Future Directions and Trends in Network Access Technologies 2 Brussels, February 14 th 2002 ResCom Mediacast Ltd. F. Jacquier
Agenda The Access Network group and participants Motivations for the project Deliverables and report structure Study approach Driving evolution issues Current Status
Future Directions and Trends of Network Access Technologies Project Start September 2001 Project End March 2002 Partners Reviewers ResCom Mediacast Ltd. Intracom Robotiker Université de Haute Alsace Eurescom, Telscom, Lucent, Alcatel
Interest Areas The future of the Internet, e-business, and the information industry depends on the evolution of network access technologies and their ability to cope with the bandwidth necessary for next generation networks and services
Work Packages WP1 : Project Management D1 WP2 : Cataloguing Of Technologies D2 WP3 : Standards Regulations and Markets D3 WP4 : Assessment of Techology Evolution D4 WP5 : Benchmarks and Roadmaps Reports D5 WP6 : Dissemination and Publication
Study approach Work Packages reorganisation Identify technologies Classification issue Copper / Optical / Wireless By Users level By Layers level Legacy Model of technology
Model for Information Collection 1. Introduction 2. Technology Concepts and Description 3. Architecture and functionality 4. Issues for the choice of technology Applications and services Network Requirements 5. Standards 6. Regulatory issues 7. Main drivers 8. Market overview 9. Evolution scenarios 10. Possible future directions
Traffic Type: Applications / Services Data, Voice, Video QoS Requirements: Delay/Latency, Bandwidth, Error-rate, Jitter, Loss-rate, Security Security Encryption, Authentication Service level Physical, Network, Application Users Residential, SOHO, Corporate Connection Type Full-Duplex/Half-Duplex, Symmetric/Asymmetric, Broadcast/Unicast/Multicast/Anycast
Network Requirements Legacy Networks and Infrastructure Cost Issues (deployment, maintenance, usage) Resilience and Availability Interfacing and Interoperability (with the core and other network technologies) Scalability Performance
Standards Issues List all existing standards bodies with their different areas of work. Produce an overall inventory of standards approved or under consideration for each network access technology Identify existing gaps, standardisation plans for each standard body
Regulatory Issues Legal Frequency allocation Addressing Licensing Infrastructure legal issue Bundling and unbundling Situation after unbundling Commercial, Universal service, others
Main Drivers for the Evolution of a Technology Industry Users State Standards and Interoperability Regulators Policy makers Commercial Ease of use?
Access Network Technologies Satellite DBS MMDS Mobile GSM CDMA UMTS/IMT2000 Fixed Radio Access WLL LMDS Rural Region Satellite MMDS Mobile Copper Power Line Power Line Ethernet Cable TV CATV/HFC HOME BUSINESS Periphery Region MMDS xdsl, Cable TV Mobile, Copper Power Line Ethernet Wireless 803.11x Hiperlan Bluetooth Copper plant PSTN/ISDN xdsl Fiber PON FTTH, FFTB, FFTC Urban Region Fiber LMDS, MMDS xdsl, Cable TV Mobile, Copper Ethernet
Access Network Technologies Evolution - Driving Issues Achieve the end-to-end model of the Internet Develop an infrastructure sustaining commercial IP Internet Convergence towards fiber (FTTH) Copper, cable, radio for specific applications not covered with FTTH Convergence towards an IP-based core network Impact of wireless communications
Convergence towards an IP-based core network Today Single Service Networks Future Multiservice Networks Client/Server PSTN/ ISDN Services Content Control and application access services Media Gateways IP Backbone Network Content Cellular PLMN Data/IP Networks CATV Wireline access IP-based internetworking Wireless access Cable access Access transport and switching networks Clients/Applications/Services
Mobility AMPS 1G Key drivers for mobile technology evolution Roaming TDMA GSM PDC 2G Capacity Quality GSM P II cdmaone IS-95A Medium Speed Data More capacity, High Speed Data cdmaone IS-95B HSCSD GPRS Global Roaming CDMA2000 1x CDMA2000 1xEV EDGE W-CDMA Multi-Mode Multi-Band Multi-Network 2.5G 3G IMT2000 GSM P II IS-95 A 14.4K 98 99 00 01 02 03 04 05 HSCSD IS-95 B 57K/64K GPRS CDMA2000 1x 115K/144K W-CDMA CDMA2000 3x 384K 2M Voice Data Video
30kHz Evolution of Mobile Radio Standards TDMA (IS-41) CDPD 43.2 kbps 200kHz EDGE WCDMA TDD GSM (MAP) HSCSD 115.2 kbps GPRS 170 kbps 384 kbps 5MHz WCDMA FDD 2 Mbps WCDMA HSDPA PDC/PDC-P 2 Mbps 10 Mbps TD-SCDMA 14.4 kbps cdmaone (IS-41) 76.8 kbps 1.25MHz cdma2000-1x 307.2 kbps 1XEV - DO 2.4 Mbps 1XEV - DV 4,8 Mbps 2000 2001 2002 2003
Evolution of layered architecture network scenarios and convergence over fiber ATM Core Network ATM/IP Core Network IP Core Network Network, Transport, Etc. Data Link Physical Backbone Metro Access Data Services IP ATM Constant Bit Rate Services Synchronous Transport Networks SONET/SDH Fiber/WDM Fiber/Optical Access Access Systems Multi Services IP ATM Synchronous Transport Networks SONET/SDH CATV/HFC Fiber/WDM Copper/xDSL Multi Services IP PPP, Ethernet, FR, POS Synchronous Transport Networks SONET / SDH / RPR Fiber/WDM IPO Wireless/Mobile
Power Line Access Technology Home network distribution Technology up to 14Mbps Smart homes, Telephony, health care Home networking, INTERNET ACCESS For narrow band power line: CENELEC EN 50065 (up to 150 Kbps) For broad band power line: No standards yet approved Two main technologies under discussion: Enikia, Intellon Homeplug 1.0 Spec from Homeplug Powerline Alliance already approved (Based on Intellon technology) In home networking there are several competitors. Each one can be the dominant one in the near future Wired Standard Ethernet IEEE 802.3, HomePNA, Powerline Wireless Wireless Ethernet 802.11x, HomeRF based on SWAP Bluetooth
Satellite Access Network Technology Wide area coverage - Multi-Point Connections / Broadcast Delivery allows shared connections with multiple points. High bandwidth - up to 100 Mbps for current satellites Increased reliability and security. Cost independent of distance. Market evolution: Cost-effective satellite solutions already exist Satellite capacity improvements Component cost reductions Main Drivers: Dispersed sites - installed and activated more quickly than terrestrial communication lines Scalability - is rapidly expandable and scalable to accommodate growing needs No International Bottlenecks - Bypasses the limitations and congestion of local terrestrial networks. Reach - Reaches locations where there is no existing infrastructure, or limited facilities Access to Internet and to public switched networks Areas of current and future standards evolution: ETSI Working Group on Broadband Satellite Multimedia (BSM): Definition of satellite system architecture and service requirements for broadband services Definition of network architectures and interfaces protocols leading to air interface standards, and user terminal specifications To produce specifications for interoperability between satellite networks and other networks Related standards: Digital Video Broadcasting Project (DVB)- global standard for the delivery of digital TV and data services ESA RSAT group is working towards open recommendations for standards for satellite terminals
Range [m] Global 1000 100 10 Wireless Access Technologies Mobile Telecomunication Networks Wireless Office Networks Wireless Device Connections 0.1 1 10 16 100 IrDA Bluetooth Bluetooth2 Next IrDA IEEE 802.15.x (PAN) HomeRF WLANs Wi-Fi 802.11x (WLAN) HiperLAN GPRS EDGE Data Rate [Mbps]
Wireless LAN technology map 100 Max Data Rate (Mbps) 50 20 10 2 1 1 GHz Proprietary Solutions Proprietary Solutions IEEE802.11 DS Proprietary Solutions IEEE802.11 FH IEEE802.11a HIPERLAN/2 HIPERLAN/1 IEEE802.11b DS Home RF Swap Bluetooth 1 MMAC Home RF Swap MM 5 GHz 2.4 GHz 1990 1995 2000 2005 Year
Wireless LAN market forecast Source: Cahners-In-Stat Group
Mobility versus Bit Rates Broadband Fixed Wireless Access ΙΕΕΕ802.11a Source: ETSI/BRAN, 1998 User Bit Rates
Current Status Still in study/research phase Need more input and related reports from other NGN-I projects WP2, WP3 and WP4 being done in parallel Difficulties Slide in deliverable deadlines Circulate a joint D2, D3 and D4 in February Propose end of project to extend to April
Thank you for your attention Contacts: Speaker: Fabien Jacquier Project Coordinator jacquier@rescom.net Intracom: Robotiker: Univ. of Haute- Alsace: Anastasia Andristou Daniel Mugica Pascal Lorenz Access Group mailing list: access@ngni.org