A Brief
History of the Internet and Related Networks
Introduction
In 1973, the U.S. Defense
Advanced Research Projects Agency (DARPA) initiated a research program to
investigate techniques and technologies for interlinking packet networks of
various kinds. The objective was to develop communication protocols which
would allow networked computers to communicate transparently across multiple,
linked packet networks. This was called the Internetting project and the system
of networks which emerged from the research was known as the "Internet." The
system of protocols which was developed over the course of this research effort
became known as the TCP/IP Protocol Suite, after the two initial protocols
developed: Transmission Control Protocol (TCP) and Internet Protocol (IP).
In 1986, the U.S. National
Science Foundation (NSF) initiated the development of the NSFNET which, today,
provides a major backbone communication service for the Internet. With its
45 megabit per second facilities, the NSFNET carries on the order of 12 billion
packets per month between the networks it links. The National Aeronautics
and Space Administration (NASA) and the U.S. Department of Energy contributed
additional backbone facilities in the form of the NSINET and ESNET respectively.
In Europe, major international backbones such as NORDUNET and others provide
connectivity to over one hundred thousand computers on a large number of networks.
Commercial network providers in the U.S. and Europe are beginning to offer
Internet backbone and access support on a competitive basis to any interested
parties.
"Regional" support for
the Internet is provided by various consortium networks and "local" support
is provided through each of the research and educational institutions. Within
the United States, much of this support has come from the federal and state
governments, but a considerable contribution has been made by industry. In
Europe and elsewhere, support arises from cooperative international efforts
and through national research organizations. During the course of its evolution,
particularly after 1989, the Internet system began to integrate support for
other protocol suites into its basic networking fabric. The present emphasis
in the system is on multiprotocol interworking, and in particular, with the
integration of the Open Systems Interconnection (OSI) protocols into the architecture.
Both public domain and
commercial implementations of the roughly 100 protocols of TCP/IP protocol
suite became available in the 1980's. During the early 1990's, OSI protocol
implementations also became available and, by the end of 1991, the Internet
has grown to include some 5,000 networks in over three dozen countries, serving
over 700,000 host computers used by over 4,000,000 people.
A great deal of support
for the Internet community has come from the U.S. Federal Government, since
the Internet was originally part of a federally-funded research program and,
subsequently, has become a major part of the U.S. research infrastructure.
During the late 1980's, however, the population of Internet users and network
constituents expanded internationally and began to include commercial facilities.
Indeed, the bulk of the system today is made up of private networking facilities
in educational and research institutions, businesses and in government organizations
across the globe.
The Coordinating Committee
for Intercontinental Networks (CCIRN), which was organized by the U.S. Federal
Networking Council (FNC) and the European Reseaux Associees pour la Recherche
Europeenne (RARE), plays an important role in the coordination of plans for
government- sponsored research networking. CCIRN efforts have been a stimulus
for the support of international cooperation in the Internet environment.
Internet Technical Evolution
Over its fifteen year
history, the Internet has functioned as a collaboration among cooperating
parties. Certain key functions have been critical for its operation, not the
least of which is the specification of the protocols by which the components
of the system operate. These were originally developed in the DARPA research
program mentioned above, but in the last five or six years, this work has
been undertaken on a wider basis with support from Government agencies in
many countries, industry and the academic community. The Internet Activities
Board (IAB) was created in 1983 to guide the evolution of the TCP/IP Protocol
Suite and to provide research advice to the Internet community.
During the course of
its existence, the IAB has reorganized several times. It now has two primary
components: the Internet Engineering Task Force and the Internet Research
Task Force. The former has primary responsibility for further evolution of
the TCP/IP protocol suite, its standardization with the concurrence of the
IAB, and the integration of other protocols into Internet operation (e.g.
the Open Systems Interconnection protocols). The Internet Research Task Force
continues to organize and explore advanced concepts in networking under the
guidance of the Internet Activities Board and with support from various government
agencies.
A secretariat has been
created to manage the day-to-day function of the Internet Activities Board
and Internet Engineering Task Force. IETF meets three times a year in plenary
and its approximately 50 working groups convene at intermediate times by electronic
mail, teleconferencing and at face-to-face meetings. The IAB meets quarterly
face-to-face or by videoconference and at intervening times by telephone,
electronic mail and computer-mediated conferences.
Two other functions are
critical to IAB operation: publication of documents describing the Internet
and the assignment and recording of various identifiers needed for protocol
operation. Throughout the development of the Internet, its protocols and other
aspects of its operation have been documented first in a series of documents
called Internet Experiment Notes and, later, in a series of documents called
Requests for Comment (RFCs). The latter were used initially to document the
protocols of the first packet switching network developed by DARPA, the ARPANET,
beginning in 1969, and have become the principal archive of information about
the Internet. At present, the publication function is provided by an RFC editor.
The recording of identifiers
is provided by the Internet Assigned Numbers Authority (IANA) who has delegated
one part of this responsibility to an Internet Registry which acts as a central
repository for Internet information and which provides central allocation
of network and autonomous system identifiers, in some cases to subsidiary
registries located in various countries. The Internet Registry (IR) also provides
central maintenance of the Domain Name System (DNS) root database which points
to subsidiary distributed DNS servers replicated throughout the Internet.
The DNS distributed database is used, inter alia, to associate host and network
names with their Internet addresses and is critical to the operation of the
higher level TCP/IP protocols including electronic mail.
There are a number of
Network Information Centers (NICs) located throughout the Internet to serve
its users with documentation, guidance, advice and assistance. As the Internet
continues to grow internationally, the need for high quality NIC functions
increases. Although the initial community of users of the Internet were drawn
from the ranks of computer science and engineering, its users now comprise
a wide range of disciplines in the sciences, arts, letters, business, military
and government administration.
Related Networks
In 1980-81, two other
networking projects, BITNET and CSNET, were initiated. BITNET adopted the
IBM RSCS protocol suite and featured direct leased line connections between
participating sites. Most of the original BITNET connections linked IBM mainframes
in university data centers. This rapidly changed as protocol implementations
became available for other machines. From the beginning, BITNET has been multi-disciplinary
in nature with users in all academic areas. It has also provided a number
of unique services to its users (e.g., LISTSERV). Today, BITNET and its parallel
networks in other parts of the world (e.g., EARN in Europe) have several thousand
participating sites. In recent years, BITNET has established a backbone which
uses the TCP/IP protocols with RSCS-based applications running above TCP.
CSNET was initially funded
by the National Science Foundation (NSF) to provide networking for university,
industry and government computer science research groups. CSNET used the Phonenet
MMDF protocol for telephone-based electronic mail relaying and, in addition,
pioneered the first use of TCP/IP over X.25 using commercial public data networks.
The CSNET name server provided an early example of a white pages directory
service and this software is still in use at numerous sites. At its peak,
CSNET had approximately 200 participating sites and international connections
to approximately fifteen countries.
In 1987, BITNET and CSNET
merged to form the Corporation for Research and Educational Networking (CREN).
In the Fall of 1991, CSNET service was discontinued having fulfilled its important
early role in the provision of academic networking service. A key feature
of CREN is that its operational costs are fully met through dues paid by its
member organizations.
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