History of the World Wide Web

Last updated
World Wide Web
WWW logo by Robert Cailliau.svg
The Web's former logo designed by Belgian Robert Cailliau
Inventor Tim Berners-Lee [1] [2]
InceptionMarch 12, 1989;31 years ago (March 12, 1989)
AvailableWorldwide

The World Wide Web ("WWW"), not to be confused with the "web", is a global information medium which users can access via computers connected to the Internet. The term is often mistakenly used as a synonym for the Internet itself and often called "the Internet", but the Web is a service that operates over the Internet, just as email (also e-mail) and Usenet also do. The history of the Internet dates back significantly further than that of the World Wide Web.

Contents

Precursors

The hypertext portion of the Web in particular has an intricate intellectual history; notable influences and precursors include Vannevar Bush's Memex, [3] IBM's Generalized Markup Language, [4] and Ted Nelson's Project Xanadu. [3]

Paul Otlet's Mundaneum project has also been named as an early 20th-century precursor of the Web. [5]

The concept of a global information system connecting homes is prefigured in "A Logic Named Joe", a 1946 short story by Murray Leinster, in which computer terminals, called "logics", are present in every home. Although the computer system in the story is centralized, the story anticipates a ubiquitous information environment similar to the Web. The cultural impact of the Web was imagined even further back in a short story by E. M. Forster, "The Machine Stops", first published in 1909.

1980–1991: Invention and implementation

The NeXTcube used by Tim Berners-Lee at CERN became the first Web server. First Web Server.jpg
The NeXTcube used by Tim Berners-Lee at CERN became the first Web server.

In 1980, Tim Berners-Lee, an English independent contractor at the European Organization for Nuclear Research (CERN) in Switzerland, built ENQUIRE, as a personal database of people and software models, but also as a way to play with hypertext; each new page of information in ENQUIRE had to be linked to a page. [3]

Berners-Lee's contract in 1980 was from June to December, but in 1984 he returned to CERN in a permanent role, and considered its problems of information management: physicists from around the world needed to share data, yet they lacked common machines and any shared presentation software.

Shortly after Berners-Lee's return to CERN, TCP/IP protocols were installed on some key non-Unix machines at the institution, turning it into the largest Internet site in Europe within a few years. As a result, CERN's infrastructure was ready for Berners-Lee to create the Web. [6]

Berners-Lee wrote a proposal in March 1989 for "a large hypertext database with typed links". [7] Although the proposal attracted little interest, Berners-Lee was encouraged by his boss, Mike Sendall, to begin implementing his system on a newly acquired NeXT workstation. [8] He considered several names, including Information Mesh, [7] The Information Mine or Mine of Information, but settled on World Wide Web. [9]

Robert Cailliau, Jean-Francois Abramatic and Tim Berners-Lee at the 10th anniversary of the WWW Consortium. Cailliau Abramatic Berners-Lee 10 years WWW consortium.png
Robert Cailliau, Jean-François Abramatic and Tim Berners-Lee at the 10th anniversary of the WWW Consortium.

Berners-Lee found an enthusiastic supporter in Robert Cailliau. Berners-Lee and Cailliau pitched Berners-Lee's ideas to the European Conference on Hypertext Technology in September 1990, but found no vendors who could appreciate his vision of marrying hypertext with the Internet. [10]

By Christmas 1990, Berners-Lee had built all the tools necessary for a working Web: the HyperText Transfer Protocol (HTTP), [11] the HyperText Markup Language (HTML), the first Web browser (named WorldWideWeb, which was also a Web editor), the first HTTP server software (later known as CERN httpd), the first web server (http://info.cern.ch), and the first Web pages that described the project itself. The browser could access Usenet newsgroups and FTP files as well. However, it could run only on the NeXT; Nicola Pellow therefore created a simple text browser, called the Line Mode Browser, that could run on almost any computer. [12] To encourage use within CERN, Bernd Pollermann put the CERN telephone directory on the web—previously users had to log onto the mainframe in order to look up phone numbers. [12]

While inventing and working on setting up the Web, Berners-Lee spent most of his working hours in Building 31 (second floor) at CERN ( 46°13′57″N6°02′42″E / 46.2325°N 6.0450°E / 46.2325; 6.0450 (CERN Building 31, Birthplace of the World Wide Web) ), but also at his two homes, one in France, one in Switzerland. [13] In January 1991 the first Web servers outside CERN itself were switched on. [14]

The first web page may be lost, but Paul Jones of UNC-Chapel Hill in North Carolina revealed in May 2013 that he has a copy of a page sent to him in 1991 by Berners-Lee which is the oldest known web page. Jones stored the plain-text page, with hyperlinks, on a floppy disk and on his NeXT computer. [15] CERN put the oldest known web page back online in 2014, complete with hyperlinks that helped users get started and helped them navigate what was then a very small web. [16] [17]

On 6 August 1991, [18] Berners-Lee posted a short summary of the World Wide Web project on the alt.hypertext newsgroup, inviting collaborators. [19] This date is sometimes confused with the public availability of the first web servers, which had occurred months earlier.

Paul Kunz from the Stanford Linear Accelerator Center (SLAC) visited CERN in September 1991, and was captivated by the Web. He brought the NeXT software back to SLAC, where librarian Louise Addis adapted it for the VM/CMS operating system on the IBM mainframe as a way to display SLAC's catalog of online documents; [12] this was the first Web server outside of Europe and the first in North America. [20] The www-talk mailing list was started in the same month. [14]

In 1992 the Computing and Networking Department of CERN, headed by David Williams, did not support Berners-Lee's work. A two-page email sent by Williams stated that the work of Berners-Lee, with the goal of creating a facility to exchange information such as results and comments from CERN experiments to the scientific community, was not the core activity of CERN and was a misallocation of CERN's IT resources. Following this decision, Tim Berners-Lee left CERN despite many of his peers in the IT center advocating for his support, in particular, M. Ben Segal from the distributed computing SHIFT project. He left for the Massachusetts Institute of Technology (MIT), where he continued to develop HTTP.

An early CERN-related contribution to the Web was the parody band Les Horribles Cernettes, whose promotional image is believed to be among the Web's first five pictures. [21] The photo was scanned as a GIF file, using Adobe Photoshop on a Macintosh. [22]

1992–1995: Growth

In keeping with its birth at CERN and the first page opened, early adopters of the Web were primarily university-based scientific departments or physics laboratories such as Fermilab and SLAC. By January 1993 there were fifty Web servers across the world. In April 1993 CERN made the World Wide Web available on a royalty-free basis. [23] By October 1993 there were over five hundred servers online. [14] Two of the earliest webcomics started on the World Wide Web in 1993: Doctor Fun and NetBoy [ verification needed ]. [24] [25] In July 1993, The Wharton School published one of the first collections of PDFs and was highlighted in Adobe's 1995 annual report about use of PDFs on the web.

Early websites intermingled links for both the HTTP web protocol and the then-popular Gopher protocol, which provided access to content through hypertext menus presented as a file system rather than through HTML files. Early Web users would navigate either by bookmarking popular directory pages, such as Berners-Lee's first site at http://info.cern.ch/, or by consulting updated lists such as the NCSA "What's New" page. Some sites were also indexed by WAIS, enabling users to submit full-text searches similar to the capability later provided by search engines.

Practical media distribution and streaming media over the Web was made possible by advances in data compression, due to the impractically high bandwidth requirements of uncompressed media. [26] An important compression technique in this regard is the discrete cosine transform (DCT), [27] a lossy compression algorithm originally developed by Nasir Ahmed, T. Natarajan and K. R. Rao at the University of Texas in 1973. [28] Following the introduction of the Web, several DCT-based media formats were introduced for practical media distribution and streaming over the Web, including the MPEG video format in 1991 [27] and the JPEG image format in 1992. [29] The high level of image compression made JPEG a good format for compensating slow Internet access speeds, typical in the age of dial-up connections. [30] JPEG became the most widely used image format for the World Wide Web. [31] A DCT variation, the modified discrete cosine transform (MDCT) algorithm, developed by J. P. Princen, A. W. Johnson and A. B. Bradley at the University of Surrey in 1987, [32] led to the development of MP3, which was introduced in 1994 and became the first popular audio format on the Web. [33]

By the end of 1994, the total number of websites was still minute compared to present figures, but quite a number of notable websites were already active, many of which are the precursors or inspiring examples of today's most popular services.

In January 1994, Yahoo! was founded by Jerry Yang and David Filo, then students at Stanford University. Yahoo! Directory, launched in January 1994, became the first popular Web directory. Yahoo! Search, later launched in 1995, became the first popular search engine on the World Wide Web. Yahoo! became the quintessential example of a first mover on the Web. [34] Web commerce also began emerging in 1995 with the founding of eBay by Pierre Omidyar and Amazon by Jeff Bezos.

Early browsers

Initially, a web browser was available only for the NeXT operating system. This shortcoming was discussed in January 1992, [14] and alleviated in April 1992 by the release of Erwise, an application developed at the Helsinki University of Technology, and in May by ViolaWWW, created by Pei-Yuan Wei, which included advanced features such as embedded graphics, scripting, and animation. [12] ViolaWWW was originally an application for HyperCard. Both programs ran on the X Window System for Unix. [12] In 1992, the first tests between browsers on different platforms were concluded successfully between buildings 513 and 31 in CERN, between browsers on the NexT station and the X11-ported Mosaic browser.

Students at the University of Kansas adapted an existing text-only hypertext browser, Lynx, to access the web. Lynx was available on Unix and DOS, and some web designers, unimpressed with glossy graphical websites, held that a website not accessible through Lynx wasn't worth visiting.

The first Microsoft Windows browser was Cello, written by Thomas R. Bruce for the Legal Information Institute at Cornell Law School to provide legal information, since access to Windows was more widespread amongst lawyers than access to Unix. Cello was released in June 1993. [12]

The Web was first popularized by Mosaic, [35] a graphical browser launched in 1993 by Marc Andreessen's team at the National Center for Supercomputing Applications (NCSA) at the University of Illinois at Urbana–Champaign (UIUC). [36] The origins of Mosaic date to 1992. In November 1992, the NCSA at the University of Illinois (UIUC) established a website. In December 1992, Andreessen and Eric Bina, students attending UIUC and working at the NCSA, began work on Mosaic with funding from the High-Performance Computing and Communications Initiative, a US-federal research and development program. [37] Andreessen and Bina released a Unix version of the browser in February 1993; Mac and Windows versions followed in August 1993. [14] The browser gained popularity due to its strong support of integrated multimedia, and the authors’ rapid response to user bug reports and recommendations for new features.

After graduation from UIUC, Andreessen and James H. Clark, former CEO of Silicon Graphics, met and formed Mosaic Communications Corporation in April 1994 to develop the Mosaic Netscape browser commercially. The company later changed its name to Netscape, and the browser was developed further as Netscape Navigator.

Web governance

In May 1994, the first International WWW Conference, organized by Robert Cailliau, [10] [38] was held at CERN; [39] the conference has been held every year since. In April 1993, CERN had agreed that anyone could use the Web protocol and code royalty-free; this was in part a reaction to the concern caused by the University of Minnesota's announcement that it would begin charging license fees for its implementation of the Gopher protocol.

In September 1994, Berners-Lee founded the World Wide Web Consortium (W3C) at the Massachusetts Institute of Technology with support from the Defense Advanced Research Projects Agency (DARPA) and the European Commission. It comprised various companies that were willing to create standards and recommendations to improve the quality of the Web. Berners-Lee made the Web available freely, with no patent and no royalties due. The W3C decided that its standards must be based on royalty-free technology, so they can be easily adopted by anyone.

1996–1998: Commercialization

By 1996, it became obvious to most publicly traded companies that a public Web presence was no longer optional.[ citation needed ] Though at first people saw mainly[ citation needed ] the possibilities of free publishing and instant worldwide information, increasing familiarity with two-way communication over the "Web" led to the possibility of direct Web-based commerce (e-commerce) and instantaneous group communications worldwide. More dotcoms, displaying products on hypertext webpages, were added into the Web.

In 1996, Robin Li developed RankDex, the first Web search engine with a site-scoring algorithm for results page ranking, [40] [41] [42] and received a US patent for the technology. [43] It was the first search engine that used hyperlinks to measure the quality of websites it was indexing, [44] predating the similar PageRank algorithm patent later filed by Google. [45] Li later used his Rankdex technology for the Baidu search engine, which Li founded and launched in 2000.

Google Search, which was notable for its PageRank algorithm, was developed by Larry Page, Sergey Brin and Scott Hassan between 1996 and 1997. [46] [47] [48] Page referenced Li's work on RankDex in some of his US patents for PageRank. [49] Google was eventually founded by Page and Brin in 1998.

1999–2001: "Dot-com" boom and bust

Low interest rates in 1998–99 facilitated an increase in start-up companies. Although a number of these new entrepreneurs had realistic plans and administrative ability, most of them lacked these characteristics but were able to sell their ideas to investors because of the novelty of the dot-com concept.

Historically, the dot-com boom can be seen as similar to a number of other technology-inspired booms of the past including railroads in the 1840s, automobiles in the early 20th century, radio in the 1920s, television in the 1940s, transistor electronics in the 1950s, computer time-sharing in the 1960s, and home computers and biotechnology in the 1980s.

In 2001 the bubble burst, and many dot-com startups went out of business after burning through their venture capital and failing to become profitable. Many others, however, did survive and thrive in the early 21st century. Many companies which began as online retailers blossomed and became highly profitable. More conventional retailers found online merchandising to be a profitable additional source of revenue. While some online entertainment and news outlets failed when their seed capital ran out, others persisted and eventually became economically self-sufficient. Traditional media outlets (newspaper publishers, broadcasters and cablecasters in particular) also found the Web to be a useful and profitable additional channel for content distribution, and an additional means to generate advertising revenue. The sites that survived and eventually prospered after the bubble burst had two things in common: a sound business plan, and a niche in the marketplace that was, if not unique, particularly well-defined and well-served.

2002–present: Ubiquity

In the aftermath of the dot-com bubble, telecommunications companies had a great deal of overcapacity as many Internet business clients went bust. That, plus ongoing investment in local cell infrastructure kept connectivity charges low, helped to make high-speed Internet connectivity more affordable. During this time, a handful of companies found success developing business models that helped make the World Wide Web a more compelling experience. These include airline booking sites, Google's search engine and its profitable approach to keyword-based advertising, as well as eBay's auction site and Amazon.com's online department store.

This new era also begot social networking websites, such as MySpace and Facebook, which gained acceptance rapidly and became a central part of youth culture. The 2010s also saw the emergence of various controversial trends, such as the expansion of cybercrime and of internet censorship. [50]

Web 2.0

Beginning in 2002, new ideas for sharing and exchanging content ad hoc, such as Weblogs and RSS, rapidly gained acceptance on the Web. This new model for information exchange, primarily featuring user-generated and user-edited websites, was dubbed Web 2.0. The Web 2.0 boom saw many new service-oriented startups catering to a newly democratized Web.

As the Web became easier to query, it attained a greater ease of use overall and gained a sense of organization which ushered in a period of rapid popularization. Many new sites such as Wikipedia and its Wikimedia Foundation sister projects were based on the concept of user-edited content. In 2005, three former PayPal employees, Steve Chen, Chad Hurley, and Jawed Karim, created a video viewing website called YouTube, which quickly became popular and introduced a new concept of user-submitted content in major events.

The popularity of YouTube, Facebook, etc., combined with the increasing availability and affordability of high-speed connections has made video content far more common on all kinds of websites. Many video-content hosting and creation sites provide an easy means for their videos to be embedded on third party websites without payment or permission.

This combination of more user-created or edited content, and easy means of sharing content, such as via RSS widgets and video embedding, has led to many sites with a typical "Web 2.0" feel. They have articles with embedded video, user-submitted comments below the article, and RSS boxes to the side, listing some of the latest articles from other sites.

Continued extension of the Web has focused on connecting devices to the Internet, coined Intelligent Device Management. As Internet connectivity becomes ubiquitous, manufacturers have started to leverage the expanded computing power of their devices to enhance their usability and capability. Through Internet connectivity, manufacturers are now able to interact with the devices they have sold and shipped to their customers, and customers are able to interact with the manufacturer (and other providers) to access a lot of new content.

"Web 2.0" has found a place in the English lexicon. [51]

See also

Notes

  1. Quittner, Joshua (March 29, 1999). "Network designer". Time. Archived from the original on August 15, 2007.
  2. Tim Berners-Lee. "Frequently asked questions". World Wide Web Consortium . Retrieved 22 July 2010.
  3. 1 2 3 Berners-Lee, Tim. "Frequently asked questions - Start of the web: Influences". World Wide Web Consortium . Retrieved 22 July 2010.
  4. Berners-Lee, Tim. "Frequently asked questions - Why the //, #, etc?". World Wide Web Consortium . Retrieved 22 July 2010.
  5. Wright, Alex (2014-07-10). Cataloging the World: Paul Otlet and the Birth of the Information Age. Oxford; New York: OUP USA. pp. 8–15. ISBN   9780199931415.
  6. Segal, Ben (1995). "A Short History of Internet Protocols at CERN". W3C.org.
  7. 1 2 Berners-Lee, Tim (March 1989). "Information Management: A Proposal". World Wide Web Consortium . Retrieved 24 August 2010.
  8. Gromov, Gregory (2011). "The Next Crossroad of Web History". Net Valley.
  9. Berners-Lee, Tim (2000-11-07). Weaving the Web: The Original Design and Ultimate Destiny of the World Wide Web. San Francisco: Harper. p.  23. ISBN   9780062515872.
  10. 1 2 Tim Berners-Lee. "Frequently asked questions - Robert Cailliau's role". World Wide Web Consortium . Retrieved 22 July 2010.
  11. Berners-Lee, Tim. "The Original HTTP as defined in 1991". W3C.org.
  12. 1 2 3 4 5 6 Berners-Lee, Tim (c. 1993). "A Brief History of the Web". World Wide Web Consortium . Retrieved 17 August 2010.
  13. Galbraith, David (July 8, 2010). "Tim Berners-Lee: Confirming the exact location of the invention of the web". DavidGalbraith.org.
  14. 1 2 3 4 5 Raggett, Dave; Jenny Lam; Ian Alexander (April 1996). HTML 3: Electronic Publishing on the World Wide Web. Harlow, England; Reading, Mass: Addison-Wesley. p. 21. ISBN   9780201876932.
  15. Murawski, John (24 May 2013). "Hunt for world's oldest WWW page leads to UNC Chapel Hill". News & Observer .
  16. Shubber, Khadim (April 13, 2013). "First ever web page put back online by CERN". Wired.
  17. Brodkin, John (April 30, 2013). "First website ever goes back online on the open Web's 20th birthday". Ars Technica.
  18. Ward, Mark (3 August 2006). "How the web went world wide". BBC News. Retrieved 24 January 2011.
  19. Berners-Lee, Tim. "Qualifiers on Hypertext links..." alt.hypertext. Retrieved 11 July 2012.
  20. Berners-Lee, Tim (2000-11-07). Weaving the Web: The Original Design and Ultimate Destiny of the World Wide Web. San Francisco: Harper. p.  46. ISBN   9780062515872.
  21. Heather McCabe (1999-02-09). "Grrl Geeks Rock Out". Wired magazine .
  22. Riesman, Abraham (10 July 2012). "Crossdressing, Compression, and Colliders: 'The First Photo on the Web'". Vice . Retrieved 11 August 2019.
  23. "Twenty years of a free, open web | CERN". home.cern. Retrieved 2018-05-11.
  24. Campbell, T. (2006-06-08). The History of Webcomics. Antarctic Press. ISBN   0976804395.
  25. Atchison, Lee (2008-01-07). "A Brief History of Webcomics The Third Age of Webcomics". Sequential Tart.
  26. Lee, Jack (2005). Scalable Continuous Media Streaming Systems: Architecture, Design, Analysis and Implementation. John Wiley & Sons. p. 25. ISBN   9780470857649.
  27. 1 2 Ce, Zhu (2010). Streaming Media Architectures, Techniques, and Applications: Recent Advances: Recent Advances. IGI Global. p. 26. ISBN   9781616928339.
  28. Ahmed, Nasir (January 1991). "How I came up with the discrete cosine transform". Digital Signal Processing. 1 (1): 4–5. doi:10.1016/1051-2004(91)90086-Z.
  29. "T.81 – DIGITAL COMPRESSION AND CODING OF CONTINUOUS-TONE STILL IMAGES – REQUIREMENTS AND GUIDELINES" (PDF). CCITT. September 1992. Retrieved 12 July 2019.
  30. "JPEG". Encyclopedia Britannica . Retrieved 12 August 2019.
  31. Camera, What Digital (11 March 2015). "JPEG files: Advanced technology guide". What Digital Camera . TI Media . Retrieved 11 August 2019.
  32. Princen, J.; Johnson, A.; Bradley, A. (1987). "Subband/Transform coding using filter bank designs based on time domain aliasing cancellation". ICASSP '87. IEEE International Conference on Acoustics, Speech, and Signal Processing. 12: 2161–2164. doi:10.1109/ICASSP.1987.1169405.
  33. Guckert, John (Spring 2012). "The Use of FFT and MDCT in MP3 Audio Compression" (PDF). University of Utah . Retrieved 14 July 2019.
  34. "What is first mover?". SearchCIO. TechTarget. September 2005. Retrieved 5 September 2019.
  35. Stewart, William. "Mosaic: The First Global Web Browser". The Living Internet.
  36. "NCSA Mosaic -- September 10, 1993 Demo".
  37. Gore, Al (February 14, 1996). "The Technology Challenge: How Can America Spark Private Innovation?".
  38. Robert Cailliau (November 2, 1995). "A Short History of the Web: Text of a speech delivered at the launching of the European branch of the W3 Consortium". Net Valley. Retrieved 21 July 2010.
  39. "IW3C2 - Past and Future Conferences". International World Wide Web Conferences Steering Committee. 2010-05-02. Retrieved 16 May 2010.
  40. Greenberg, Andy, "The Man Who's Beating Google", Forbes magazine, October 5, 2009
  41. Yanhong Li, "Toward a Qualitative Search Engine," IEEE Internet Computing, vol. 2, no. 4, pp. 24–29, July/Aug. 1998, doi : 10.1109/4236.707687
  42. "About: RankDex", rankdex.com
  43. USPTO, "Hypertext Document Retrieval System and Method", US Patent number: 5920859, Inventor: Yanhong Li, Filing date: Feb 5, 1997, Issue date: Jul 6, 1999
  44. "Baidu Vs Google: The Twins Of Search Compared". FourWeekMBA. 18 September 2018. Retrieved 16 June 2019.
  45. Altucher, James (March 18, 2011). "10 Unusual Things About Google". Forbes . Retrieved 16 June 2019.
  46. Fisher, Adam (July 10, 2018). "Brin, Page, and Mayer on the Accidental Birth of the Company that Changed Everything". Vanity Fair . Retrieved 23 August 2019.
  47. McHugh, Josh (1 January 2003). "Google vs. Evil". Wired . Retrieved 24 August 2019.
  48. D'Onfro, Jillian (February 13, 2016). "How a billionaire who wrote Google's original code created a robot revolution". Business Insider .
  49. "Method for node ranking in a linked database". Google Patents. Archived from the original on 15 October 2015. Retrieved 19 October 2015.
  50. Owen, Tim, Wayne Noble, and Faye Christabel Speed. "Virtual Violence: Cyberspace, Misogyny and Online Abuse." New Perspectives on Cybercrime. Palgrave Macmillan, Cham, 2017. 141–158.
  51. "'Millionth English Word' declared". BBC News. June 19, 2009.

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The First International Conference on the World-Wide Web was the first-ever conference about the World Wide Web, and the first meeting of what became the International World Wide Web Conference. It was held on May 25 to 27, 1994 in Geneva, Switzerland. The conference had 380 participants, who were accepted out of 800 applicants. It has been referred to as the "Woodstock of the Web".

Dave Raggett Computer specialist

Dave Raggett is an English computer specialist who has played a major role in implementing the World Wide Web since 1992. He has been a W3C Fellow at the World Wide Web Consortium since 1995 and worked on many of the key web protocols, including HTTP, HTML, XHTML, MathML, XForms, and VoiceXML. Raggett also wrote HTML Tidy and is currently pioneering W3C's work on the Web of Things. He lives in the west of England.

History of hypertext

Hypertext is text displayed on a computer or other electronic device with references (hyperlinks) to other text that the reader can immediately access, usually by a mouse click or keypress sequence.

ENQUIRE was a software project written in 1980 by Tim Berners-Lee at CERN, which was the predecessor to the World Wide Web. It was a simple hypertext program that had some of the same ideas as the Web and the Semantic Web but was different in several important ways.