Example:-
Using all the technology available, companies
were able to team up with the phone company and tie branch
offices to the headquarters. The speeds of data transfer were
often slow and were still dependent on the speed and capacity
of the host computers at the headquarters site.
The phone company was also able to offer
leased line and dial-up options. With leased-lines, companies
paid for a continuous connection to the host computer. Companies
using dial-up connections paid only for time used. Dial-up
connections were perfect for the small office or branch.
Birth of the personal computer
The birth of the personal computer in 1981
really fueled the explosion of the networking marketplace.
No longer were people dependent on a mainframe for applications,
file storage, processing, or printing. The PC gave users incredible
freedom and power.
The Internet 1970's - 1980's
The 70’s and 80’s saw the beginnings
of the Internet. The Internet as we know it today began as
the ARPANET — The Advanced Research Projects Agency
Network – built by a division of the Department of Defense
essentially in the mid ‘60's through grant-funded research
by universities and companies. The first actual packet-switched
network was built by BBN. It was used by universities and
the federal government to exchange information and research.
Many local area networks connected to the ARPANET with TCP/IP.
TCP/IP was developed in 1974 and stands for Transmission Control
Protocol / Internet Protocol. The ARPANET was shut down in
1990 due to newer network technology and the need for greater
bandwidth on the backbone.
In the late ‘70’s the NSFNET, the National Science Foundation Network was developed. This network relied on super computers in San Diego; Boulder; Champaign; Pittsburgh; Ithaca; and Princeton. Each of these six super computers had a microcomputer tied to it which spoke TCP/IP. The microcomputer really handled all of the access to the backbone of the Internet. Essentially this network was overloaded from the word "go".
Further developments in networking lead to the design of the ANSNET -- Advanced Networks and Services Network. ANSNET was a joint effort by MCI, Merit and IBM specifically for commercial purposes. This large network was sold to AOL in 1995. The National Science Foundation then awarded contracts to four major network access providers: Pacific Bell in San Francisco, Ameritech in Chicago, MFS in Washington DC and Sprint in New York City. By the mid ‘80's the collection of networks began to be known as the “Internet” in university circles. TCP/IP remains the glue that holds it together.
In January 1992 the Internet Society was formed – a misleading name since the Internet is really a place of anarchy. It is controlled by those who have the fastest lines and can give customers the greatest service today.
The primary Internet-related applications used today include: Email, News retrieval, Remote Login, File Transfer and World Wide Web access and development.
In the late ‘70’s the NSFNET, the National Science Foundation Network was developed. This network relied on super computers in San Diego; Boulder; Champaign; Pittsburgh; Ithaca; and Princeton. Each of these six super computers had a microcomputer tied to it which spoke TCP/IP. The microcomputer really handled all of the access to the backbone of the Internet. Essentially this network was overloaded from the word "go".
Further developments in networking lead to the design of the ANSNET -- Advanced Networks and Services Network. ANSNET was a joint effort by MCI, Merit and IBM specifically for commercial purposes. This large network was sold to AOL in 1995. The National Science Foundation then awarded contracts to four major network access providers: Pacific Bell in San Francisco, Ameritech in Chicago, MFS in Washington DC and Sprint in New York City. By the mid ‘80's the collection of networks began to be known as the “Internet” in university circles. TCP/IP remains the glue that holds it together.
In January 1992 the Internet Society was formed – a misleading name since the Internet is really a place of anarchy. It is controlled by those who have the fastest lines and can give customers the greatest service today.
The primary Internet-related applications used today include: Email, News retrieval, Remote Login, File Transfer and World Wide Web access and development.
1990's Globle Internetworking
With the growth and development of the Internet
came the need for speed – and bandwidth. Companies want
to take advantage of the ability to move information around
the world quickly. This information comes in the form of voice,
data and video – large files which increase the demands
on the network. In the future, global internetworking will
provide an environment for emerging applications that will
require even greater amounts of bandwidth. If you doubt the
future of global internetworking consider this – the
Internet is doubling in size about every 11 months.
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