What is the Internet ?

The Internet is a worldwide system of interconnected computer networks that use the TCP/IP set of network protocols to reach billions of users. The Internet began as a U.S Department of Defense network to link scientists and university professors around the world. A network of networks, today, the Internet serves as a global data communications system that links millions of private, public, academic and business networks via an international telecommunications backbone that consists of various electronic and optical networking technologies. Decentralized by design, no one owns the Internet and it has no central governing authority. As a creation of the Defense Department for sharing research data, this lack of centralization was intentional to make it less vulnerable to wartime or terrorist attacks.The terms Internet and World Wide Web are often used interchangeably, however, the internet and World Wide Web are not one and the same.The Internet is a vast hardware and software infrastructure that enables computer inter-connectivity. The Web, on the other hand, is a massive hypermedia database, a myriad collection of documents and other resources interconnected by hyperlinks. Imagine the World Wide Web as the platform which allows one to navigate the Internet with the use of a browser such as Internet Explorer or Mozilla Firefox. Follow the Internet Timeline below to see how the Internet has evolved over the years and take a glance at what lies ahead in the future as the Internet continues to change the world we live in.

                                    (Visual representation of the the Internet from the Opte Project.)

Internet Timeline

1957 – USSR launches Sputnik into space. In response, the USA creates the Advanced Research Projects Agency (ARPA ) with the mission of becoming the leading force in science and new technologies.

1962 – J.C.R. Licklider of MIT proposes the concept of a “Galactic Network.” For the first time ideas about a global network of computers are introduced. J.C.R. Licklider is later chosen to head ARPA's research efforts.

1962 - Paul Baran, a member of the RAND Corporation, determines a way for the Air Force to control bombers and missiles in case of a nuclear event. His results call for a decentralized network comprised of packet switches.

1968 - ARPA contracts out work to BBN. BBN is called upon to build the first switch.

1969 – ARPANET created - BBN creates the first switched network by linking four different nodes in California and Utah; one at the University of Utah, one at the University of California at Santa Barbara, one at Stanford and one at the University of California at Los Angeles.

1972 - Ray Tomlinson working for BBN creates the first program devoted to email.

1972 - ARPA officially changes its name to DARPA Defense Advanced Research Projects Agency.

1972 - Network Control Protocol is introduced to allow computers running on the same network to communicate with each other.

1973 - Vinton Cerf working from Stanford and Bob Kahn from DARPA begin work developing TCP/IP to allow computers on different networks to communicate with each other.

1974 - Kahn and Cerf refer to the system as the Internet for the first time.

1976 - Ethernet is developed by Dr. Robert M. Metcalfe.

1976 – SATNET, a satellite program is developed to link the United States and Europe. Satellites are owned by a consortium of nations, therby expanding the reach of the Internet beyond the USA.

1976 – Elizabeth II, Queen of the United Kingdom, sends out an email on 26 March from the Royal Signals and Radar Establishment (RSRE) in Malvern.

1976 - AT& T Bell Labs develops UUCP and UNIX.

1979 - USENET, the first news group network is developed by Tom Truscott, Jim Ellis and Steve Bellovin.

1979 - IBM introduces BITNET to work on emails and listserv systems.

1981 - The National Science Foundation releases CSNET 56 to allow computers to network without being connected to the government networks.

1983 - Internet Activities Board released.

1983 - TCP/IP becomes the standard for internet protocol.

1983 - Domain Name System introduced to allow domain names to automatically be assigned an IP number.

1984 - MCI creates T1 lines to allow for faster transportation of information over the internet.

1984- The number of Hosts breaks 1,000

1985- 100 years to the day of the last spike being driven on the Canadina Pacific Railway, the last Canadian university was connected to NetNorth in a one year effort to have coast-to-coast connectivity

1987 - The new network CREN forms.

1987- The number of hosts breaks 10,000

1988 - Traffic rises and plans are to find a new replacement for the T1 lines.

1989- The Number of hosts breaks 100 000

1989- Arpanet ceases to exist

1990 - Advanced Network & Services (ANS) forms to research new ways to make internet speeds even faster. The group develops the T3 line and installs in on a number of networks.

1990 - A hypertext system is created and implemented by Tim Berners-Lee while working for CERN.

1990- The first search engine is created by Mcgill Univeristy, called the Archie Search Engine

1991- U.S greenlight for commercial enterprise to take place on the Internet

1991 - The National Science Foundation (NSF) creates the National Research and Education Network (NREN).

1991 - CERN releases the World Wide Web publicly on August 6th, 1991

1992 – The Internet Society (ISOC) is chartered

1992- Number of hosts breaks 1,000,000

1993 - InterNIC released to provide general services, a database and internet directory.

1993- The first web browser, Mosaic (created by NCSA), is released. Mosaic later becomes the Netscape browser which was the most popular browser in the mid 1990's.

1994 - New networks added frequently.

1994 - First internet ordering system created by Pizza Hut.

1994 - First internet bank opened: First Virtual.

1995 - NSF contracts out their access to four internet providers.

1995 - NSF sells domains for a $50 annual fee.

1995 – Netscape goes public with 3rd largest ever Nasdaq ipo share value

1995- Registration of domains is no longer free.

1996- The WWW browser wars are waged mainly between Microsoft and Netscape. New versions are released quarterly with the aid of internet users eager to test new (beta) versions.

1996 – Internet2 project is initiated by 34 universities

1996 - Internet Service Providers begin appearing such as Sprint and MCI.

1996 - Nokia releases first cell phone with internet access.

1997- (Arin) is established to handle administration and registration of IP numbers, now handled by Network Solutions (IinterNic)

1998- Netscape releases source code for Navigator.

1998-Internet Corporation for Assigned Names and Numbers (ICANN) created to be able to oversee a number of Internet-related tasks

1999 - A wireless technology called 802.11b, more commonly referred to as WI-Fi, is standardized.

2000- The dot com bubble bursts, numerically, on March 10, 2000, when the technology heavy NASDAQ composite index peaked at 5,048.62

2001 - Blackberry releases first internet cell phone in the United States.

2001 – The spread of P2P file sharing across the Internet

2002 -Internet2 now has 200 university, 60 corporate and 40 affiliate members

2003- The French Ministry of Culture bans the use of the word "e-mail" by government ministries, and adopts the use of the more French sounding "courriel"

2004 – The Term Web 2.0 rises in popularity when O'Reilly and Media Live host the first Web 2.0 conference.

2004- My doom, the fastest ever spreading email computer worm is released. Estimated 1 in 12 emails are infected.

2005- Estonia offers Internet Voting nationally for local elections

2005-Youtube launches

2006- There are an estimated 92 million websites online

2006 – Zimbabwe's internet access is almost completely cut off after international satellite communications provider Intelsat cuts service for non-payment

2006- Internet2 announced a partnership with Level 3 Communications to launch a brand new nationwide network, boosting its capacity from 10Gbps to 100Gbps

2007- Internet2 officially retires Abilene and now refers to its new, higher capacity network as the Internet2 Network

2008- Google index reaches 1 Trillion URLs

2008 – NASA successfully tests the first deep space communications network modeled on the Internet. Using software called Disruption-Tolerant Networking, or DTN, dozens of space images are transmitted to and from a NASA science spacecraft located about more than 32 million kilometers from Earth

2009 – ICANN gains autonomy from the U.S government

2010- Facebook announces in February that it has 400 million active users.

2010 – The U.S House of Representatives passes the Cyber security Enhancement Act (H.R. 4061)

The Future: Internet2 and Next Generation Networks

The public Internet was not initially designed to handle massive quantities of data flowing through millions of networks. In response to this problem, experimental national research networks (NRN's), such as Internet2 and NGI (Next Generation Internet), are developing high speed, next generation networks. In the United States, Internet2 is the foremost non for profit advanced networking consortium led by over 200 universities in cooperation with 70 leading corporations, 50 international partners and 45 non profit and government agencies. The Internet2 community is actively engaged in developing and testing new network technologies that are critical to the future progress of the Internet. Internet2 operates the Internet2 Network, a next-generation hybrid optical and packet network that furnishes a 100Gbps network backbone, providing the U.S research and education community with a nationwide dynamic, robust and cost effective network that satistfies their bandwith intensive requirements. Although this private network does not replace the Internet, it does provide an environment in which cutting edge technologies can be developed that may eventually migrate to the public Internet. Internet2 research groups are developing and implementing new technolgies such as Ipv6, multicasting and quality of service (QoS) that will enable revolutionary Internet applications. New quality of service (QoS) technologies, for instance, would allow the Internet to provide different levels of service, depending on the type of data being transmitted. Different types of data packets could recieve different levels of priority as they travel over a network. For example, packets for an application such as videoconferencing, which require simulatneous delivery, would be assigned higher priority than e-mail messages. However, advocates of net neutrality argue that data discrimination could lead to a tiered service model being imposed on the Internet by telecom companies that would undermine Internet freedoms. More than just a faster web, these new technologies will enable completely new advanced applications for distributed computation, digital libraries, virtual laboratories, distance learning and tele-immersion. As next generation Internet development continues to push the boundries of what's possible, the existing Internet is also being enhanced to provide higher transmission speeds, increased security and different levels of service.