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==Early history==
==Early history==
===AARANET===
===ARPANET===
[[File:Arpa logo.jpg|left|200px]]
[[File:Arpa logo.jpg|left|200px]]
The Advanced Research Projects Agency Network, better known as ARPANET, was the first network of interconnected computers that would lead to the internet.  
In [[1958]], U.S. President Dwight D. Eisenhower formed the Advanced Research Projects Agency, or ARPA. .  


In 1969, the first computers were connected by the United States Advanced Research Projects Agency, or ARPA.  
The ARPANET began to take form in [[1969]], when the first computers were connected by the scientists at ARPA.  


The Network Control Program was implemented in 1970 and it became fully operational in 1971.  
This network was the first system of interconnected computers, and would lead to the formation of the internet.


ARPA was renamed Defense Advanced Research Projects Agency, or DARPA, in 1972.
The Network Control Program was implemented in [[1970]] and it became fully operational in [[1971]].
 
ARPA was renamed Defense Advanced Research Projects Agency, or DARPA, in [[1972]].


===TCP/IP===
===TCP/IP===
The Transmission Control Protocol was implemented in 1974 and the network expanded rapidly. Remote login, file transfer, and email were added shortly afterward. The Defense Communications Agency assumed operational control in 1975.
The Transmission Control Protocol was implemented in [[1974]] and the network expanded rapidly. Remote login, file transfer, and email were added shortly afterward. The Defense Communications Agency assumed operational control in [[1975]].


In 1978, the third version of the network protocol was split into two parts, forming TCP/IP. The Transmission Control Protocol was the connection-oriented service and the Internet Protocol was the connectionless layer.
In [[1978]], the third version of the network protocol was split into two parts, forming TCP/IP or the Internet Protocol Suite. The Transmission Control Protocol was the connection-oriented service and the Internet Protocol was the connectionless layer.


===Unix-to-Unix Copy===
===Unix-to-Unix Copy===
Unix-to-Unix Copy, or UUCP, was developed at [[Nokia Bell Labs|AT&T Bell Laboratories]] by [[Mike Lesk]] in 1977. By 1978, eighty-two computers within AT&T Bell Labs were connected via UUCP.
Unix-to-Unix Copy, or UUCP, was developed at [[Nokia Bell Labs|AT&T Bell Laboratories]] by [[Mike Lesk]] in [[1977]]. By [[1978]], eighty-two computers within AT&T Bell Labs were connected via UUCP.
 
UUCP could be used over a phone connection or through TCP/IP.


===CSNET===
===CSNET===
[[File:CSNET logo.png|left|200px]]
[[File:CSNET logo.png|left|200px]]
In 1981, the United States National Science Foundation, or NSF, launched the Computer Science Network, also known as CSNET.  
In [[1981]], the United States National Science Foundation, or NSF, launched the Computer Science Network, also known as CSNET.  


This greatly expanded access as it was created for sites that couldn't connect to the ARPANET due to a shortage of funding or difficulty in obtaining authorization.
This greatly expanded access as it was created for sites that couldn't connect to the ARPANET due to a shortage of funding or difficulty in obtaining authorization.
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===BITNET===
===BITNET===
[[File:BITNET logo.png|left|200px]]
[[File:BITNET logo.png|left|200px]]
In 1981, [[Ira Fuchs]] at the City University of New York and [[Greydon Freeman]] at Yale University founded BITNET. BITNET originally stood for "Because It's There Network", but it was later changed to mean "Because It's Time Network".
In [[1981]], [[Ira Fuchs]] at the City University of New York and [[Greydon Freeman]] at Yale University founded BITNET. BITNET originally stood for "Because It's There Network", but it was later changed to mean "Because It's Time Network".


A college or university that was part of BITNET leased a phone line from an existing BITNET node. The university side constituted one side of a data circuit and the connecting point into BITNET constituted the other end. Modems were required for both ends of the data circuit. The data would be sent from one of the connecting point sites and other institutions would connect to its site free of charge.
A college or university that was part of BITNET leased a phone line from an existing BITNET node. The university side constituted one side of a data circuit and the connecting point into BITNET constituted the other end. Modems were required for both ends of the data circuit. The data would be sent from one of the connecting point sites and other institutions would connect to its site free of charge.


===EUnet===
===EUnet===
EUnet, which initially stood for European Unix Network, was a group of loosely connected computers that were connected in 1982 through the European UNIX Users Group and the first international UUCP connections.
EUnet, which initially stood for European Unix Network, was a group of loosely connected computers that were connected in [[1982]] through the European UNIX Users Group and the first international UUCP connections.


mcvax was a computer in the Netherlands that connected to computers within EUNet in 1982 and to international connections through UUCP beginning in 1983. It was the international backbone node of EUnet.
mcvax was a computer in the Netherlands that connected to computers within EUNet in 1982 and to international connections through UUCP beginning in [[1983]]. It was the international backbone node of EUnet.


===Launch of SDN in South Korea===
===Launch of SDN in South Korea===
On May 15, 1982, the TCP/IP network known as the SDN was launched in South Korea. SDN originally stood for Software Development Network, but this was later changed to System Development Network. The first computers to be hooked up to the South Korean network were a computer at the Department of Computer Science at Seoul National University and a computer at the Korea Institute of Electronics Technology in Gumi.
On May 15, 1982, the TCP/IP network known as the SDN was launched in South Korea. SDN originally stood for Software Development Network, but this was later changed to System Development Network. The first computers to be hooked up to the South Korean network were a computer at the Department of Computer Science at Seoul National University and a computer at the Korea Institute of Electronics Technology in Gumi.


A computer at the Korea Advanced Institute of Science and Technology was connected to the SDN in January 1983. In August 1983, SDN connected to mcvax in the Netherlands through UUCP. SDN connected to the CSNet in December 1984.
A computer at the Korea Advanced Institute of Science and Technology was connected to the SDN in January 1983. In August 1983, SDN connected to mcvax in the Netherlands through UUCP. SDN connected to the CSNet in December [[1984]].


===Seperation of US Military access from ARPANET===
===Seperation of US Military access from ARPANET===
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The National Science Foundation of the United States aimed to create a network.
The National Science Foundation of the United States aimed to create a network.


This network expanded access beyond that of the CSNET.
This network expanded access beyond that of CSNET.


This network was designed for researchers to access information.
This network was designed for researchers to access information.
Line 65: Line 69:
This information was stored on supercomputers operated by the NSF in the United States.
This information was stored on supercomputers operated by the NSF in the United States.


The National Science Foundation Network, or NSFNET, went live in 1985.
The National Science Foundation Network, or NSFNET, went live in [[1985]].


It used the technology created by DARPA for the ARPANET.
It used the technology created by DARPA for the ARPANET.
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===Shutdown of ARPANET and CSNET===
===Shutdown of ARPANET and CSNET===
Although the military access was separated from ARPANET, it remained for research purposes until it was decommissioned on February 28, 1990. After the decommissioning of ARPANET, some Interface Message Processor packet-switching nodes remained operational as late as July 1990.
Although the military access was separated from ARPANET, it remained for research purposes until it was decommissioned on February 28, [[1990]]. After the decommissioning of ARPANET, some Interface Message Processor packet-switching nodes remained operational as late as July 1990.
 
As the closure of the ARPANET and the success of the NSFNET left the CSNET services redundant, the CSNET was shut down in October [[1991]].
 
===Shutdown of BITNET and NSFNET===
With the release of the World Wide Web to the public, it became the primary means by which people worldwide interact on the internet.  


As the closure of the ARPANET and the success of the NSFNET left the CSNET services redundant, the CSNET was shut down on October 1991.
Thus, the remaining legacy networks became redundant. NSFNET shut down in [[1995]] and BITNET shut down in [[1996]].


===World Wide Web===
==World Wide Web==
[[File:WWW logo.png|200px|left]]
[[File:WWW logo.png|200px|left]]
The World Wide Web, abbreviated as WWW and commonly known simply as the web, was launched in 1991.  
The World Wide Web, abbreviated as WWW and commonly known simply as the Web, was launched in 1991.  


Using a [[web browser]], audio and visual resources can be accessed on [[website]]s.  
Using a [[web browser]], audio and visual resources can be accessed on [[website]]s.  
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The World Wide Web was released to research institutions outside CERN beginning in January 1991.
The World Wide Web was released to research institutions outside CERN beginning in January 1991.


It was released to the general public in August 1991.
It was released to the general public in August 1991. It quickly became the most widely used method to access the internet.
 
===Shutdown of BITNET and NSFNET===
With the release of the World Wide Web to the public, it became the primary means by which people worldwide interact on the internet.
 
Thus, the remaining legacy networks became redundant. BITNET shut down in 1996 and NSFNET shut down in 1995.


[[Category:Computer networks]]
[[Category: Computer networks]]

Latest revision as of 02:11, 23 July 2024

Internet logo.jpg
Internet
Developer
Publisher
Released 1969-1990 (ARPANET)
1981-1991 (CSNET)
1981-1996 (BITNET)
1985-1995 (NSFNET)
1991-present (World Wide Web)
Added to
Museum

The internet is a global computer network that uses the internet protocol suite (TCP/IP) to communicate between networks and devices.

Early history

ARPANET

Arpa logo.jpg

In 1958, U.S. President Dwight D. Eisenhower formed the Advanced Research Projects Agency, or ARPA. .

The ARPANET began to take form in 1969, when the first computers were connected by the scientists at ARPA.

This network was the first system of interconnected computers, and would lead to the formation of the internet.

The Network Control Program was implemented in 1970 and it became fully operational in 1971.

ARPA was renamed Defense Advanced Research Projects Agency, or DARPA, in 1972.

TCP/IP

The Transmission Control Protocol was implemented in 1974 and the network expanded rapidly. Remote login, file transfer, and email were added shortly afterward. The Defense Communications Agency assumed operational control in 1975.

In 1978, the third version of the network protocol was split into two parts, forming TCP/IP or the Internet Protocol Suite. The Transmission Control Protocol was the connection-oriented service and the Internet Protocol was the connectionless layer.

Unix-to-Unix Copy

Unix-to-Unix Copy, or UUCP, was developed at AT&T Bell Laboratories by Mike Lesk in 1977. By 1978, eighty-two computers within AT&T Bell Labs were connected via UUCP.

UUCP could be used over a phone connection or through TCP/IP.

CSNET

CSNET logo.png

In 1981, the United States National Science Foundation, or NSF, launched the Computer Science Network, also known as CSNET.

This greatly expanded access as it was created for sites that couldn't connect to the ARPANET due to a shortage of funding or difficulty in obtaining authorization.

The fourth version of the TCP/IP internet protocol suite was implemented in January 1983. It was installed on the CSNET and the ARPANET after the United States Department of Defense made it standard in all military computer networking.

BITNET

BITNET logo.png

In 1981, Ira Fuchs at the City University of New York and Greydon Freeman at Yale University founded BITNET. BITNET originally stood for "Because It's There Network", but it was later changed to mean "Because It's Time Network".

A college or university that was part of BITNET leased a phone line from an existing BITNET node. The university side constituted one side of a data circuit and the connecting point into BITNET constituted the other end. Modems were required for both ends of the data circuit. The data would be sent from one of the connecting point sites and other institutions would connect to its site free of charge.

EUnet

EUnet, which initially stood for European Unix Network, was a group of loosely connected computers that were connected in 1982 through the European UNIX Users Group and the first international UUCP connections.

mcvax was a computer in the Netherlands that connected to computers within EUNet in 1982 and to international connections through UUCP beginning in 1983. It was the international backbone node of EUnet.

Launch of SDN in South Korea

On May 15, 1982, the TCP/IP network known as the SDN was launched in South Korea. SDN originally stood for Software Development Network, but this was later changed to System Development Network. The first computers to be hooked up to the South Korean network were a computer at the Department of Computer Science at Seoul National University and a computer at the Korea Institute of Electronics Technology in Gumi.

A computer at the Korea Advanced Institute of Science and Technology was connected to the SDN in January 1983. In August 1983, SDN connected to mcvax in the Netherlands through UUCP. SDN connected to the CSNet in December 1984.

Seperation of US Military access from ARPANET

In September 1984, the ARPANET was restructured. Some United States military sites were given access to unclassified military material through a network known as MILNET. The remaining structure of ARPANET remained for civil purposes, reducing the number of nodes from 113 to 47.

NSFNET

NSFNET logo.jpg

The National Science Foundation Network was a network that was abbreviated NSFNET.

The National Science Foundation of the United States aimed to create a network.

This network expanded access beyond that of CSNET.

This network was designed for researchers to access information.

This information was stored on supercomputers operated by the NSF in the United States.

The National Science Foundation Network, or NSFNET, went live in 1985.

It used the technology created by DARPA for the ARPANET.

This included the TCP/IP protocol, remote login, file transfer, and email.

Shutdown of ARPANET and CSNET

Although the military access was separated from ARPANET, it remained for research purposes until it was decommissioned on February 28, 1990. After the decommissioning of ARPANET, some Interface Message Processor packet-switching nodes remained operational as late as July 1990.

As the closure of the ARPANET and the success of the NSFNET left the CSNET services redundant, the CSNET was shut down in October 1991.

Shutdown of BITNET and NSFNET

With the release of the World Wide Web to the public, it became the primary means by which people worldwide interact on the internet.

Thus, the remaining legacy networks became redundant. NSFNET shut down in 1995 and BITNET shut down in 1996.

World Wide Web

WWW logo.png

The World Wide Web, abbreviated as WWW and commonly known simply as the Web, was launched in 1991.

Using a web browser, audio and visual resources can be accessed on websites.

It was invented by Tim Berners-Lee at CERN in 1989.

The first web browser, WorldWideWeb, later renamed Nexus, was first released on December 25, 1990.

The World Wide Web was released to research institutions outside CERN beginning in January 1991.

It was released to the general public in August 1991. It quickly became the most widely used method to access the internet.