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IPv6 Development Toward the Real-Space Internet

IPv6 Development Toward the Real-Space Internet. Hiroshi ESAKI, Ph.D <hiroshi@wide.ad.jp> - Board member, WIDE Project - Executive director, IPv6 Promotion Council - IPv6 project leader, TAO JGN. Corporate Executives Network Operators Observe “every” business domain

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IPv6 Development Toward the Real-Space Internet

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  1. IPv6 Development Toward the Real-Space Internet Hiroshi ESAKI, Ph.D <hiroshi@wide.ad.jp> - Board member, WIDE Project - Executive director, IPv6 Promotion Council - IPv6 project leader, TAO JGN

  2. Corporate Executives • Network Operators • Observe “every” business domain • Toward the “network” mobility Contents • Who is the show stopper for IPv6 ? • Toward the Real-Space Internet

  3. Who is the show stopper ?

  4. Who evaluate the technology ? • Researcher • Vendor • Operator • Corporate executives • Customer/Consumer

  5. Who evaluate the technology ? • Researcher • Vendor • Operator • Corporate executives • Customer/Consumer  seeking “cutting-edge”  fun for “implementation”  hate “outage”  slave of “money, i.e., profit”  always THE “decision maker”

  6. Who evaluate the technology ? • Researcher • Vendor • Operator • Corporate executives • Customer/Consumer  seeking “cutting-edge”  seeking “cutting-edge”  fun for “implementation”  fun for “implementation”  hate “outage”  hate “outage”  slave of “money, i.e., profit”  slave of “money, i.e., profit”  always THE “decision maker”  always THE “decision maker”  Let’s persuade above three players !!

  7. Most conservative player……. Community interaction in the Internet industry • Corporate Executives • R&E Network Standardization body (IETF/ITU/W3C) Operators Research with Practical development Vendors

  8. Development of Components (1) ・ Operating System (1) Microsoft Windows - Windows XP and 2000 (and CE) - 6to4(public), TEREDO(private), ISATAP(Intranet) - Developer tools ; winsock, visual studio, etc (2) Apple MAC OS X2 (3) UNIX with KAME Stack Free-BSD, BSDI, NetBSD, OpenBSD (4) SUN Solaris 8 and 9 (5) LINUX powered by USAGI (6) TRON by Access (7) other embeded OS (e.g., VxWorks, Elmic)

  9. Development of Components (2)  Backbone router  Edge router Access node (e.g.,aggregator)  SOHO router • Router • Cisco • Juniper • Hitachi • NEC • Fujitsu • Extreme • Foundry • NOKIA • etc, Firewall router (*) check point releases, then we go to IPv6 security architecture model

  10. Who is show stopper ?-- Kick two parties !!! -- • Corporate executive • It is a big business chance !!!! • Global market  Big money, even with niche • Network Operators • Let them show the production/professional live network !!! • Customer/Consumer  not a show stopper • Does not care if use IPv6 or IPv4, but does care if the application works or not • Always connected to the Internet • Integrated with “real-space”

  11. Toward the Real-Space Internet

  12. e-Japan Project 2003 • 2000 • IT Strategy Committee • 2001 • Basic law for e-Japan • IT Strategy Department at Cabinet • Series of funding for IT technology • 2002 • e! • 2003 • Private Contents and “Real-space” Internet

  13. e! • Project in FY2002 funded by MPHPT • Three year program • Something surprise IT project • e-healthcare in Kanagawa • e-government with high speed wireless in Tokyo • International distributed IX (called as Genkai) • RF-ID tag network

  14. WGs in V6 Promotion Council • Application WG • Next generation Internet applications based on IPv6 • Telecom SWG • Building Automation SWG • Testbed WG • Design, establish and operation of IPv6 testbed • Router development • V6 core technology WG • Basic and platform technology development (e.g.,KAME/TAHI/USAGI) • Strategy WG • Certificate SWG (including MIPv6/SIP) powered by TAHI • Security SWG

  15. Examples of Killer Applications • Private contents • Peer-to-Peer communications • Peer-to-Peer computing • Integration with the “Real-Space” • Public Safety • Transporting system • Building Automation • Home Automation • Factory Automation

  16. Attention !!!! It is very serious issue for ISPes, which assume Client-Server service architecture. Already some ISPes and application providers has realized this issue. Examples of Killer Applications • Private contents • Peer-to-Peer communications • Peer-to-Peer computing • Integration with the “Real-Space” • Public Safety • Transporting system • Building Automation • Home Automation • Factory Automation

  17. Private Communication Tools • Client-Server System • BBS (Bulletin Board System) • News • IRC(Internet Relay Chat) • Streaming Applications (Real, WMT) • Peer-to-Peer System • Gnutella/Jutella • Freenet • DVTS, talk • Hybrid System • VoIP (Voice over IP) • Napstar • Instant Messenger (AOL、MS)

  18. Private Contents • Live Image • Live Video • Computer Graphics • Example of Computational Grid

  19. Examples of Killer Applications • Private contents • Peer-to-Peer communications • Peer-to-Peer computing • Integration with the “Real-Space” • Public Safety • Transporting system • Building Automation • Home Automation • Factory Automation

  20. Internet Today PCs Servers Cell Phone IPv4 Others PSTN Wireless

  21. ‥‥ ‥‥ PSTN Wiless Everything be connected IPv6 Dark Fiber Power Line

  22. PHS/WCDMA Network Wireless LAN Network IPv6 Network Mobile IPv6 over wireless internet platform  Real IP oriented “Wireless” network IEEE 802.11b (Mobile IPv6 RT) IEEE 802.11b (Mobile IPv6 RT) Wireless LAN AP TrainCar (Mobile IPv6 RT) IEEE 802.11b Shopping Mall, Station, Airport FA ; Factory Automation BA ; Building Automation HA ; Home Automation Resident

  23. Pseudo Light System (Location with GPS) GPS Satellites Indoor Outdoor Pseudo Lights

  24. GLI Agent Geographical Location Info. Metropolitan Tokyo Home Servers Visualize Real Time Visualization Registration Area Servers Nagoya City

  25. IPv6 seat mat node • Sensing the biological information • Breaths • Heartbeats • Snoring • etc., Sensor seat Micro-node (WWWserver) Sensor device (空気圧変動検出) Air tube

  26. Before Micro-node Micro-Nodes Place and Play function does not require engineering knowledge, skill nor manual configuration. Appliance Nodes (e.g., Sensor nodes) Internet New/Improved Service and Business Models Connected Autonomously (Place & Play)

  27. Sensor Node Networking Geographical Location IP address Temparature (wind) anemoscope Rainfall Show geographical map

  28. RF-ID/IC card/μ-chip RF-IDMYCOM PC WEB http://pcweb.mycom.co.jp/news/2001/07/05/22.html • Device informing the global identifier for human or equipment • Can be used to obtain location info. • Authentication of objects • Inventory management IC card Feed grain Humberger Cow Meat RF-IDtag and reader

  29. AutoID F127.C23.DF1B.177CC eTAG, EPC (64~96bits) Existing boxes e.g., refrigerator PML (Physical Markup Language) ONS (Object Name Service)

  30. Corporate Executives • Network Operators • Observe “every” business domain • Toward the “network” mobility Conclusion • Who is the show stopper for IPv6 ? • Toward the Real-Space Internet

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