📄 rfc1336.txt
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guidelines for allocation of NSAP addresses in the Internet (RFC 1237). 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. Probably our greatest challenge is to create a system which "ordinary people" can use with the reliability and ease of the current telephone system.Malkin [Page 10]
RFC 1336 Who's Who May 1992 4.5 Dr. Vinton Cerf, IAB Member 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. 1972-1976, Assistant Professor of Computer Science and Electrical Engineering, Stanford University. Did research on networking, developed TCP/IP protocols for internetting under DARPA research grant. 1976-1982, Program Manager and Principal Scientist, Information Processing Techniques Office, DARPA. Managed the Internetting, Packet Technology and Network Security programs. 1982-1986, Vice President of Engineering, MCI Digital Information Services Company. Developed MCI Mail system. 1986-present, Vice President, Corporation for National Research Initiatives. Responsible for Internet, Digital Library and Electronic Mail system interconnection research programs. Stanford University, 1965 (math) B.S. UCLA, 1970, 1972 (computer science) M.S. and Ph.D. 1972-1976, founding chairman of the International Network Working Group (INWG) which became IFIP Working Group 6.1. 1979-1982, ex officio member of ICCB (predecessor to the Internet Activities Board), member of IAB from 1986-1989 and chairman from 1989-1991. 1967-present, member of ACM; chairman of LA SIGART 1968-1969; chairman ACM SIGCOMM 1987-1991; at-large member ACM Council, 1991-1993. 1972-present, member of Sigma Xi.Malkin [Page 11]
RFC 1336 Who's Who May 1992 1977-present, member of IEEE; Fellow, 1988. ------------ The Internet started as a focused DARPA research effort to develop a capability to link computers across multiple, internally diverse packet networks. The successful evolution of this technology through 4 versions, demonstration on ARPANET, mobile packet radio nets, the Atlantic SATNET and at-sea MATNET provided the basis for formal mandating of the TCP/IP protocols for use on ARPANET and other DoD systems in 1983. By the mid-1980's, a market had been established for software and hardware supporting these protocols, largely triggered by the Ethernet and other LAN phenomena, coupled with the rapid proliferation of UNIX-based systems which incorporated the TCP/IP protocols as part of the standard release package. Concurrent with the development of a market and rapid increase in vendor interest, government agencies in addition to DoD began applying the technology to their needs, culminating in the formation of the Federal Research Internet Coordinating Committee which has now evolved into the Federal Networking Council, in the U.S. At the same time, similar rapid growth of TCP/IP technology application is occurring outside the US in Europe, the Middle East, the Pacific Rim, Eurasia, Australia, South and Central America and, to a limited extent, Africa. The internationalization of the Internet has spawned new organizational foci such as the Coordinating Committee for International Research Networking (CCIRN) and heightened interest in commercial provision of IP services (e.g., in Finland, the U.S., the U.K. and elsewhere). The Internet has also become the basis for a proposed National Research and Education Network (NREN) in the U.S. It's electronic messaging system has been linked to the major U.S. commercial email carriers and to other major private electronic mail services such as Bitnet (in the US, EARN in Europe) as well as UUNET (in the U.S.) and EUNET (in Europe). The Bitnet and UUCP-based systems are international in scope and complement the Internet system in terms of email connectivity. With the introduction of OSI capability (in the form of CLNP) into important parts of the Internet (such as the NSFNET backbone and selected intermediate level networks), a path has been opened to support the use of multiple protocol suites in the Internet. Many of the vendor routers/gateways support TCP/IP, OSI and a variety of vendor-specificMalkin [Page 12]
RFC 1336 Who's Who May 1992 protocols in a common network environment. In the U.S., regional Bell Operating Company carriers are planning the introduction of Switched Multimegabit Data Services and Frame Relay services which can support TCP/IP and other Internet protocols. On the research side, DARPA and the NSF are supporting a major initiative in gigabit speed networking, towards which the NREN is aimed. The Internet is a grand collaboration of over 5000 networks involving millions of users, hundreds of thousands of hosts and dozens of countries around the world. It may well do for computers what the telephone system has done for people: provided a means for international interchange of information which is blind to nationality, proprietary interests, and hardware platform specifics. 4.6 Noel Chiappa, IETF Internet Area Co-director Noel Chiappa is currently an independent inventor working in the area of computer networks and system software. His principal occupation, however, is his service as the Internet Area Co-director for the Internet Engineering Steering Group of the Internet Engineering Task Force. His primary current research interest is in the area of routing and addressing architectures for very large scale (globally ubiquitous and larger) internetworks, but he is generally interested in the problems of the packet layer of internetworking; i.e., everything involved in getting traffic from one host to another anywhere in the internetwork. As a 'spare time amusement' project, he is also writing a C compiler with many novel features intended for use in large programming projects with many source and header files. He has been a member of the TCP/IP Working Group and its successors (up to the IETF) since 1977. He was a member of the Research Staff at the Massachusetts Institute of Technology from 1977-1982 and 1984-1986. While at MIT he worked on packet switching and local area networks, and was responsible for the conception of the multi-protocol backbone and the multi-protocol router. After leaving MIT he worked with a number of companies, including Proteon, to bring networking products based on work done at MIT to the public. He attended Phillips Andover Academy and MIT. He was born and bred in Bermuda. His outside interests include study and collection of antiqueMalkin [Page 13]
RFC 1336 Who's Who May 1992 racing cars (principally Lotuses), reading (particularly political and military history and biographies), landscape gardening (particularly Japanese), and study of Oriental rugs (particularly Turkoman tribal rugs) and Oriental antiques (particularly Japanese lacquerware and Chinese archaic jades). 4.7 A. Lyman Chapin, IAB Chairman Lyman Chapin graduated from Cornell University in 1973 with a B.A. in Mathematics, and spent the next two years writing COBOL applications for Systems & Programs (NZ) Ltd. in Lower Hutt, New Zealand. After a year travelling in Australia and Asia, he joined the newly-formed Networking group at Data General Corporation in 1977. At DG, he was responsible for the development of software for distributed resource management (operating-system embedded RPC), distributed database management, X.25-based local and wide- area networks, and OSI-based transport, internetwork, and routing functions for DG's open-system products. In 1987 he formed the Distributed Systems Architecture group, and was responsible for the development of DG's Distributed Application Architecture (DAA) and for the specification of the directory and management services of DAA. He moved to Bolt, Beranek & Newman in 1990 as the Chief Network Architect in BBN's Communications Division, where he serves as a consultant to the Systems Architecture group and the coordinator for BBN's open system standards activities. He is the chairman of ANSI-accredited task group X3S3.3, responsible for Network and Transport layer standards, since 1982; chairman of the ACM Special Interest Group on Data Communications (SIGCOMM) since July of 1991; and chairman of the Internet Activities Board (IAB), of which he has been a member since 1989. He lives with his wife and two young daughters in Hopkinton, Massachusetts. ------------ I started out in 1977 working with X.25 networks, and began working on OSI in 1979 - first the architecture (the OSI Reference Model), and then the transport, internetwork, and routing protocol specifications. It didn't take long to recognize the basic irony of OSI standards development: there we were, solemnly anointing international standards for networking, and every time we needed to send electronic mail or exchange files, we were using the TCP/IP-based Internet! I've been looking for ways to overcome this anomaly ever since; to inject as much of the proven TCP/IP technologyMalkin [Page 14]⌨️ 快捷键说明
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