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Transcript
CAT2000 GSM Evolution Towards UMTS IFT6275 Shouwen Zhang Fuman Jin IMT- 2000 Goals Global system for wireless communications Multi-environment operation Vehicular Pedestrian and Outdoor-to-Indoor Indoor Office Satellite Support for packet data and circuit-switched services Multimedia services support Expected data rates: 144 kbps in vehicular 384 kbps in pedestrian 2 Mbps in indoor office environment IMT- 2000 spectrum allocated at WARC 1992 in the 2 GHz band Year 2000+ services (subject to market considerations) GPRS: General Packet Radio Service IMT-2000 End User Terminal Requirements Low cost Light weight Low power drain / long talk time Toll-quality voice High security Use multiple devices with the same User ID Services, routing and charging by personal ID/subscription International roaming Broad range of services Fixed and mobile Voice, data, multimedia GPRS: General Packet Radio Service IMT- 2000 Key Architectural Requirements Broadband Radio Access Data Rates: 144, 384, 2000 kbps Evolution from 2G (CDMA, TDMA, GSM, PHS, etc.) Mobility vs. Fixed Wireless Access Harmonized Spectrum Allocations Broadband Backbone Infrastructure Integrated Voice, Data, Image Network Architecture Functional Distribution WIN, GSM MAP, INAP GPRS: General Packet Radio Service Third-Generation Systems Design Goals Meet IMT-2000 requirements Offer additional capacity and service enhancements as an evolution of 2G systems (TDMA based GSM and IS-95 / ANSI-41 based CDMA) Integrated voice and data system Optimized for voice and packet services Support higher rate circuit services Smooth, backwards-compatible evolution from existing 2G systems Evolve network infrastructure and software from 2G systems New dual-mode terminals allow gradual build-up of high data rate services in 2G service areas Coexistence of 2G voice and data terminals with new wideband terminals GPRS: General Packet Radio Service Third-Generation Capabilities for Wideband Wireless multi-media Wide-band “bit pipe” between service providers and end-users up to 384 kb/s in wide areas up to 2 Mb/s in limited areas IP connectivity from end-to-end Data ( and Voice) Real-time and non real-time High bit-rate Services at least 384 kb/s wide area up to 2 Mb/s in indoor environment Multimedia Applications Optimized for Packet-data transfer/internet access GPRS: General Packet Radio Service Migration Paths GPRS GPRS ' Packet-based wireless communication service New bearer service for GSM evolutionary step toward Enhanced Data GSM Environment and Universal Mobile Telephone Service GPRS: General Packet Radio Service Benefits Higher data rates Using all 8 Packet Data Channels (PDCH) GPRS can achieve up to 171.2kbps (theoretical maximum) Packet switched principle efficient for burst traffic (e.g., Internet traffic) radio channel only be allocated when needed spectrum efficiency User-friendly billing payment based on the amount of transmitted data GPRS: General Packet Radio Service GPRS How to implement GPRS from GSM network: 8 Packet Data Channels (PDCH) Gateway GPRS Support Node (GGSN) Serving GPRS Support Node (SGSN)-- GSM terminal change to have a GPRS protocol stack and application software A Packet Control Unit (PCU) is added to each Base Station Subsystem (BSS) Radio link Contol Media Access Control Radio resource configuration and channel assignment GPRS: General Packet Radio Service GPRS System Architecture GPRS: General Packet Radio Service SGSN Serving GPRS Support Node perform mobility management for GPRS mobile stations manage the logical link to mobile stations route and transfer packets between mobile stations and the GGSN (Gateway GPRS Support Node) handle PDP(Packet Data Protocol (IP and X.25)) contexts inter-work with the radio resource management in the BSS authentication charging (billing customers) GPRS: General Packet Radio Service GGSN Gateway GPRS Support Node function as a border gateway between the GPRS network and the packet data network (e.g., IP and X.25) set up communications with the packet data network route and tunnel packets to and from the SGSN mobility management authentication charging GPRS: General Packet Radio Service Services Bearer services PTP(Point-To-Point) – transfer data packets between two users – connectionless mode (e.g., for IP) – connection-oriented mode (e.g., for X.25) PTM(Point-To-Multi-point): not available yet – transfer data packets from one user to multiple users – multicast service – group call service Supplementary services call forwarding unconditional GPRS: General Packet Radio Service Routing GPRS Routing Example GPRS: General Packet Radio Service Routing GPRS Network IP Network GGSN SGSN MS Host logical link tunnel Packt Internet/P DN IP datagram IP datagram GPRS: General Packet Radio Service Logical Channels Group Channel Function Direction Packet data traffic channel PDTCH Data traffic MS BSS Packet broadcast PBCCH control channel Broadcast control MS BSS Packet common control channel (PCCCH) Random access Access grant Paging Notification Associated control Timing advance control MS BSS MS BSS MS BSS MS BSS MS BSS MS BSS PRACH PAGCH PPCH PNCH Packet dedicated PACCH control channel PTCCH GPRS: General Packet Radio Service Enhanced Data rates for GSM Evolution (EDGE) 200 kHz carrier spacing Reach up to 384kbps 8 TDMA time-slot Modulation Format 8-PSK as opposed to GMSK (in GPRS, HSCSD) 8-PSK:encodes 3 bits per modulated symbol GMSK: 1 bit per symbol Edge transceiver unit need to be added to each cell Edge terminal--upgrade to use EDGE network functionality EDGE System Architecture GPRS: General Packet Radio Service UMTS 384 kbps data capability to satisfy the IMT-2000 requirements for pedestrian(microcell) and low speed vehicular (macrocell) environments . 144 kbps data capability for high speed vehicular environment 2 Mbps requirement for indoor office is met by using wide band EDGE (1.6 MHz) carrier GPRS: General Packet Radio Service Path Suggested GSM Path to 3G HSCSD is not necessary. GPRS is already available. GPRS is ten times faster than HSCSD. GPRS expect to be able to offer higher data rates without building too many new sites. EDGE follows GPRS and allow a quick and cheap rollout of fast mobile service. GSM->GPRS->EDGE->UMTS: smooth evolution cost-effective Conclusion GPRS will be deployed cost-effectively in GSM first. EDGE will follow GPRS to be deployed as a quick and cheap rollout of fast mobile service. UMTS will finally be deployed upon EDGE.
