International Telecommunication Union IEEE Access Networks Standards Projects

International Telecommunication Union IEEE Access Networks Standards Projects Dr. James (Jim) Carlo President, IEEE Standards Association J. Carlo@ieee. org ITU-T Workshop All Star Network Access Geneva, 2 -4 June 2004 Page -

Key IEEE Areas ITU-T o IEEE 802 Standards (IEEE Computer Society) • IEEE 802 is the Overall Sponsor Committee (Paul Nikolich Chair) • Each Working Group is called a “dot” • IEEE 802. 3, IEEE 802. 11 • Multiple projects within each “dot” • Wired Access • Wireless Access o Power Society Call for Interest on PBL 2

IEEE 802 ORGANIZATION ITU-T EXECUTIVE COMMITTEE CHAIR Paul Nikolich APPOINTED OFFICERS WORKING GROUP/TAG CHAIRS 802. 1 BRIDGING/ARCH Tony Jeffree 802. 15 WPAN Bob Heile 802. 18 TAG Radio Regulatory Carl Stevenson 802. 3 CSMA/CD Bob Grow 802. 11 WLAN Stuart J. Kerry 802. 16 BWA Roger Marks 802. 17 Res. Pack. Ring Mike Takefman 802. 19 TAG Coexistance S. Shellhammer 802. 20 MBWA Jerry Upton 1 st VICE CHAIR Mat Sherman 2 nd VICE CHAIR Howard Frazier EXECUTIVE SECY RECORDING SECY Bob O’Hara Buzz Rigsbee 802. 21 Media Independent Handover Ajay Rajkumar HIBERNATION 802. 2 LLC (Dave Carlson) 802. 5 Token Ring (Bob Love) 802. 4 Token Bus (Paul Eastman) 802. 9 ISLAN (D. Vaman) 802. 12 Demand Priority (Pat Thaler) TREASURER Bill Quackenbush DISBANDED 802. 6 DQDB 802. 7 Broadband TAG 802. 8 Fiber Optic TAG 802. 10 Security (Ken Alonge) 802. 14 CATV 3

WIRELINE ACTIVITIES ITU-T o 802. 1 Overview and architecture • Bridging, architecture, addressing, security (liaison with IETF) o 802. 3 CSMA/CD Ethernet • LANs: faster, faster – 10/1000/10000 Mbps fiber/copper • Ethernet in the First Mile • Smaller—backplane Ethernet o 802. 17 Resilient Packet Ring • Metropolitan Area Networking 4

IEEE 802. 3 Update ITU-T o. 3 ah – Ethernet in the First Mile (EFM) • Extends Ethernet to Access Market • Final Balloting Underway o. 3 an – 10 GBASE-T • Standards Project Underway o 10 Gb/s on FDDI-Grade MM Fiber SG o Backplane SG o Congestion Management SG • Ethernet to provide differentiated service and reduce frame drop 5

10 Gbps Ethernet Benefits ITU-T o Bring Ethernet cost model to 10 Gbps o o o networks Scale MAN & LAN backbones Aggregates 1 Gb. E Leverages 250 million Ethernet ports Supports all services Supports local, metro and wide area in one seamless network Compatibility with the installed base of SONET OC-192 c / SDH VC-4 -64 c 6

ITU-T Multiple Types of Completed IEEE 802. 3 10 Gbs Fiber Ethernet Media Access Control (MAC) Full Duplex 10 Gigabit Media Independent Interface (XGMII) or 10 Gigabit Attachment Unit Interface (XAUI) Serial LAN PHY (64 B/66 B) WWDM LAN PHY (8 B/10 B) Serial WAN PHY (64 B/66 B + WIS) WWDM PMD Serial PMD Serial PMD -LX 4 -SR -LR -ER -SW -LW -EW 1310 nm 850 nm 1310 nm 1550 nm 7

10 GE Transceivers (PMDs) ITU-T Fiber 62. 5 MMF 50 MMF SMF MHz*km 160 200 400 500 2000 - SR/SW 850 nm 26 m 33 m 66 m 82 m 300 m - LR/LW 1310 nm - - - 10 km ER/EW 1550 nm - - - 40 km LX 4 -WWDM 1310 nm 300 m @500 MHz*km 240 300 m - 10 km LRM (new work) MMF 220 m* @500 MHz*km - 300 m* - - * TARGET 8

ITU-T IEEE 802. 3 10 Gb. E Task Force – UTP Copper Objectives: • Support operation over 4 -connector structured 4 -pair, twisted-pair copper cabling for all supported distances and Classes • Links of: – At least 100 m on 4 -pair Class F balanced copper cabling – At least 55 m to 100 m on four-pair Class E balanced copper cabling 9

ITU-T IEEE 802. 17 Resilient Packet Ring o Use Fiber Optic Rings for transfer of data packets at rates scalable to many gigabits per second. o Application for Local, Metropolitan and Wide Area Networks o Base Standard Completed 10

WIRELESS ACTIVITIES(1) ITU-T o 802. 11 Wireless Local Area Networks • 100+meters coverage • Unlicensed in 2. 4 GHz and 5 GHz bands o 802. 15 Wireless Personal Area Networks • 10+meters coverage • Unlicensed in 2. 4 GHz and 5 GHz bands o 802. 16 Fixed Broadband Wireless Access • 1000+ meters coverage • Unlicensed and licensed frequencies • 2 -11 GHz and 10 -66 GHz bands 11

IEEE 802. 11 Projects ITU-T o 2. 4 GHz Band Wireless • . 11 b (11 Mbps) DSSS PHY • . 11 g (54 Mbps) PHY o 5 GHz Band Wireless • . 11 a 54 Mbps OFDM PHY • . 11 h Spectrum Management o Enhancements • 11. e Quality of Service • 11. i More Robust Security 12

ITU-T IEEE 802. 15 Projects Wireless PAN o 15. 1 – Bluetooth PHY and MAC o 15. 2 – Coexistence with 11 o 15. 3 – Higher Rate WPAN up to 100 Mbps o 15. 4 – Lower Rate WPAN for very low power operation o 15. 5 – Mesh Networking Technology 13

ITU-T IEEE 802. 16 Projects Wireless LAN o. 16 – Basic Air Interface • MAC + PHY (10 -66 GHz) o. 16 Conformance • Conformance Test Cases o. 16 e – Enhancement • Support for Mobile and Fixed 14

WIRELESS ACTIVITES(2) ITU-T o 802. 18 Radio Regulatory Impact • ITU-R Interface, US-FCC, etc. o 802. 19 Coexistence Group o 802. 20 Mobile Broadband Wireless Access • 1000+ meter coverage • Licensed frequencies, under 3. 5 GHz o 802. 21 Media Independent Handover • Develop interface standards to allow handover across 802 MAC domains and outside 802 MAC domains 15

ITU-T IEEE 802 FUTURE DIRECTIONS o Wireline • Backplane Ethernet • Synchronous Ethernet o Wireless • WLAN Enhancements • Mesh networking, fast roaming, vehicular apps • Unlicensed 54 -60 GHz—lots of bandwidth • LAN and PAN applications 16

ITU-T IEEE International Coordination o IEC/IEEE Joint Logo Program o ITU-T Liaison (A. 5, A. 6) o ITU-R Membership (REGINTORG) o ISO/IEC JTC 1 IEEE Standards o ETSI/IEEE Agreement o Global Portal Web Pages • Europe, Asia, Americas, Africa 17

ITU-T Broadband Data over Power Lines (BPL) o Call for Interest (7 June 2004, Denver) • Power, Communications, EMC Societies o Objectives: • Understand application (home, LV, MV, HV) • Review the standards that exist already • Identify regulatory issues o Determine where potential new standards projects should be organized within the IEEE 18