Published On:Sunday, 27 November 2011
Posted by Muhammad Atif Saeed
Introduction to the Internet
Introduction to the Internet |
During the Last Lecture
(Computer Networks)
We looked at the role of networks in computingWe looked at several different types of networks
We familiarized ourselves with networking topologies and protocols
Computer Network
Multiple computers that are connected together to share information and other resourcesTypes of Computer Networks according to the network access policy
Private
Public
Types of Computer Networks
according to the distance between nodes
LAN: Local Area NetworkWAN: Wide Area Network
Network Topologies
The pattern in which computers are connected to form a networkPopular patterns:
–Point-to-point–Star
–Bus
–Ring
Networks are also formed by combining 2 or more of these 4 basic patterns
Networking Protocols
Networks use protocols, or rules, to exchange information through shared channels. These protocolsprevent collisions of data caused by simultaneous transmission between two or more computers. Several
protocols are available for various types of networks. Here we discuss two that are popular for LANs:
Ethernet; Token Ring
Types of Communication Channels
WireWireless
Wireless (Radio) LANs Are Becoming Popular
Today’s Goal:
Introduction to the Internet
To become able to appreciate the role of the Internet in today’s computingTo become familiar with the history and evolution of the Internet
an accident!
•This car was involved in that accident
It belongs to … Mr. Tom Peters of Palo Alto, CaliforniaKey benefits:
– Set-up time
– Set-up cost
– Maintenance cost
– Cost
Key challenges:
– Security & privacy
– Quality of service
– Cost
After the accident, Mr. Peters …
filled out a form, giving info about:Himself
–The circumstances of the accident
–Estimated repair expenses
& then …
1/ 7
• Mr. Peters’s fax machine
2/ 7
ACME Insurance Group’s server in New York
3/ 7
Kim eServices (Pvt) Ltd’s server at Davis Rd, Lahore
4/ 7
Claims processing in Lahore
5/ 7
Kim eServices (Pvt) Ltd’s server at Davis Rd, Lahore
6/ 7
ACME Insurance Group’s server in New York
7/ 7
Mr. Peters’s home PC
Key Question!
Why process the insurance claim in Pakistan?Answer: Everybody Wins!
Tom PetersACME Insurance
Kim eServices
Answer: Everybody Wins!
Tom PetersACME Insurance
Kim eServices
Answer: Everybody Wins!
Tom Peters
ACME Insurance
Kim eServices
Answer: Everybody Wins!
Tom PetersACME Insurance
Lower premium
&
Quicker turnaround
Better margins due to 50% saving
on claim processing costs
Internal rate of return (IRR)
of 60-80%
Kim eServices
The Key Point …
Kim eServices (Pvt) Ltd is …
… supplying a service
… using local, attractively-priced workers
… to a remote, overseas client
… over the Internet … & making good money in the process!
Internet
Enables users located at far-way locations to easily share information with others located all over theworld
Enables users to easily and inexpensively communicate with others located all over the world
Enables the users to operate and run programs on computers located all over the world
The Internet is unlike any previous human invention. It is a world-wide resource, accessible to all of the
humankind.
Internet Users Worldwide
673M in 20021B+ in 2005
(48% wireless)
1.2M Internet users in Pakistan in 5/2000
(1% of population)
In early 2002,
54% of Australian population
51% of Singaporean population
39% of Japanese population
3% of Chinese population
Key Characteristics
Geographic DistributionGlobal - reaches around the world
Robust Architecture
Adapts to damage and error
Speed
Data can travels at near ‘c’ on copper, fiber, airwaves
Key Characteristics
Universal AccessSame functionality to everyone
Growth Rate
The fastest growing technology ever
Freedom of Speech
Promotes freedom of speech
The Digital Advantage
Is digital: can correct errors
28.1 Internet: Network of Networks
A large number of networks, interconnected physically
Capable of communicating and sharing data with each other
From the user’s point view, Internet – a collection of interconnected networks – looks like a single,
unified network
28.2 Internet Networking Protocols
Communications on the Internet is controlled by a set of two protocols: TCP and IPTCP/IP Transmission Control Protocol/Internet Protocol
Networking protocol used by all computers and networks on the Internet
Originally developed by the US DoD for Unix, but now available for most other OSes
TCP breaks down the message to be sent over the Internet into packets
IP routes these packets through the Internet to get them to their destination
When the packets reach the destination computer, TCP reassembles them into the original message
Tools & Services Available on the Internet
Electronic mail (POP, IMAP, SMTP)Instant messaging (ICQ, MSN)
Remote login (telnet)
File transfer (ftp)
Network news (nntp)
WWW (http)
1960's
1969
- DoD-ARPA creates an experimental network – ARPANET – as a test-bed for emergingnetworking technologies
ARPANET originally connected 4 universities & enabled scientists to share info & resources across
long distances
ARPANET continued to expand throughout the 70's and 80's
1970's
Networking tools developed in the 70's include:1972
- The National Center for Supercomputing Apps. (NCSA) develops the telnet application forremote login, making it easier to connect to a remote computer
1973
- FTP (File Transfer Protocol) is introduced, standardizing the transfer of files between networkedcomputers
1980's
1983
- The TCP/IP protocols becomes the only set of protocols used on the ARPANETThis sets a standard for all networks, and generates the use of the term Internet as the net of nets
ARPANET splits into two nets to keep military & non-military network sites separate: ARPANET and
MILNET
1980's
In 1982 and 1983, the first desktop computers begin to appearMany are equipped with an OS called Berkeley Unix, which includes networking SW, allowing easy
connection to the Internet using telnet
The PC revolution continues through the 80’s, making access to computer resources & net-worked info
increasingly available to public
1985-86:
NSF connects the US’s six supercomputing centers together, calling it the the NSFNET, orNSFNET backbone
To expand access to the Internet, NSF developed regional nets, which were then connected to the
NSFNET backbone
Plus, NSF supported institutions (universities, etc.) in their efforts to connect to the regional nets
1987
- NSF awards a grant to Merit Network, Inc. to operate & manage future development of theNSFNET
Merit collaborates with IBM & MCI on R&D for fast networking technologies
1989
- The backbone network is upgraded to T1, making it able to transmit data at speeds of 1.5 Mb/s(approx. 60 pages of text/second)
1990's1990
- The ARPANET is dissolved1991
- Gopher is developed at the U of MNIt provides a hierarchical, menu-based method for providing & locating info on the Internet
1993
- CERN releases WWW, developed by Tim Berners-LeeIt uses HTTP and hypertext, revolutionizing the way info is presented & accessed on Internet
1993
- The NSFNET is upgraded to T3 (45 Mb/s or about 1800 pages/s)1993-1994
- Web browsers Mosaic & Netscape Navigator are introducedTheir GUI makes WWW & Internet more appealing to the general public
1995
- NSFNET is replaced by a new architecture, called vBNS which utilizes regional networks andNetwork Access Points