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IPv6 Projects and Products around WIDE Project

IPv6 Projects and Products around WIDE Project. Hiroshi ESAKI, Ph.D, WIDE Project / IPv6 Promotion Council <hiroshi@wide.ad.jp>. IPv6 R&D Activities Around WIDE Project. 1992 WIDE started IPv6 R&D activity 1994 Established IPv6 WG in WIDE 1997

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IPv6 Projects and Products around WIDE Project

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  1. IPv6 Projects and Products around WIDE Project Hiroshi ESAKI, Ph.D, WIDE Project / IPv6 Promotion Council <hiroshi@wide.ad.jp>

  2. IPv6 R&D Activities Around WIDE Project • 1992 • WIDE started IPv6 R&D activity • 1994 • Established IPv6 WG in WIDE • 1997 • IPv6 Shownet at NetWorld+Interop Tokyo • 1998 • WIDE IPv6 Network Deployment • KAME (for *BSD*) and TAHI Projects • 2000 • USAGI Project (for Linux) • General Service of JGN(Japan Gigabit Network) IPv6

  3. IPv6 R&D Activities Around WIDE Project • 2002 • IETF Yokohama • Collab. with ISC on bind9 • Collab. with CAIDA and USC-ISI on measurement • 2003 • Started Auto-ID activity • DVTS (Digital Video Transmission System) consortium • IEEAF (Internet Educational Equal Access Foundation) • Nautilus6 (MIP/NEMO/MANET) for mobile reality • AI3 (Satellite Internet service for Asian countries) • 2004 • GLIF(Global Lambda Integrated Facility) • Launched JGN2 • IPv6-fix task force (presented by Dr.Kato) • VoIP/SIP interoperability task force with JPNIC For mobile stack

  4. VoIP and IP Telephony • Huge number (10M+) of IP-Phone installation • Triggered by yahoo BB, using the terrestrial phone number • NTT group, KDDI and Fusion Comm. • PBX migration • Started VoIP/SIP Interoperability Task Force • Run by JPNIC • Collab. With SIP Forum/SIPit, MSF, IPCC • Include IKE and ENUM • Will include SIP/ENUM over Mobile IPv6

  5. IPv6 Certification WG at IPv6 Promotion Council / TAHI Project • Some items are for IPv6 Ready Logo Program run by IPv6 Forum • Work items • IPv6 core specification : Done (Nov.’04) • IPSec including IKE : Done (Nov.’04) • MLDv6 (multicast) : Almost Done • MIPv6 including IKE : Almost Done • NEMO : on-going • SIP : expecting Mar’05 • DNS (with DNS-MODA) : will work in ’05

  6. Examples of IPv6 Applications (1/2) • Networks and Testbeds • Commercial ISPes http://www.ipv6style.jp • IIJ, NTT Communications/VERIO, NTT-East, DTI, PoweredCom, Nifty, JapanTelecom, KDDI, AT&T JENES, MEX, STNet, HTCN, Freebit, Miako, Biglobe, • R&D Networks • JGN2  nation-wide DV multicasting with PIM-SM • WIDE  dual-stack multicasting at APRICOT2005 (plan) • N+I Tokyo Shownet • IEEAF/GLIF • IPv6 Transition testbed run by MPHPT and NiCT • Large enterprise office • Mobile retail business • Small office • Local Government

  7. JGN II Network Topology OCX + GMPLS routercombination <100M> Hokkaido NW-A : Research for Next Generation NMS Sapporo 1G 10G (1G×8) <10G> Kyoto (Kyoto Univ) Osaka (Osaka Univ.) <1G> NICT Kobe <100M> Nara Shiga Wakayama Hyogo <1G> Miyagi (Tohoku Univ.) IT Iwate <100M> Aomori Akita Fukushima Yamagata GMPLS Interoperability Reseach <10G> Kanazawa <100M> Toyama Fukui 10G ~ based <1G> Okayama Hiroshima <100M> Shimane Tottori Yamaguchi <100M> Niigata Nagano NW-B : Test-bed for Terabits scale Network Sendai <10G> Fukuoka (Kyusyu Univ) <100M> Saga Nagasaki Kumamoto Miyazaki Ooita Kagoshima Kanazawa 1G IT Kyusyu 10G (1G×8) Nagano NICT Kashima 10G 10G 1G 10G 10G (1G×8) Okayama 10G (1G×8) 10G 10G 10G <10G> Tokyo (Tokyo Univ.) <1G> YRP(NICT) <100M> Saitama Yamanashi Tochigi Gunma Chiba Doujima Kyusyu NICT Koganei Tsukuba 1G Opt. 10G×2 Opt. Shikoku 10G 1G 1G Nagoya Otemachi NICT Keihanna <100M> Gifu, Aichi. Mie, Shizuoka <100M> Kagawa, Tokushima Ehime, Kouchi Okinawa

  8. Examples of IPv6 Applications (2/2) • Toward the Real-Space Internet • Transportation System • InternetTrain • InternetCAR in Nagoya ITS Congress • Facility Networking, e.g., Building Automation • Real-time Communication • Digital Video Transmission • VoIP over MIPv6 on Linux • IP Telephony (i.e., PBX) • Digital Home Appliances

  9. Utilizing multiple wireless networks simultaneously for wider bandwidth Multiple bi-directional tunnels between MR and HA to efficiently use all wireless networks Various wireless networks are available such as 802.11, CDMA2000 1x, CDMA2000 1x EV-DO, PHS, DSRC, etc. Wireless system has different characteristics in terms of coverage area, Bandwidth, Delay, Charge cost IP Multihoming for various wireless networks- demonstration at ITS congress Nagoya, October 2004 - HA CDMA2000 1x DSRC Internet CDMA2000 1x Servers navigation PHS 1x EV-DO ITS backbone sensor Home Office MR 1x EV-DO (800MHz、2GHz) Wireless LAN MR laptop MR MR 802.11 PDA example of vehicle’s network

  10. S S D D P P W W R R ? ? C C e e n n t t r r e e C C O O M M F F S S 7 7 0 0 8 8 E E 1 1 X X 2 2 X X 3 3 X X 4 4 X X 5 5 X X 6 6 X X 7 7 X X 8 8 M M D D I I - - X X 8 8 M M D D I I L L I I N N K K / / A A C C T T 1 1 0 0 0 0 M M F F D D X X 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 O O R R 1 1 0 0 B B A A S S E E - - T T / / 1 1 0 0 0 0 B B A A S S E E - - T T X X 8 8 P P O O R R T T F F A A S S T T E E T T H H E E R R N N E E T T S S W W I I T T C C H H MR MR R R R R R R R R R R R 3 camera cars WIDE HAs and KDDI HAs, each can accommodate any MRs. System Configuration WIDE MRs and KDDI MRs HA 2GHz 1x EV-DO Laptop PC IPv6 over IPv4 tunnel 2GHz 1x EV-DO network PC Server (WinXP) L2 switch Camera IEEE 802.11b Tour bus WIDE MR and KDDI MR are placed and switchable Contents Server WLAN network(IPv6) KDDI IPv6 Laptop PC IEEE 802.11b ・ ・ PC Server(WinXP) USB AP L2 switch camera IPv6 over IPv4 tunnel 800MHz 1x EV-DO WIDE IPv6 800MHz 1x EV-DO network microphone PDA IEEE 802.11b ITS World Conference Exhibition Booth (PORT MESSE) camera Otemachi(TOKYO) PC server (WinXP) ADSL network microphone MR by WIDE MR by KDDI

  11. Example ; Building Automation • Huge operational cost • Large energy (e.g., gas, electricity) cost • Proprietary technology • Let it be open technology • Each systems use different technology • Introduction of IP, e.g., LON by Echelon • Mori-Tower has 160K control points • COP3 by UN • 10%-30% Energy saving • Improve portfolio • Increase value

  12. World first interoperability of BA controllers via IPv6 transport with LON Works and BACnet

  13. Facility Networking • Information System • Security System • Facility Control • Sensing System • Integration with RF-ID/Auto-ID Lighting control Via MS Messenger Weather monitoring Remote monitoring

  14. Smart Location System- Light Weight Digital Video Communication System - Operating System : Linux Booting period : 30 seconds Main Features On-board VIA C3 800MHz+ processor One internal 2.5" HDD bay Built-in speaker-out, MIC-in and TV-out ports Optional Compact Flash or DOM module On-board DOC socket up to 288MB Construction Heavy-duty steel Device Support internal 2.5" HDD x1 Dimension 146(W) x 41 (H) x 160 (D) mm 5.75"(W) x 1.6"(H) x6.3"(D) Cooling system 3 cm fan for system cooling x1 LED indicators Power-on/-off LED x1 I/O ports IEEE1394 port x1 PS/2 Keyboard/ Mouse x1 Serial port x1 Audio-out x1 MIC-in x1 TV-out x1 USB port x1 Power Module (Internal DC to DC power converter) EBK DC512 Power input: 16V~24Vdc Power output: 12V & 5V Power output: 24Vdc / 2.5A 60W max Power input: 100~240Vac 2A 50/60HZ Environment Operating temperatures : 0°C to 45°C Storage temperatures : -20°C to 80°C Relative humidity : 10% to 90% (Non-condensing) Certification CE FCC Battery Operation

  15. Smart Location System HDV1080iContents Session Management System for DV / HDV HDV IP send SYSTEM Appliance DV Recv DV Send HDR-FX1 HDR-FX1 IEEE1394 IEEE1394 100baseT 100baseT Switch Switch Smart Location System --DV Receive -- Smart Location System --DV Send-- Contents Session Management System HDV IP send SYSTEM Appliance --HDV Receive-- HDV IP send SYSTEM Appliance --HDV Send-- 100baseT 100baseT Switch Switch Internet (SDI→1394変換) (1394→SDI変換) IEEE1394 HDR-FX1 CU-VMH10 IEEE1394 CU-VMH10 HDR-FX1 HDV Recv HDW-750 HDW-750 HDW-M2100 HDW-M2100 HDV Send

  16. Large-scale introduction of IPv6 system - 280 sites all over Japan - IPv6 Node as many as 20,000 VoIP carrier IPv4 IPv6/IPv4 Translator The IP Centrex service, "IP Business Phone", developed by FreeBit, has got a major contract with Kyoritsu Maintenance, a nation-wide dormitory supplier. The IPv6 phones will be installed into all of their rooms, that is as many as 20,000. IPv6 Feel6 Server SIP Server Utilize a technology called, ”Feel6”, which enables secured IPv6 network over existing IPv4 network Internet FTTH (NTT) IPv6 over IPv4 dormitory Feel6 Client IAD(YAMAHA RTV700) IPv6connection, VoIP control - Easiness to design the address management scheme regardless the tremendous number of nodes - Management of terminal versions by achieving the reachability to each terminal over Internet IPv6 20,000 IPv6 Nodes 280 addresses “Realized the cost reduction by IPv6” Note) Information as of 2004/Nov

  17. Cost reduction made possible by IPv6 Design phase Installation phase Maintenance phase Necessary to design the address range carefully Necessary to configure the subnet mask and default gateway to each node Difficult to identify the nodes in trouble from the operation center IPv4 Specific address design for each environment necessary Possibility to make mistakes in settings Delayed trouble shooting Possession of abundant addresses and hierarchical design possible Auto-generation of IPv6 address upon reception of router advertisement Easy to identify the nodes in trouble, and re-configure remotely with help of IPv6 IPv6 No special knowledge necessary to installer Reduced complexity of maintenance Specific address design for each environment not necessary FreeBit Co., Ltd.

  18. Significant reduction of network design steps IPv4 IPv6 TEL Configure phone number TEL Configure phone number TEL Configure default gateway Not required TEL Configure subnet mask Not required TEL Configure IP address Router advertisement by IPv6 LAN Configure VPN of router Feel6 ID and PW NET Configure VPN Feel6 ID and PW NET Configure network address 280 addresses FreeBit Co., Ltd.

  19. Launch of 20,000 nodes in a very short term FreeBit Co., Ltd. Service specification System design Evaluation Installation 2004/3 6 9 2005/1 Abstraction of installation procedure into 3 patterns depending on the number of rooms, made possible by the easiness in IPv6 address design Easy installation due to the auto-generation of IPv6 address Realization of remote monitoring and quick maintenance of the nodes, made possible by fixed IPv6 addresses

  20. Thank you. Real applications are emerging. Hiroshi Esaki hiroshi@wide.ad.jp

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