Internet2 International

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Transcript Internet2 International 

Internet2
Ana Preston
Program Manager
International Relations
Septiembre 6, 2001
Dia Internet2 CICESE
Ensenada, Baja California
MEXICO
People on the Internet
350.0
300.0
250.0
Millions of
People
200.0
150.0
100.0
50.0
3- D Ar ea 1
05
20
00
20
99
19
98
19
97
19
96
19
Source:
Nua Internet Surveys
19
95
-
Yesterday’s Internet
Thousands of users
Remote login, file transfer
Interconnect mainframe
computers
Applications capitalize on
underlying technology
Today’s Internet
Millions of users
Web, email, low-quality audio &
video
Interconnect personal computers
and servers
Applications adapt to underlying
technology
Today’s Internet
Doesn’t
Provide reliable end-to-end
performance
Encourage cooperation on new
capabilities
Allow testing of new
technologies
Support development of
revolutionary applications
Tomorrow’s Internet
Billions of users and devices
Convergence of today’s applications
with multimedia (telephony, videoconference, HDTV)
Interconnect personal computers,
servers, and embedded computers
New technologies enable
unanticipated applications (and
create new challenges)
Why Internet2?
The Internet was not designed for:
• Millions of users
• Congestion
• Multimedia
• Real time interaction
But, only the Internet can:
• Accommodate explosive growth
• Enable convergence of information work, mass
media, and human collaboration
Why University
Leadership?
The Internet came from the academic
community
• Stanford -- the Internet protocols
• NSFNet -- the scaled-up Internet
• CERN -- The WWW protocols
• University of Illinois -- The Web browser
Universities’ research and education
mission require an advanced Internet
and have demonstrated they can
develop it
Internet Development
Spiral
Commercialization
Privatization
Today’s Internet
Research and
Development
Source: Ivan Moura Campos
Internet2
Partnerships
Internet2 Goals
Enable new generation of applications
Re-create leading edge R&E network
capability
Transfer technology and experience
to the global production Internet
Internet2 Partnerships
Internet2 universities are
recreating the partnerships that
fostered the Internet in its infancy
• Industry
• Government
• International
Internet2 Members
185 universities (yellow dots)
75 corporations
40 non-profits and gov’t labs
32 international partners
Internet2 Corporate
Partners
3Com
Advanced Network &
Services
Alcatel
Ameritech
AT&T
Cisco Systems
IBM
ITC^Deltacom
Lucent Technologies
Marconi
WorldCom
Microsoft
Newbridge Networks
Netcom Systems
Nortel Networks
Qwest
Communications
SBC
Communications
WCI Cable
Internet2 International
Goals
Ensure global interoperability
• of the next generation of Internet
technologies and applications
Enable global collaboration
• in research and education
providing/promoting the development of an
advanced networking environment
internationally
International MoU Partners –
early summer 2001
AAIREP (Australia)
APAN (Asia-Pacific)
APAN-KR (Korea)
ARNES (Slovenia)
BELNET (Belgium)
CANARIE (Canada)
CARNET (Croatia)
CESnet (Czech Republic)
CERNET, CSTNET, NSFCNET (China)
CUDI (Mexico)
DANTE (Europe)
DFN-Verein (Germany)
GIP RENATER (France)
GRNET (Greece)
HEAnet (Ireland)
HUNGARNET (Hungary)
INFN-GARR (Italy)
Israel-IUCC (Israel)
JAIRC (Japan)
JUCC (Hong Kong)
NORDUnet (Nordic countries)
POL-34 (Poland)
RCCN (Portugal)
RedIRIS (Spain)
RESTENA (Luxembourg)
RETINA (Argentina)
REUNA (Chile)
RNP2 (Brazil)
SingAREN (Singapore)
Stichting SURF (Netherlands)
SWITCH (Switzerland)
TAnet2 (Taiwan)
TERENA (Europe)
JISC/UKERNA (UK)
Internet2 Network
Architecture
GigaPoP
One
GigaPoP
Two
Internet2
Backbone Networks
GigaPoP
Three
GigaPoP
Four
Network Architecture
Internet2 Interconnect
Cloud
University A
GigaPoP
One
Regional Network
University B
University C
Commercial
Internet
Connections
Internet2 Backbone
Networks
Donna Cox,
Robert Patterson, NCSA
Internet2 December
2003
10 Gigabits per second backbone
Optical transport capability
(Lambda) using DWDM
Flexible provisioning to support
point to point optical connection
Native IPv6 deployment
concurrent with IPv4
Internet2 International
connectivity
Internet2 backbone networks
have no non-US infrastructure
Primarily, our partners’ networks
pay to get to the US
NSF provides some funding for 3
international network projects
• TransPAC, EuroLink, MIRnet
126May
October
20012000
Abilene International
Peering
STTL
CA*net3, (AARnet)
APAN/TransPAC, Ca*net3, CERN, CERnet, IUCC,
NORDUnet, RENATER, REUNA, SURFnet, SingAREN,
SINET, TAnet2 , (ANSP, KOREN/KREONET2, RNP2)
OC12
TEN-155*,
JANET,
NORDUnet,
SURFnet
CA*net3
(HEAnet,
BELNET)
SNVA
GEMNET,
(SINET)
LOSA
SingAREN, SINET
CALREN2
CUDI
NYCM
UT El Paso
OC3-12
(CUDI)
* ARNES, BELNET, CARNET, CESnet, DFN, GRNET, HEAnet, RESTENA, SWITCH, HUNGARNET,
AmPATH
(REUNA, RNP2,
RETINA)
GARR-B, POL-34, RCCN, RedIRIS
AMPATH
•
•
•
•
•
•
•
•
•
•
Argentina
Brazil
Chile
Colombia
Costa Rica
Mexico
Panama
Peru
Puerto Rico
US Virgin
Islands
• Venezuela
Advanced Applications
•Health Science
•Veterinary Medical
•Arts and Humanties
•Digital Video
•Voice over IP
•Distributed Storage Infrastructure
Distributed Computing/Peer-to-peer
working group ??
apps.internet2.edu
Real-Time Tele-Operation
of Remote Equipment
North Carolina State University
Computerized
excavation backhoe

Remotely
operated, used in
hazardous
situations.

Quality of Service
is Guaranteed

http://CARL.ce.ncsu.edu/
Remote Instruments
Mauna Kea
Observatories
AURA
University of Hawaii
GEMINI
Chile
Distributed
Computation
Large Hadron
Collidor
CERN
CERN Photos
Caltech and CERN
Virtual Rooms
Videoconferencing
System  Worldwide videoconferencing service
and collaborative
environment

Web-based system
Averages 100
multipoint worldwide
sessions each month

http://www.vrvs.org/
Distributed Medical
Informatics Education
Oregon Health & Science University
and the University of Pittsburgh
http://www.ohsu.edu/bicc-informatics/
http://www.cbmi.upmc.edu/
Covers a broad
range of fields
including electronic
medical records and
information retrieval
 Distance learning
provides students
with access to
faculty, expertise,
and other students

Human Embryo
Development
George Mason University,
Oregon Health & Science University,
National Library of Medicine
http://www.nac.gmu.edu/visembryo.htm
http://www.ohsu.edu/chrc/
3-D visualizations
of human embryo
development
 Doctors can
manipulate data
remotely
 Animations of
embryo system
development for
students

Virtual Pelvic Floor
University of Illinois at Chicago
Provides 3-D
visualization of
complex anatomical
structures

Participants use
ImmersaDesk™
systems to interact
with 3-D anatomical
model

http://www.sbhis.uic.edu/vrml/Research/PelvicFloor/PelvicFloor.htm
Virtual Aneurysm
University of California at
Los Angeles
A simulation and
virtual reality
visualization of brain
blood flow

Researchers
examine critical flow
pattern and evaluate
simulated surgical
interventions

http://www.cs.ucla.edu/~dalee/radsci/
Anatomy and Surgery
Workbench and Local NGI
Testbed Network
Stanford University
School of Medicine
http://haiti.stanford.edu/~ngi/final/
Allows students to
learn anatomy and
practice surgery
techniques using 3-D
workstations
 Network testbed
evaluates the
effectiveness of
workbench
applications

Realistic, Life-Sized,
3D Tele-Immersion
Advanced Network & Services,
Brown University, University of North
Carolina, University of Pennsylvania
Brings together
geographically
distant participants
and shared virtual
objects

Tele-immersive
recreation of office
environment

http://www.cs.unc.edu/Research/stc/office/
Remote Mentoring and
Auditioning
New World Symphony
First orchestra to
become an Internet2
member

Distance coaching to
train musicians

Real-time, high-quality
audio and video

http://www.nws.org/
Teaching Music with
Advanced Network
Videoconferencing
University of Oklahoma
 Real-time
http://music.ou.edu/internet2/
interaction with the
world’s foremost
master teachers of
music
 Accurate
representation of
sound
 Supplement to
traditional music
teaching
The Orfeo Project
Peter Sparling Dance Company and
the University Musical Society
MPEG-2
videoconferencing
allowed interaction
between dancers,
choreographer, and
production personnel

Commissioners could
observe and discuss the
performance remotely

http://www.ums.org/
http://comnet.org/dancegallery/
Want More Info?
Ana Preston
[email protected]
Heather Boyles
[email protected]
www.internet2.edu/international
arena.internet2.edu
ARENA
• Atlas of
research and
education
network maps
• Contact
information
• Topology,
logical,
multicast, etc.
maps
• NSF-funded
Advanced Applications
Database
A project from the National Laboratory for
Applied Network Research
http://dast.nlanr.net/Clearinghouse/Query.htm
Upcoming events
•Fall 2001 Internet2 Member Meeting
1-4 October Austin, TX
•Collaborative Computing in Higher Education: Peerto-peer and Beyond
4-5 October Austin, TX
• Internet2 IPv6 Workshop
24-26 October Pittsburgh, PA
• Campus Focused Workshop on Advanced Networks
22-24 October Pittsburgh, PA
For most recent calendar of activities:
http://www.internet2.edu/calendar/main.php
Retos
- infrastructure (last mile and to the
desktop)
- END to END
-end-users/researchers: how to
engage
- tools and learning
- return on investment
- will it change my world?
- new paradigms (Napster anyone?)
www.internet2.edu