rfc1251.txt
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protocols and became very involved in the early stages of the
NSFNET networking efforts. He was Principal Investigator on
the NSFNET backbone project since the NSFNET award went to
Merit in November 1987 and managed Merit's Internet
Engineering group. Between April 1978 and April 1983 Hans-
Werner Braun worked at the Regional Computing Center of the
University of Cologne in West Germany on network engineering
responsibilities for the regional and local network.
In March 1978 Hans-Werner Braun graduated in West Germany and
holds a Diploma in Engineering with a major in Information
Processing. He is a member of the Association of Computing
Machinery (ACM) and its Special Interest Group on
Communications, the Institute of Electrical and Electronical
Engineers (IEEE) as well as the IEEE Computer Society and the
IEEE Communications Society and the American Association for
the Advancement of Science. He was a member of the National
Science Foundation's Network Program Advisory Group (NPAG)
and in particular its Technical Committee (NPAG-TC) between
November 1986 and late 1987, at which time the NPAG got
resolved. He also chaired the Technical Committee of the
National Science Foundation's Network Program Advisory Group
(NPAG-TC) starting in February 1987. Prior to the
organizational change of the JvNCnet he participated in the
JvNCnet Network Technical Advisory Committee (NTAC) of the
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John von Neumann National Supercomputer Center. While working
as Principal Investigator on the NSFNET project at Merit, he
chaired the NSFNET Network Technical Committee, created to
aid Merit with the NSFNET project. Hans-Werner Braun is a
member of the Engineering Planning Group of the Federal
Networking Council (FEPG) since its beginnings in early 1989,
a member of the Internet Activities Board (IAB), the Internet
Engineering Task Force. He had participated in an earlier,
informal, version of the Internet Engineering Steering Group
and the then existing Internet Architecture Task Force. While
at Merit, Hans-Werner Braun was also Principal Investigator
on NSF projects for the "Implementation and Management of
Improved Connectivity Between NSFNET and CA*net" and for
"Coordinating Routing for the NSFNET," the latter at the time
of the old 56kbps NSFNET backbone network that he was quite
intimately involved with.
------------
The growth of the Internet can be measured in many ways and I
can only try to find some examples.
o Network number counts
There were days where being "connected to net 10" was the
Greatest Thing Ever. A time where the Internet just
consisted of a few networks centered around the ARPAnet and
where growing above 100 network numbers seemed excessive.
Todays number of networks in the global infrastructure
exceeds 2000 connected networks, and many more if isolated
network islands get included.
o Traffic growth
The Internet has undergone a dramatic increase in traffic
over the last few years. The NSFNET backbone can be used as
an example here, where in August 1988 about 194 million
packets got injected into the network, which had increased to
about 396 million packets per month by the end of the year,
to reach about 4.8 billion packets in December 1990. January
1991 yielded close to 5.9 billion packets as sent into the
NSFNET backbone.
o Internet Engineering Task Force participation
The early IETF, after it spun off the old GADS, included
about 20 or so people. I remember a meeting a few people had
with Mike Corrigan several years ago. Mike then chaired the
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IETF before Phill Gross became chair and the discussion was
had about permitting the "NSFNET crowd" to join the IETF.
Mike finally agreed and the IETF started to explode in size,
now including many working groups and several hundred
members, including vendors and phone companies.
o International infrastructure
At some point of time the Internet was centric around the US
with very little international connectivity. The
international connectivity was for network research purposes,
just like the US domestic component at that point of time.
Today's Internet stretches to so many countries that it can
be considered close to global in scope, in particular as more
and more international connections to, as well as Internet
infrastructure within, other countries are happening.
o References in trade journals
Many trade journals just a year or two ago had close to no
mention of the Internet. Today references to the Internet
appear in many journals and press releases from a variety of
places.
o Articles in professional papers
Publications like ACM SIGCOMM show increased interest for
Internet related professional papers, compared to a few years
ago. Also the publication rate of the Request For Comments
(RFC) series is quite impressive.
o Congressional and Senatorial visibility
A few years ago the Internet was "just a research project."
Today's dramatically increased visibility in result of the
Internet success allows Congress as well as Senators to play
lead roles in pushing the National Research and Education
Network (NREN) agenda forward, which is also fostered by the
executive branch. In the context of the US federal government
the real credit should go to DARPA, though, for starting to
prototype advanced networking, leading to the Internet about
twenty years ago and over time opening it up more and more to
the science and research community until more operational
efforts were able to move the network to a real
infrastructure in support of science, research and education
at large. This really allowed NSF to make NSFNET happen.
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o Funding
The Internet funding initially consisted of DARPA efforts.
Agencies like NSF, NASA, DOE and others started to make major
contributions later. Industrial participation helped moving
the network forward as well. Very major investments have been
made by campuses and research institutions to create local
infrastructure. Operational infrastructure comes at a high
cost, especially if ubiquity, robustness and high performance
are required.
o Research and continued development
The Internet has matured from a network research oriented
environment to an operational infrastructure supporting
research, science and education at large. However, even
though for many people the Internet is an environment
supporting their day-to-day work, the Internet at its current
level of technology is supported by a culture of people that
cooperates in a largely non-competitive environment. Many
times already the size of the routing tables or the amount of
traffic or the insufficiency of routing exchange protocols,
just to name examples, have broken connectivity with many
people being interrupted in their day-to-day work. Global
Internet management and problem resolution further hamper
fast recovery from certain incidents. It is unproven that the
current technology will survive in a competitive but
unregulated environment, with uncoordinated routing policies
and global network management being just two of the major
issues here. Furthermore, while frequently comments are
being made where the publicly available monthly increases in
traffic figures would not justify moving to T3 or even
gigabit per second networks, it should be pointed out that
monthly figures are very macroscopic views. Much of the
Internet traffic is very bursty and we have frequently seen
an onslaught of traffic towards backbone nodes if one looks
at it over fairly short intervals of time. For example, for
specific applications that, perhaps in real-time, require an
occasional exchange of massive amounts of data. It is
important that we are prepared for more widespread use of
such applications, once people are able to use things more
sophisticated than Telnet, FTP and SMTP. I am not sure
whether the amount of research and development efforts on the
Internet has increased over time, less even kept pace with
the general Internet growth (by whatever definition). I do
not believe that the Internet is a finished product at this
point of time and there is a lot of room for further
evolution.
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4.3 Ross Callon, IETF OSI Integration Area Co-director
Ross Callon is a member of the Distributed Systems
Architecture staff at Digital Equipment Corporation in
Littleton Massachusetts. He is working on issues related to
OSI -- TCP/IP interoperation and introduction of OSI in the
Internet. He is the primary author of the Integrated IS-IS
protocol (RFC1195), and has also worked on guidelines for
allocation of NSAP addresses in the Internet. Mr Callon is
the co-area director for the OSI area of the IETF, chair of
the IETF IS-IS working group, and co-chair of the IETF OSI-
General working group.
Previous to joining DEC, Mr Callon was with Bolt Beranek and
Newman, where he worked on OSI Standards, Network Management,
Routing Protocols and other router-related issues.
Mr Callon received a Bachelor of Science degree in
Mathematics from the Massachusetts Institute of Technology,
and a Master of Science degree in Operations Research from
Stanford University.
------------
During eleven years of involvement with the Internet
community it has been exciting to see the explosive growth in
data communications from a relatively obscure technology to a
technology in widespread everyday use. For the future, I am
interested in transition to a world-wide multi-protocol
Internet. This requires scaling to several orders of
magnitude larger than the current Internet, and also requires
a greater emphasis on reliability and ease of use.
4.4 Dr. Vinton Cerf, IAB Chairman
1960-1965, summer jobs with various divisions of North
American Aviation (Now Rockwell International): Rocketdyne,
Atomics International, Autonetics, Space and Information
Systems Division.
1965-1967, systems engineer, IBM, Los Angeles Data Center.
Ran and maintained the QUIKTRAN interactive, on-line Fortran
service.
1967-1972, various programming positions at UCLA, largely
involved with ARPANET protocol development and network
measurement center and computer performance measurements.
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