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Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs)

Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Wireless 1394 from microwave to millimeter-wave: recent R&D and standard activities in MMAC ] Date Submitted: [12 July , 2004 ]

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Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs)

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  1. Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Wireless 1394 from microwave to millimeter-wave: recent R&D and standard activities in MMAC ] Date Submitted: [12 July, 2004] Source: [ Hideaki Sato(1), Honggang Zhang(2), Yukitoshi Sanada(3), Masao Nakagawa(3) ] Company [ (1) MMAC, (2) National Institute of Information and Communications Technology (NICT), (3) Keio University ] Connector’s Address [3-4, Hikarino-oka, Yokosuka, 239-0847, Japan] Voice:[+81-468-47-5101], FAX: [+81-468-47-5431], E-Mail: [ADS07416@nifty.com, honggang@nict.go.jp, sanada@elec.keio.ac.jp, nakagawa@nkgw.keio.ac.jp ] Re: [] Abstract: [The recent R&D and standard activities on “1394 Over UWB” in MMAC are introduced. ] Purpose: [Providing technical contributions to IEEE 802.15 SG3c. ] Notice: This document has been prepared to assist the IEEE P802.15. It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. Release: The contributor acknowledges and accepts that this contribution becomes the property of IEEE and may be made publicly available by P802.15. Sato, Zhang, Sanada & Nakagawa, MMAC

  2. Wireless 1394 from microwave to millimeter-wave: Recent R&D and standard activities in MMAC Hideaki SATO, Honggang ZHANG, Yukitoshi SANADA, Masao NAKAGAWA Sato, Zhang, Sanada & Nakagawa, MMAC

  3. Outline of presentation Brief introduction of MMAC history Wireless 1394 Working Group and ARIB standard (ARIB STD-T72) in Japan UWB Working Group and “1394 Over UWB” Ad-hoc Committee in MMAC Wireless 1394 from microwave to millimeter-wave Successful examples 6. Conclusion remarks Sato, Zhang, Sanada & Nakagawa, MMAC

  4. 1. Brief introduction of MMAC history Sato, Zhang, Sanada & Nakagawa, MMAC

  5. Brief introduction of MMAC (cont.) Sato, Zhang, Sanada & Nakagawa, MMAC

  6. Fuji Television Network, Inc.Fuji Xerox Co., Ltd.Furukawa Electric Co., Ltd. FURUNO ELECTRIC CO.,LTD.Futaba CorporationHitachi, Ltd.Hitachi Cable, Ltd.Hitachi Kokusai Electric Inc.Icom Inc.Intel CorporationITOCHU TECHNO-SCIENCE Corporation.ITX CorporationIwatsu Electric Co., Ltd.Japan Approvals Institute for Telecommunications EquipmentJapan Radio Co., Ltd.JAPAN TELECOM CO., LTD.J-PHONE Co., Ltd. Sato, Zhang, Sanada & Nakagawa, MMAC

  7. NEC Mobiling, Ltd. New Japan Radio Co., Ltd.NIHON DEMPA KOGYO CO., LTD. NIHON DENGYO KOSAKU CO., LTD.NIPPON TELEGRAPH AND TELEPHONE CORPORATIONNOKIA-JAPAN CO., LTDNtecs Corporation.NTRU Cryptosystems, Inc.NTT DoCoMo, Inc. NTT Software CorporationOki Electric Industry Co., Ltd.Panasonic Communications Co., Ltd. Panasonic Mobile Communications Co., Ltd.Philips Japan Ltd.Pioneer CorporationPOWEREDCOM, Inc.QUALCOMM Incorporated.Ricoh Co., Ltd. Sato, Zhang, Sanada & Nakagawa, MMAC

  8. The Tokyo Electric Power Company, Inc. Toko Inc TOMEN Electronics Corp.Toshiba CorporationTOSHIBA TEC CORPORATIONTOYO COMMUNICATION EQUIPMENT CO.,LTD.Toyota Central R&D Labs., Inc.Toyota Industries CorporationTOYOTA MOTOR CORPORATION.Victor Company of Japan, Ltd. Wisair Ltd.Yokowo co., Ltd. Sato, Zhang, Sanada & Nakagawa, MMAC

  9. MMAC organization • High Speed Wireless Access Committee • Study on system specifications, liaison with other standardization bodies such as the ATM Forum and the ITU, promotion of demonstrative experiment, study and identification of Industrial Property Rights with regard to High Speed Wireless Access. Wireless Home-Link Committee Study on system specifications, liaison with other standardization bodies, promotion of demonstrative experiment, study and identification of Industrial Property Rights with regard to Wireless Home-Link. Sato, Zhang, Sanada & Nakagawa, MMAC

  10. 2. Wireless 1394 working group and ARIB standard (ARIB STD-T72) • In Wireless Home-Link Committee of MMAC, Wireless 1394 (5 GHZ) has already been developed, which was approved as Japan ARIB standard (ARIB STD-72) in March, 2001. • Wireless 1394 (25/60 GHz) has been investigated as well. • UWB Working Group has been set up from August, 2002. (Director: Yukitoshi Sanada) • New-Generation Networks Working Group has been set up from August , 2002. (Director: Hideaki Sato) • “1394 Over UWB” SIG has been set up from May, 2003. (Director: Honggang Zhang) Sato, Zhang, Sanada & Nakagawa, MMAC

  11. 3. Wireless 1394 and “1394 Over UWB” for ubiquitous home networking • Multimedia Enjoyment is important! All-work-no-play makes Jake a fool boy. • Connectivity and interoperation is needful! • Various multimedia home appliances may feel lonely without “talking with each other”. • Mobility is required! Want a notebook PC or a video camera with a long tail ? (No-new-wire solution) Sato, Zhang, Sanada & Nakagawa, MMAC

  12. Sensor Convergence of CE, PC and Mobile segments in home environment • Personal Wearable Networking (PWN) • Personalizing Public Place (PPP) Sato, Zhang, Sanada & Nakagawa, MMAC

  13. Formation of AV (Audio/Video) entertainment clusters in home Source: IEEE802.15-03/076r0 Sato, Zhang, Sanada & Nakagawa, MMAC

  14. Candidates of ubiquitous home networking technologies (wired systems) Real time aspect (Isochronous Transfer) Sato, Zhang, Sanada & Nakagawa, MMAC

  15. Candidates of ubiquitous home networking technologies (wireless systems) ARIB Standard Specification of Japan (ARIB STD-T72) Sato, Zhang, Sanada & Nakagawa, MMAC

  16. Cable Wireless Video S100 S400 S3200 ▼ ▼ ▼ ▼ 5 GHz Wireless1394 1394 Over UWB : 25/60GHz 5GHz WLAN Blue tooth 2.4GHz WLAN IEEE1394 USB1.0 USB2.0 1 10 100 1000 Comparisons of available data rate for wireless and wired systems (Mbps) Sato, Zhang, Sanada & Nakagawa, MMAC

  17. Protocol stack defined for wireless distribution of A/V content. • Support synchronized point to multipoint distribution. • A/V transport profile: • Transport of media packets • Signaling: link establishment & negotiation of streaming parameters. • Monitoring: application parameters adapted to radio link quality • A/V control profile: standardize control to all types of interfaces • Service Discovery Protocol A/V Applications A/V Transport A/V Control IEEE802.15.3 MAC IEEE802.15.3a PHY (UWB) WiMedia solutions for A/V home networks Sato, Zhang, Sanada & Nakagawa, MMAC

  18. Why a new wireless home networking specification? • No previous wireless home networking standard has been optimized for entertainment multimedia. Wi-Fi, Bluetooth and others include core optimizations (e.g., MAC & PHY) for their target markets only. • A multimedia solution needs to have: • simplicity of use • advanced QoS (real-time aspect for streaming data) • sufficient data rate and spatial capacity • low cost (low complexity) • support long battery life • a scalable security platform Sato, Zhang, Sanada & Nakagawa, MMAC

  19. How about aspects of IEEE 1394 ?  High speed data transmission –100, 200, and 400 Mbps, up to 3.2 Gbpsin future  Real-time (Isochronous/Asynchronous) dual mode . – Isochronous mode guarantees constant transmission speed – Asynchronous mode guarantees data reliability  Hot plug operation with an automatic reconfiguring function – plug-and-play  Flexible topology with the combination of star and daisy chain connections Sato, Zhang, Sanada & Nakagawa, MMAC

  20. IEEE1394 Cycle structure (Isochronous/Asynchronous dual mode) Sato, Zhang, Sanada & Nakagawa, MMAC

  21. Flexible IEEE1394 topology (Bus and Bridge structure) Sato, Zhang, Sanada & Nakagawa, MMAC

  22. Wired home entertainment networks based on IEEE 1394 Sato, Zhang, Sanada & Nakagawa, MMAC

  23. Serial Bus environment of IEEE 1394 Sato, Zhang, Sanada & Nakagawa, MMAC

  24. 4. Ubiquitous home networking: Wireless 1394 from microwave to millimeter-wave Sato, Zhang, Sanada & Nakagawa, MMAC

  25. Hierarchical architecture for IEEE1394-based UWB home entertainment & computing network Sato, Zhang, Sanada & Nakagawa, MMAC

  26. Hub station Data Flow Network control Leaf station IEEE 1394 node IEEE 1394 node Wireless Bridge Cable 1394 Bus “1394 Over UWB” architecture (Ad-hoc-Star-Pattern and Serial Bus) Sato, Zhang, Sanada & Nakagawa, MMAC

  27. Connection of IEEE 1394 backbone with UWB Bus by using two-portal-type Bridge Sato, Zhang, Sanada & Nakagawa, MMAC

  28. Protocol stacks for an IEEE 1394 compatible device as Leaf station on UWB Bus Sato, Zhang, Sanada & Nakagawa, MMAC

  29. IEEE 1394 Bus UWB BUS Net cycle master Cycle master (Hub station) Leaf station Adjustment Bridge Adjustment (every 125μs) Frame Start Packet Frame Start Packet Cycle Start Packet Cycle Report Packet Inter-connection and synchronization between 1394 Bus and UWB Bus Sato, Zhang, Sanada & Nakagawa, MMAC

  30. Compatible with “Wired” IEEE1394 • Standards will be apply correspondingly • Transmission Rate≧100Mbps IEEE1394 100/200/400/800/1600/3200 Mbps Wireless 1394 100/200/400/800/1600/3200 Mbps 5.Successful Examples at millimeter-wave band Wireless 1394 (60GHz) Sato, Zhang, Sanada & Nakagawa, MMAC

  31. Wireless 1394 (60GHz) • Compatible with “Wired” IEEE1394 • Standards will be apply correspondingly • Transmission Rate≧100Mbps IEEE1394 100/200/400/800/1600/3200 Mbps Wireless 1394 100/200/400/800/1600/3200 Mbps Sato, Zhang, Sanada & Nakagawa, MMAC

  32. Development of Wireless 1394 (60GHz) Canon’s “Wireless 1394” ・Exhibited at TELECOM ‘99 (October 1999) ・Transmission speed: 100Mbps ( IEEE1394 Standard S100) ・Frequency: 60GHz band Sato, Zhang, Sanada & Nakagawa, MMAC

  33. Development of Wireless 1394 (60GHz) TERMBOY “RF400” -60 GHz wireless repeater technology- World first S400 wireless 1394 network adapter for room to room connection Features: • License free 60GHz wireless link • Low cost ASK modulation format • Echo detection circuit for avoiding • the storm of bus reset • 7m reach through a wooden wall • 12m reach in the line of sight link • S400 500Mbaud operation • P1394a compliant DS link x 2 (PROTOTYPE) No new wire technology for 1394 network Sato, Zhang, Sanada & Nakagawa, MMAC

  34. Conclusion remarks • Consumer’s demands for high-speed, high-performance wireless entertainment & computing network (streaming contents, full motion video) are increasing in home environment. • IEEE 1394-based UWB system is a promising solution. • There were some successful examples from microwave band to millimeter wave band. Sato, Zhang, Sanada & Nakagawa, MMAC

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