4. The Technophobe & the Madman ~the first internet 2 Distributed Musical~ -a 40-minute performance was seen simultaneously at Rensselaer and at New York University (February 20,2001) -the first Internet2-distributed musical, combining music, video, and interactivity using artists performing collaboratively at both locations. -High-bandwidth versions and a video of the entire musical can be viewed at.
5. The Technophobe & the Madman Rensselaer Polytechnic Institute New York University Internet2 connection 6 video and 12 audio channels 20 mbps Simultaneous performance
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7. 1.1 What is Internet 2 Made up of More than 200 U.S. universities 70 leading corporations 45 government agencies, laboratories and other institutions over 50 international partner organizations
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13. research And education community commerce and business healthcare and science arts and humanities and beyond The Internet2 community pioneers the use of advanced network applications and technologies, from their academic inception through their evolution to the commercial Internet. 1.1.5 Why we need it Potential of Internet 2 Technology
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15. 1.2 Core Technologies -IPv6 -Multicast -QoS -Security new network capabilities will improve throughput and management of network traffic.
16. 1.2.1 Core Technologies — IPv6 4,294,967,296 Number Addresses in IPv4 6,314,000,000 World Population 340,282,366,920,938,463,463,374,607,431,768,211,456 Number Of Addresses in IPv6
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18. 1.2.2 Core Technologies — Multicast -Multicast is a set of technologies that enables efficient delivery of data to many locations on a network. Today’s internet
19. 1.2.2 Core Technologies — Multicast Internet 2 distance learning/ digital video libraries/ online collaboration tools/ other types of advanced applications important to research and education.
20. 1.2.3 Core Technologies — QoS Internet2 QoS Working Group accelerating the creation of tomorrow's Internet the overall mission of the Internet2 project the use of IP traffic differentiation different expectations of network performance provide different applications or users with two or more classes of service (CoS) having different relative performance levels
21. 1.2.4 Core Technologies — Security Performance requirements such as high-bandwidth, end-to-end transparency, and support of new protocols are essential for the academic mission and innovation Today’s Internet ? Internet 2 the integration of security, high performance networking, and advanced applications providing new tools to address today's security problems √ √
22. 2. Applications Human-to- human interaction Human-to- Machine interaction Computer-to- computer interaction Voice telephony Videoconferencing Tele-immersive VR …… FTP Telnet …… Allows for logging on to remote computer Voice mail Multicasting Data mining Database Mapping ……
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24. 2.2 Telemedicine One of the most fascinating applications of next-generation Internet Remote Surgery- allows surgeons to oversee and consult on operations occurring in real time. Remote Surgeon In San Francisco Ohio State University Medical Center Discuss the operation in real time Feedback to remote hospital Heart rate Abdomen
26. 2.4 Collaborative Tele-immersive Virtual Reality In Tele-immersion, collaborators at remote sites share the details of a virtual world that can autonomously control computation, query databases, and gather results.
27. In teleimmersion, participants are not looking at a scale model of a car design; they are standing inside the engine block. They can then change parameters on a supercomputing simulation of the engine block and collectively study the impact of those changes. Sunson in UCLA Bibby in MIT 45Mbps Long-distance Car Design Case 2.4 Collaborative Tele-immersive Virtual Reality
28. 3. Interview study and global NGI 3.1 Two ways to see internet2 3.2 Features of IPv6 3.3 What do Hong Kong react 3.4 Harnet and Cernet 3.5 appendix
30. 3.1 Two ways to see internet2 UCAID (University Corporation for Advanced Internet Development) Narrowly speaking Next generation internet (Cernet, Harnet) (more at the appendix) Broadly speaking
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32. Eg of how ipv6 better ipv4 (1) Limited address Allowed in ipv4 Arouse new security problems NAT to solve the problem problems New problems solution
33. Eg of how ipv6 better ipv4(2) OSI model Shortages of ipv4 can be solved on application levels ipv6 can probably perform on network layer
34. Eg of how ipv6 better ipv4(3) internet with IPv4 already fits most of the need. application layer can fix most of the problem meeting the needs now. No killer application no rush to move from ipv4 to ipv6 so fast Ipv6 better ipv4 in design and function
35. 3.3 What do Hong Kong react Wait and see HK government reaction See the market No immediate Profitable application
51. 5.1 The Internet development spiral From Broadband Explosion by Robert D. Austin & Stephen P. Bradley 2005
52. 2.2 Adoption of the Internet2 Innovators Research Early Adopters Universities Early Majority Late Majority Laggards
53. We will further explore its Commercialization in the term paper … Please keep close watch on our next presentation…. Thank you very much for your time… Sunson+Susan+Bibby+Jane =