIA-136-220 VSELP Minimum PerformanceTIA/EIA-136-230 US1 Minimum PerformanceTIA/EIA-136-270-B Mobile Stations Minimum PerformanceTIA/EIA-136-280-B Base Stations Minimum PerformanceTIA/EIA-136-290 RF Minimum Performance Requirements for 136HS Outdoor and 136HS Indoor

bearers.TIA/EIA-136-310-A Radio Link Protocol-1TIA/EIA-136-320 Radio Link Protocol-2TIA/EIA-136-330 Packet-Data Service - OverviewTIA/EIA-136-331 Packet-Data Service - 136+ Physical LayerTIA/EIA-136-332 Packet-Data Service - 136+ Medium Access ControlTIA/EIA-136-333 Packet-Data Service - Logical-Link ControlTIA/EIA-136-334 Packet-Data Service - Subnetwork - Dependent Convergence ProtocolTIA/EIA-136-335 Packet-Data Service - Radio Resource ManagementTIA/EIA-136-336 Packet-Data Service - Mobility ManagementTIA/EIA-136-337 Packet-Data Service - Tunneling of Signaling MessagesTIA/EIA-136-340 Packet-Data Service - 136HS Outdoor OverviewTIA/EIA-136-341 Packet-Data Service - 136HS Outdoor Physical LayerTIA/EIA-136-342 Packet-Data Service - 136HS Outdoor RLC/MACTIA/EIA-136-350-A Data-Service ControlTIA/EIA-136-360 Packet-Data Service - 136HS Indoor OverviewTIA/EIA-136-361 Packet-Data Service - 136HS Indoor Physical LayerTIA/EIA-136-362 Packet-Data Service - 136HS Indoor RLC/MACTIA/EIA-136-410 ACELPTIA/EIA-136-420 VSELPTIA/EIA-136-430 US1TIA/EIA-136-510-B Authentication, Encryption of Signaling Information/User Data, and PrivacyTIA/EIA-136-511-A Messages Subject to EncryptionTIA/EIA-136-610 R-DATA/SMDPP TransportTIA/EIA-136-620 Teleservice Segmentation and Reassembly (TSAR)TIA/EIA-136-630 Broadcast Teleservice Transport - Broadcast Air-Interface Transport Service (BATS)TIA/EIA-136-700-B Introduction to TeleservicesTIA/EIA-136-710-B Short Message Service - Cellular Messaging Teleservice



Number Title

TIA/EIA-136-720-B Over-the-Air Activation Teleservice (OATS)TIA/EIA-136-730 Over-the-Air Programming Teleservice (OPTS)TIA/EIA-136-750 General UDP Transport Service (GUTS)TIA/EIA-136-760 Charge Indication Teleservice (CIT)TIA/EIA-136-900 Introduction to Annexes and AppendicesTIA/EIA-136-905 Normative InformationTIA/EIA-136-910-B Informative InformationTIA/EIA-136-932 Packet-Data Service - Stage 2 DescriptionTIA/EIA-136-933 Packet-Data Service - Fixed Coding Mode MACTIA/EIA-136-940 Capacity and Performance Characteristics of UWC-136



Annex 6

List of ETSI’s DECT Technical Specifications for IMT-2000(available at http://www.itu.int/imt/2_rad_devt/rspc/FDMA/index.html)

Number Title

EN 300 176-1 V1.3.2 Digital Enhanced Cordless Telecommunications (DECT); Approval test specification;Part 1: Radio

EN 300 175-2 V1.4.2 Digital Enhanced Cordless Telecommunications (DECT); Common Interface (CI);Part 2: Physical Layer (PHL)

EN 300 175-3 V1.4.2 Digital Enhanced Cordless Telecommunications (DECT); Common Interface (CI);Part 3: Medium Access Control (MAC) layer

EN 300 175-4 V1.4.2 Digital Enhanced Cordless Telecommunications (DECT); Common Interface (CI);Part 4: Data Link Control (DLC) layer

EN 300 175-5 V1.4.2 Digital Enhanced Cordless Telecommunications (DECT); Common Interface (CI);Part 5: Network (NWK) layer

EN 300 175-6 V1.4.2 Digital Enhanced Cordless Telecommunications (DECT); Common Interface (CI);Part 6: Identities and addressing

EN 300 175-7 V1.4.2 Digital Enhanced Cordless Telecommunications (DECT); Common Interface (CI);Part 7: Security features

TELECOMMUNICATIONS STANDARDS ADVISORY COMMITTEE Update...

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