IPv6 Deployment Jun Murai. 3 San Diego Super Computer Center 3 San Diego Super Computer Center 3 universities in.

Slides:



Advertisements
Similar presentations
Feb 22nd 2002 Infrastructure requirements for distance education Keiko Okawa WIDE Project.
Advertisements

IPv6 Deployment in Japan Takashi Arano Intec NetCore, Inc. ICANN ASO Address Council Board member of the IPv6 Forum Co-chair, International.
Networking: Computer Connections Chapter 7 Data Communications Send and receive information over communications lines.
Gold Country Computer Learning Center March 2006 Is Wireless for You? Roger Thornburn.
TYPES; 1. Analog Analog 2. ISDN ISDN 3. B-ISDN B-ISDN 4. DSL DSL 5. ADSL ADSL 6. SDSL SDSL 7. VDSL VDSL 8. CABLE CABLE 9. Wireless Wireless 10. T-1 lines.
Home Networking prepared for FCC Technical Advisory Committee 18 September 2002.
1 Chapter 9 The Internet in Business: Corporations, Businesses, and Entrepreneurs.
1 Chapter 19 Networks. 2 What’s Inside and on the CD? In this chapter you’ll learn: –Basic network terminology –To identify network components –About.
Telecommunications and Networks Business value of networks Network components Chapter 6 McGraw-Hill/Irwin Copyright © 2007 by The McGraw-Hill Companies,
INTRODUCTION TO COMPUTER NETWORKS Navpreet Singh Computer Centre Indian Institute of Technology Kanpur Kanpur INDIA (Ph : ,
APTA, Kevin Hassett, September 24, APTA Passenger Information Systems.
Types of Internet Connections
Selecting a WAN Technology Lecture 4: WAN Devices &Technology.
Windows XP Home Networking Scott Manchester Technical Evangelist Home Networking.
Communications & Data Services The Evolution of Communications Cathy Avgiris EVP/GM May 10, 2012.
Teaching and Learning with Technology  Allyn and Bacon 2002 Networks and the Internet Chapter 7 Technology in Teaching and Learning.
1 Telecommunications, the Internet, Intranets, and Extranets CSC101 SECTIONS 01 & 02.
Computer Skills Preparatory Year Presented by: L.Obead Alhadreti.
Imagine sitting at your desk at work and using a Web browser to view live pictures of every room in your house. You see the plumber or the electrician.
Networking I Chapter II The Internet. How does one Connect? Dial-Up Connection – Modem ISDN – Integrated Services Digital Network DSL – Digital Subscriber.
Chapter 5 Networks Communicating and Sharing Resources
© 2007 Cisco Systems, Inc. All rights reserved.Cisco Public ITE PC v4.0 Chapter 1 1 The Internet and Its Uses Working at a Small-to-Medium Business or.
What is broadband Multiple broadband technologies Advantages DSL and DSLAM Types of DSL transmission Services through broadband Cable Modem Internet Access.
Networks and Telecommunications Strategies Dr. Robert Chi Chair and Professor, IS department Chief editor, Journal of Electronic Commerce Research.
Chapter 9A Network Basics.
Panel Discussion Examining Issues for Introduction of IPv6 to Home Users Global IPv6 Summit in Japan 2001 December 4 th, 2001.
1 Toward the Popularization of IPv6 Business (NTT Communications’ Global IPv6 Trial) Hiroaki Sadata NTT Communications Corporation
IPv6 Activities and Future Strategies in Chunghwa Telecom Fu-Kuei Chung Data Communications Business Group Chunghwa Telecom 2003/02.
Chapter 1 Intro to Routing & Switching.  Networks have changed how we communicate  Everyone can connect & share  How have networks changed the way…
© 2007 Cisco Systems, Inc. All rights reserved.Cisco Public ITE PC v4.0 Chapter 1 1 The Internet and Its Uses Working at a Small-to-Medium Business or.
OV Copyright © 2013 Logical Operations, Inc. All rights reserved. WAN Infrastructure  WAN Transmission Technologies  WAN Connectivity Methods 
03/09/2006W3C Uniquitous Web Workshop1 PUCC and WEB Nobuo Saito Keio University W3C Associate Chair PUCC Chairperson.
IPv6 Education and Deployment Efforts in Japan Takashi Arano NTT Communications.
Modems Mostly used to connect PCs to the Internet Modulates and demodulates the signal Converts analog data into digital and vice versa V.90/V.92 56K standards.
Chapter 7 Networking: Computer Connections. Networks n Network - a computer system that uses communications equipment to connect two or more computers.
WIDE -Widely Integrated Distributed Environment Internet Area, Transport Area, Operation & Management Area Director Jun Murai Present by Lee YoungSoo.
ASYNCHRONOUS Sends A letter at a time. The devices are not synchronised. The letter is framed by start and stop bits. The start bits are to ‘wake up’ the.
1 National Project "Information Appliances and IPv6 Internet" IPv6 Promotion Council / NTT Communications Corporation Hiroaki SADATA.
The Singapore Advanced Research & Education Network.
Chapter 7 Networks and the Internet Networks Sharing resources among multiple computers (workstations) Local Area Networks Wide Area Networks.
D EPT. OF I NFO. & C OMM., KJIST Access Grid with High Quality DV Video JongWon Kim, Ph.D. 17 th APAN Meeting /JointTech WS Jan. 29 th, 2004 Networked.
University of Palestine Faculty of Applied Engineering and Urban Planning Software Engineering Department INTRODUCTION TO COMPUTER NETWORKS Dr. Abdelhamid.
Introduction to Information Systems Lecture 06 Telecommunications and Networks Business Value of Networks Jaeki Song.
たくさんの人がいっしょに乗れる乗り物を 「公共交通」といいます バスや電車 と 自動車 の よいところ と よくない ところ よいところ と よくない ところ を考えてみよう!
Introduction to Computer Networks Professor Jun Murai, Keio U. Professor Larry Landweber, U. of Wisc Fall 1999.
地域間相互接続実験 RIBB の活動と今後の課題 菊池 豊 KIKUCHI Yutaka Department of Information Systems Engineering Kochi University of Technology
XP Practical PC, 3e Chapter 7 1 Connecting to the Internet.
Zebra OSPFv3 status Yasuhiro Ohara WIDE Project.
Teaching and Learning with Technology ck to edit Master title style  Allyn and Bacon 2002 Teaching and Learning with Technology k to edit Master title.
1 Chapter 8 Communications & Networks. Objectives Overview Discuss the purpose of the components required for successful communications Describe these.
Computer networks Internet, Intranet, Extranet, Lan, Wan, characteristics and differences.
WIRELESS SYSTEMS Adnan Iqbal MCS-MIT 1 1.
3/20: Telecommunications & Networking What is telecommunications? The hardware: physical components of telecommunications, inc. channels Standards: agreements.
© 2007 Cisco Systems, Inc. All rights reserved.Cisco Public ITE PC v4.0 Chapter 1 1 The Internet and Its Uses Working at a Small-to-Medium Business or.
Voice Over Internet Protocol (VoIP) Copyright © 2006 Heathkit Company, Inc. All Rights Reserved Presentation 1 – Introduction to VoIP.
Chapter 2 Rheachel, Jessica, Megan, and Cassidy Communications, Networks, the Internet, and the World Wide Web.
Building Corporate Data Networks – A Case Study
Chapter 9 Communications and Networks McGraw-Hill/Irwin Copyright © 2008 by The McGraw-Hill Companies, Inc. All rights reserved.
Example for New Enterprise Application 2003/2/25 Akihiro Inomata FUJITSU.
 Internet access is the process that enables individuals and organizations to connect to the Internet using computer terminals, computers, and mobile.
EVOLUTION FROM 3G TO 4G AND BEYOND 5G
Etisalat IPv6 Experience
Objectives Overview Discuss the purpose of the components required for successful communications Describe these uses of computer communications: wireless.
Chapter 1: WAN Concepts Connecting Networks
Computer Technology Notes #4
Chapter 4: Data Communication and Networks
GETTING CONNECTED TO INTERNET
Presentation transcript:

IPv6 Deployment Jun Murai

3 San Diego Super Computer Center 3 San Diego Super Computer Center 3 universities in Japan Joint Graduate Level Course on “Network Security” among 3 Universities, Dec 12, 2000 from San Diego U.S.A. NAIST U-Tokyo KEIO SFC

DV recv DV sendDV recv2DV send DV send1 DV recv1 DV recv2DV send2DV recv2 DV send2 DV recv1 US/NARA SFC/U-tokyo SFC U-Tokyo SFC DV send1 DV recv1 U-Tokyo Polycom NAISTUCSD Unicast DV (IPv6) Multicast DV (IPv6) A/V mix Unicast Polycomm (IPv4) 2001:200:0:802:: :200:0:802::777 ff19::1   „ ‚   DV over IPv6 with Multicast

IPv6 Network Topology

DV Transport System IEEE1394 Cable Consumer DV Camera IEEE1394 Cable Internet DV→Internet PC Internet →DV PC Consumer DV Deck

DV Transport System IEEE1394 Cable Consumer DV Camera IEEE1394 Cable Internet DV→Internet PC Internet →DV PC Consumer DV Deck

DV Transport System IEEE1394 Cable Consumer DV Camera IEEE1394 Cable Internet DV→Internet PC Internet →DV PC Consumer DV Deck

Japan and WIDE Project 100% V6 readiness by 2005 Transition support for ISPs WIDE activities –KAME/TAHI/USAGI –IPv6 appliances –6bone-jp –OSPFv3 –DV over IPv6 with PIM –NSPIXP-6

Internet Deployment: history in Japan(1) 1984 TCP/IP on BSD 1985 Global IP address and.JP in Japan 1985 Japanese messages on (RFC1468) 1986 IP subnet 1987 WIDE domestic ‘leased line’

Internet Deployment: history in Japan(2) 1992 Nifty/Ascii/PCVAN s 1992 OSPF 1993 BGP 1994 WISH: Satellite Internet/UDL 1995 BGP 3 to IPv6 testbed 1997 ‘m’ root server

Since 1995… Deployment of new technology has become much harder! –Commercial use of Internet –Commercial provider of Internet –Everybody uses it, not only ‘US’! –Many vendors involved. (More people do not understand!)

Why do we need IPv6? IPv4: Internet is for all computers in the WorldIPv4: Internet is for all computers in the World –IPv4 could support the number of Computers Internet is for Everyone! –We need scalable infrastructure! IPv6: Internet is for everyone/everything in the WorldIPv6: Internet is for everyone/everything in the World –Automobiles, Appliances, Sensors, etc… –Human –Global address/No-dialups Technical requirement –Huge (unlimited) address –Security capability –Plug & Play –Mobile/Multicast

The Internet Distribution Infrastructure for Digital Information Technology on Computer and Communication –Based on “Digital Technology” –Internet Technology vs Communication Technology –Internet Infrastructure vs Communication Infrastructure Common Infrastructure for all industries and everyone –Global –Free to apply

Digitalize Basics of digital technology –Character Assign a number to each character –Character Code –ASCII( American Standard Code for Information Interchange ) –Sound Divide a sound wave in constant interval Assign a number to each interval 0x410x61 Wave of Sound expand

Internet Global and Ubiquitous Infrastructure for Communication Communication Technology Wireless Satelite ATM Optical Fiber Copper Cable WDM/SDH ISDN Internet Technology CATV Cable Modem Society

IPv6 Projects in WIDE Project ・ IPv6 - KAME Project - TAHI Project - USAGI Project ・ Differentiated Service → using SONY-CSL ALT-Q ・ Label Switch → Toshiba CSR ・ Multicast - High Quality Video Multicast - Reliable Multicast WG ・ WDM

KAME project ‘What was the role of 4.2BSD for V4?’ –‘4.2BSD for V6’ Goals: –Contributions by implementing a ‘reference’ –Source code distribution –IPsec technology to the world Anything to contribute (for developers) –mobile-ip4/6, IPv6 over satellite, –traffic control/diffserv, etc.

KAME Project A single effort –8 core members from 7 Japanese companies –Fujitsu, Hitachi, IIJ, NEC, Toshiba, YDC, Yokogawa Two-years joint project –April March 2000 –The core members work for IPv6 three days a week KAME –A short word of KArigoME, where our office locates –Turtles

SOI - School of Internet 2000 Waseda Keio U-Tokyo TEU NAIST High Speed IPv6 Multicast Internet High Speed IPv6 Multicast Internet IPv4 Internet Mori Bldg SAGA

SOI System Report System On demand Lecture Evaluation Realtime Lecture Communication Record System

IPv6 High Speed The Internet IPv4 IPv6 multicast Sat. Classroom Satellite (10Mbps) NAIST TEU U-TOKYO multicast WISC v4/v6/UDLR Receiver Satellite (2Mbps) Sat. Individual WASEDA Individual IPv4 multicast Real Server 2 v4/v6/UDLR Feed Real Server 1 KEIO High Speed / Classroom (A) (B) (C) (D) (E) (G) Mrouter (F) (C) (F) IPv6 multicast / DVTS IPv6 multicast / join message IPv4 multicast / Real Video IPv4 multicast / request message IPv4 unicast /RealViedeo SAGA

SOI Status as of Dec 2000 Since 1997 Sept Students –Over 5000 registered Students –Over 60% are adults Lectures –Over 600 hours of Internet/Computer related lectures. –14 courses (7 universities) 、 45 special lectures Evaluation –86% students want to continue –60% students appreciate the opportunity to take other univ’s class. Accesses –200,000 web pages / week

Internet applications by multicast TV conference Multi-player game

XCAST: INET2000 demo YOKOHAMA Bzflag 3D tank game VIC VIdeo Conference RAT Robust Audio Tool IPv6 showcase (18-21 July 00) NARA KEIO FUJITSU WIDE 6Bone

XCAST video trial ( 中継 2000 ) WIDE 6Bone NSPIXP6 IIJ IIJ PAIX v6/v4 tunnel 5 satellite meeting rooms of the open plenary NAIST, JAIST, FUJITSU, UEC, ISID bi-directional audio & video stream no special multicast routing coordination 48th IETF meeting (2000/Aug/2)

OSPFv3 for IPv6 Development and Experience on 6bone-jp –Direct feed-back to developer team

Internet Connected Car

ProbeCar:Share the Information on Internet Internet

Everything connect to the Internet “Economic Effects” of the Information on the Internet Global unique address No dialups Engineer motivations

IP sensor Prototype (Thermo Sensor Node) Inside view Outside view

Network Appliances(on sale) Cellular Phone with Internet Connectivity Digital Camera with Network Connectivity Digital Video Camera With A/V Network Connection Microwave with Network Connectivity © Cannon © NTT DoCoMo © Sony © Sharp

Refrigerator Node Control Panel Voice Output(Speaker) LCD Panel Voice Input(Mic)

Sensor and Micro-node Refrigerator Node(Prototype) Sensor terminal Micro-node

Temperature and Door sensor Temperature Door sensor

User application (Java applet) Temperature and Door status Door0 : Closed Temp0: -16.7C Compressor Temp:70.0C

New technical feedback from each products Refrigerators connecting to the Internet All Refrigerator send the status to provider/maker, then, they use those of information to development Door open/close statistics Compressor status Changes of temperature

KEIO SFC Hitachi SONY-CSL Toshiba CRL MEX Univ. Tokyo NTT/KDD To: Osaka To: JAIST To: Kyoto Tohoku To: Tohoku JAIST Kyoto Osaka Kurashiki Hitoshima Kyushu Connected site Data-link line NAIST (*) Mixture of SDH and ATM with 40Mbps to 1Gbps Trans-Pac (70Mbps) (to STARTAP) Sapporo JB: Test-bed Network Geographical Topology Map To: Sapporo To: Kyushu

6bone-jp topology map(2000/5)

NSPIXP-6 Fast Ethernet Segment ATM/FE Bridge M6 WIDE IRI TTNetDTI OCNODN IMNETIIJ JENS NEC APAN INTEC NTT-MSC Ethernet (10/100Base-T) ATM ISP Academic/Experimental KDD-Otemachi NTT-Otemachi Toyama (via JGN) AboveNet 6TAP, KAIST, SingaREN

IPv6: Unneeded, Unwanted and Unlikely Paul Francis, NTT Oct For WIDE 10th Anniversary Symposium

IPv6: Unneed technically NAT solution to addressing problem is satisfactory –Cost of NAT a fractional increase on cast of firewall And is not some respects attractive –Intranet managers really don’t want unbridled connectivity –Insulates intranets from global address changes

IPv6: Unlikely Intranets won’t install it –until other intranets install it, and ISPs support it ISP won’t support it –Until intranets demand it.

Who’s talking about IPv6 ? Last 4 issues of Nikkei Communications –One brief mention of IPv6 (NTT softlab activity) Last 4 issues of Internet Week –zero mention of IPv6 Last 4 issues of Internet Society “On the Internet” –Zero mention of IPv6

Who’s talking about IPv6 ? (cont.) ISP Web Sites: MCI-Worldcom, GTE, PSINet –Zero mention of IPv6 Search PSINet for ‘IPv6” : zero hits Search PSINet for VoIP: 44 hits What are they talking about ? –Network management, IP telephone, high bandwidth, cheap bandwidth, about web sites

Policy speech Prime Mister, Yoshiro Mori Sep. 21, 2000 –I shall boldly address the diverse range of issues we face, including the early realization of e-government, the computerization of school education and the development of systems compatible with the integration of communications and broadcasting, on the basis of discussion in the IT Strategy Council. We shall also aim to provide a telling international contribution to the development of the Internet through research and development of state-of-the-art Internet technologies and active participation in resolving global Internet issues in such areas as IP version 6 (IPv6). – 2000/0921policy.html

IPv6: The New Internet Tidal Wave Jun Murai KEIO University, Japan

IPv6 Impact IPv6 Infrastructure Make an impact on: Economic/Business/Lifestyle/Educational/etc area Individuals, Company, School, Community, Administrative organ, Automobile, Appliance, Home, Sensor, etc… Everything can connect/communicate each other

IPv6 can change “Education” Attend a lecture/class from everywhere ・ Attend a class held on downtown University from countryside ・ Attend a class that you are interested in ・ Study abroad via Internet Collaboration between teachers Collaborated classroom between schools Internet can connect between home and school Internet can connect between school and school By IPv6

IPv6 can change “Business” All business person can work on “IT” Make business smooth Easy to get new customer Use customer’s information for next business All home can be a “shop owner” on the Internet No need to pay an expensive rent No need to have a “downtown” office Person who lives in a countryside can begin/start up “New business” By IPv6

IPv6 can change our life 地域格差の解消 ライフスタイルの変化 – 在宅勤務の増加 情報家電と携帯端末の連携 出先から携帯電話で家電の操作など 自動車同士の情報交換・利用 すべての人と物がつながることで予想もできない 新しい生活が可能

The role of Internet 運輸 金融 経済 放送 電話 教育 農林 水産 インターネット(デジタル情報を流通・共有させる基盤) 衛星 光ファイバ 電波 電線

IPv4: Not enough in addresses and growing requirements Cable IPv4 Tans- portation Tans- portation Agri- culture Agri- culture Econo Finance Econo Finance Educ Phone TV Radio TV Radio Optical Fiber Optical Fiber Wireless Satellite

IPv6: The Internet Infrastructure Cable Optical Fiber Optical Fiber Wireless Satellite IPv6 Trans- portation Trans- portation Econo Finance Econo Finance TV Radio TV Radio Phone Educ Agri- culture Agri- culture

Analog Communication Phone Econo Financ Econo Financ Educ Trans- portation Trans- portation Agri- culture Agri- culture TV Radio TV Radio Phone Infra Phone Infra BCAST Infra BCAST Infra

Internet: as of Yesterday Phone Econo Financ Econo Financ Educ Trans- portation Trans- portation Agri- culture TV Radio TV Radio Phone Infra Internet BCAST Infra BCAST Infra

Internet: as of Today Phone Econo Financ Econo Financ Educ Trans- portation Trans- portation Agri- culture Agri- culture TV Radio TV Radio Phone Infra Internet BCAST Infra BCAST Infra Internet Infra (fiber, cable &wireless)

Internet: as of Tomorrow Phone Econo Financ Econo Financ Educ Trans- Portation Trans- Portation Agri- culture Agri- culture TV Radio TV Radio 電話インフラ Internet Internet Infrastructure (fiber, cable, and wireless) Phone Infra BCAST Infra

Internet Infrastructure for digital communication society Phone Econo Financ Econo Financ Educ Trans- portation Trans- portation Agri- culture Agri- culture TV Radio TV Radio Internet (Integrated) Internet Infrastructure A testbed is VERY important!

Japan is the testbed now. IPv6 JAPAN December 18 and 19, 2000