J. C. R. Licklider

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Joseph Carl Robnett Licklider (/ˈlɪkldər/; March 11, 1915 – June 26, 1990), known simply as J. C. R. or "Lick", was an American psychologist[3] and computer scientist who is considered to be among the most prominent figures in computer science development and general computing history.

Joseph Carl Robnett Licklider
Born(1915-03-11)March 11, 1915
St. Louis, Missouri, U.S.
DiedJune 26, 1990(1990-06-26) (aged 75)
Other namesJ. C. R
Lick
"Computing's Johnny Appleseed"
Known forCybernetics/Interactive computing
"Intergalactic Computer Network" (Internet)
Artificial Intelligence
Psychoacoustics
SpouseLouise Carpenter
Children2
Academic background
EducationWashington University in St. Louis
University of Rochester
Academic work
Doctoral studentsDalbir Bindra[1]
InfluencedJerome I. Elkind[2]

He is particularly remembered for being one of the first to foresee modern-style interactive computing and its application to all manner of activities; and also as an Internet pioneer with an early vision of a worldwide computer network long before it was built. He did much to initiate this by funding research that led to significant advances in computing technology, including today's canonical graphical user interface, and the ARPANET, which is the direct predecessor of the Internet.

Robert Taylor, founder of Xerox PARC's Computer Science Laboratory and Digital Equipment Corporation's Systems Research Center, noted that "most of the significant advances in computer technology—including the work that my group did at Xerox PARC—were simply extrapolations of Lick's vision. They were not really new visions of their own. So he was really the father of it all".[4]

Biography

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Licklider was born on March 11, 1915, in St. Louis, Missouri.[5] He was the only child of Joseph Parron Licklider, a Baptist minister, and Margaret Robnett Licklider.[6] Despite his father's religious background, he was not religious in later life.[7]

He studied at Washington University in St. Louis, where he received a B.A. with a triple major in physics, mathematics, and psychology in 1937[8][9] and an M.A. in psychology in 1938. He received a Ph.D. in psychoacoustics from the University of Rochester in 1942 as well as a Doctorate in Psychology from the University of Rochester, that same year. Thereafter he worked at Harvard University as a research fellow and lecturer in the Psycho-Acoustic Laboratory from 1943 to 1950.

He became interested in information technology, and moved to MIT in 1950 as an associate professor, where he served on a committee that established the MIT Lincoln Laboratory and a psychology program for engineering students. While at MIT, Licklider was involved in the SAGE project as head of the team concerned with human factors.[10] In 1957, he received the Franklin V. Taylor Award from the Society of Engineering Psychologists. In 1958, he was elected President of the Acoustical Society of America, and in 1990 he received the Commonwealth Award for Distinguished Service.[11]

Licklider left MIT to become a vice president at Bolt Beranek and Newman in 1957. He learned about time-sharing from Christopher Strachey at a UNESCO-sponsored conference on Information Processing in Paris in 1959.[12][13] At BBN he developed the BBN Time-Sharing System and conducted the first public demonstration of time-sharing.[14]

In October 1962, Licklider was appointed head of the Information Processing Techniques Office (IPTO) at ARPA, the United States Department of Defense Advanced Research Projects Agency,[15] an appointment he kept through July 1964.[16][17] In April 1963, he sent a memo to his colleagues in outlining the early challenges presented in establishing a time-sharing network of computers with the software of that time.[18] Ultimately his vision led to ARPANet, the precursor of today's Internet.[19]

After serving as manager of information sciences, systems and applications at IBM's Thomas J. Watson Research Center in Yorktown Heights, New York from 1964 to 1967, Licklider rejoined MIT as a professor of electrical engineering in 1968. During this period, he concurrently served as director of Project MAC until 1971.[20] Project MAC had produced the first computer time-sharing system, CTSS, and one of the first online setups with the development of Multics (work on which commenced in 1964). Multics provided inspiration for some elements of the Unix operating system developed at Bell Labs by Ken Thompson and Dennis Ritchie in 1970.[21]

Following a second stint as IPTO director (1974–1975), his MIT faculty line was transferred to the Institute's Laboratory for Computer Science, where he was based for the remainder of his career. He was a founding member of Infocom in 1979, known for their interactive fiction computer games.[22] He retired and became professor emeritus in 1985. He died in 1990 in Arlington, Massachusetts;[11] his cremated remains are interred in Mount Auburn Cemetery.

Work

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Psychoacoustics

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In the psychoacoustics field, Licklider is most remembered for his 1951 "Duplex Theory of Pitch Perception", presented in a paper[23] which has been cited hundreds of times,[24] was reprinted in a 1979 book,[25] and formed the basis for modern models of pitch perception.[26] He was also the first to report binaural unmasking of speech.[27]

Semi-Automatic Ground Environment

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A SAGE operator's terminal

While at MIT in the 1950s, Licklider worked on Semi-Automatic Ground Environment (SAGE), a Cold War project to create a computer-aided air defense system. The SAGE system included computers that collected and presented data to a human operator, who then chose the appropriate response. He worked as a human factors expert, which helped convince him of the great potential for human/computer interfaces.[28]

Information technology

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Licklider became interested in information technology early in his career. His ideas foretold of graphical computing, point-and-click interfaces, digital libraries, e-commerce, online banking, and software that would exist on a network and migrate wherever it was needed. Much like Vannevar Bush's, Licklider's contribution to the development of the Internet consists of ideas, not inventions. He foresaw the need for networked computers with easy user interfaces.

Licklider was instrumental in conceiving, funding and managing the research that led to modern personal computers and the Internet. In 1960 his seminal paper on "Man-Computer Symbiosis"[29] foreshadowed interactive computing, and he went on to fund early efforts in time-sharing and application development, most notably the work of Douglas Engelbart, who founded the Augmentation Research Center at Stanford Research Institute and created the famous On-Line System where the computer mouse was invented. He also did some seminal early work for the Council on Library Resources, imagining what libraries of the future might look like,[30] which he describes as "thinking centers" in his 1960 paper.[29]

Man–computer symbiosis

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In "Man-Computer Symbiosis", Licklider in 1960 outlined the need for simpler interaction between computers and computer users.[31] Licklider has been credited as an early pioneer of cybernetics and artificial intelligence (AI),[32] but unlike other AI practitioners, he never felt sure that men would be replaced by computer-based beings. As he wrote in the article: "Men will set the goals, formulate the hypotheses, determine the criteria, and perform the evaluations. Computing machines will do the routinizable work that must be done to prepare the way for insights and decisions in technical and scientific thinking". He goes on to write in the same article: "In short, it seems worthwhile to avoid argument with (other) enthusiasts for artificial intelligence by conceding dominance in the distant future of cerebration to machines alone".[29] This approach, focusing on effective use of information technology in augmenting human intelligence, is sometimes called Intelligence amplification (IA). Peter Highnam, DARPA director in 2020, focused on human-machine partnership as a long-term goal and guiding light ever since Licklider's 1960 publication.[33]

Project MAC

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During his time as director of ARPA's Information Processing Techniques Office (IPTO) from 1962 to 1964, he funded Project MAC at MIT. A large mainframe computer was designed to be shared by up to 30 simultaneous users, each sitting at a separate "typewriter terminal". He also funded similar projects at Stanford University, UCLA, UC Berkeley (called Project Genie), and the AN/FSQ-32 at System Development Corporation. This time-sharing technology later developed to become what today are known as servers.

Global computer network

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Licklider played a similar role in conceiving of and funding early networking research. He formulated the earliest ideas of a global computer network in August 1962 at BBN, in a series of memos discussing the "Intergalactic Computer Network" concept. These ideas contained almost everything that the Internet is today, including cloud computing.[34]

While at IPTO he convinced Ivan Sutherland, Bob Taylor, and Lawrence G. Roberts that an all-encompassing computer network was a very important concept. He met with Donald Davies in 1965 and inspired his interest in data communications.[35][36]

In 1967 Licklider submitted the paper "Televistas: Looking ahead through side windows" to the Carnegie Commission on Educational Television.[37] This paper describes a radical departure from the "broadcast" model of television. Instead Licklider advocates for a two-way communications network. The Carnegie Commission led to the creation of the Corporation for Public Broadcasting. Although the Commission's report explains that "Dr. Licklider's paper was completed after the Commission had formulated its own conclusions," President Johnson said at the signing of the Public Broadcasting Act of 1967, "So I think we must consider new ways to build a great network for knowledge—not just a broadcast system, but one that employs every means of sending and of storing information that the individual can use".[38]

His 1968 paper The Computer as a Communication Device illustrates his vision of network applications and predicts the use of computer networks to support communities of common interest and collaboration without regard to location.[39]

In the same 1968 paper, J. C. R. Licklider and Robert W. Taylor wrote, "Take any problem worthy of the name, and you find only a few people who can contribute effectively to its solution. Those people must be brought into close intellectual partnership so that their ideas can come into contact with one another. But bring these people together physically in one place to form a team, and you have trouble, for the most creative people are often not the best team players, and there are not enough top positions in a single organization to keep them all happy. Let them go their separate ways, and each creates his own empire, large or small, and devotes more time to the role of emperor than to the role of problem solver. The principals still get together at meetings. They still visit one another. But the time scale of their communication stretches out, and the correlations among mental models degenerate between meetings so that it may take a year to do a week's communicating. There has to be some way of facilitating communication among people wit bout [sic] [without] bringing them together in one place."[39] (Evan Herbert edited the article and acted as intermediary during its writing between Licklider in Boston and Taylor in Washington.)

The Licklider Transmission Protocol is named after him.

Publications

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Licklider wrote numerous articles and lectures, and one book:

Articles, a selection:

See also

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References

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  1. ^ Melzack, Ronald (1 January 1982). "Dalbir Bindra: 1922-1980". The American Journal of Psychology. 95 (1): 161–163. JSTOR 1422665.
  2. ^ "Jerome I. Elkind '51, ScD '56". MIT Energy Initiative. MIT. Archived from the original on 4 February 2021. Retrieved 20 December 2016.
  3. ^ Miller, G. A. (1991), "J. C. R. Licklider, psychologist", Journal of the Acoustical Society of America 89, no. 4B, pp. 1887–1887
  4. ^ Waldrop, M. Mitchell (2001). The Dream Machine: J. C. R. Licklider and the Revolution That Made Computing Personal. New York: Viking Penguin. p. 470. ISBN 978-0-670-89976-0.
  5. ^ Internet Pioneers: J.C.R. Licklider, retrieved online: 2009-05-19
  6. ^ Joseph Carl Robnett Licklider 1915—1990, A Biographical Memoir by Robert M. Fano, National Academies Press, Washington D.C., 1998
  7. ^ M. Mitchell Waldrop (2002). The Dream Machine: J.C.R. Licklider and the Revolution That Made Computing Personal. Penguin Books. p. 471. ISBN 9780142001356. Al Vezza was insistent, remembers Louise Licklider. "Lick had said that he didn't want any kind of to-do when he died", she says. "He wasn't religious himself, even though his father had been a Southern Baptist minister, so it would seem totally phony if he'd had a big religious service."
  8. ^ Raychel Rappold. Biography. Rochester University. Archived from the original on 2016-11-17. Retrieved 2015-08-08.
  9. ^ H. Peter Alesso; Craig F. Smith (18 Jan 2008). Connections: Patterns of Discovery. John Wiley & Sons. ISBN 978-0470191521.
  10. ^ J. CHAMBERLIN. Psychologists's work and dreams led to the rise of the Internet. published by the American Psychological Association, April 2000, Vol 31, No. 4. Retrieved 2015-08-13.
  11. ^ a b Jay R. Hauben. "J. C. R. Licklider (1915–1990)". Columbia University. Retrieved March 30, 2011.
  12. ^ Gillies, James M.; Gillies, James; Gillies, James and Cailliau Robert; Cailliau, R. (2000). How the Web was Born: The Story of the World Wide Web. Oxford University Press. pp. 13. ISBN 978-0-19-286207-5.
  13. ^ F. J. Corbató, et al., The Compatible Time-Sharing System A Programmer's Guide (MIT Press, 1963) ISBN 978-0-262-03008-3. "To establish the context of the present work, it is informative to trace the development of time-sharing at MIT. Shortly after the first paper on time-shared computers by C. Strachey at the June 1959 UNESCO Information Processing conference, H.M. Teager and J. McCarthy delivered an unpublished paper "Time-Shared Program Testing" at the August 1959 ACM Meeting."
  14. ^ "Computer - Time-sharing and minicomputers". Encyclopedia Britannica. Retrieved 2020-01-23. In 1959 Christopher Strachey in the United Kingdom and John McCarthy in the United States independently described something they called time-sharing. Meanwhile, computer pioneer J.C.R. Licklider at the Massachusetts Institute of Technology (MIT) began to promote the idea of interactive computing as an alternative to batch processing.
  15. ^ Paul E. Ceruzzi (2012). Computing: A Concise History. The MIT Press. p. 75. ISBN 9780262517676.
  16. ^ "Interview of Joseph Carl Robnett (J.C.R.) Licklider", by James Pelkey, Computer History Museum, June 28, 1988.
  17. ^ Ali Mazalek. "Man-Computer Symbiosis" Or How I learned to Stop Worrying and Love the Borg (PDF). published by Georgia Institute of Technology. Archived from the original (PDF) on 2016-03-05. Retrieved 2015-08-13.
  18. ^ J. C. R. Licklider (April 23, 1963). "Memorandum For Members and Affiliates of the Intergalactic Computer Network". Washington, D.C.: Advanced Research Projects Agency. Retrieved August 19, 2013.
  19. ^ ""Man-Computer Symbiosis" In MIT 150 Exhibition". 2011. Archived from the original on October 22, 2018. Retrieved April 20, 2013.
  20. ^ "Laboratory for Computer Science (LCS) | MIT History".
  21. ^ Raymond, Eric S. (2003). The Art of Unix Programming. p. 30.
  22. ^ Williams, Wayne. "The Next Dimension". Retro Gamer. No. 10. Imagine Publishing. pp. 30–41.
  23. ^ Licklider, J. C. R. (1951). "A duplex theory of pitch perception". Experientia (Basel) 7, 4, 128–134.
  24. ^ "Google Scholar".
  25. ^ Earl D. Schubert (1979). Psychological Acoustics. Stroudsburg PA: Dowden, Hutchinson, and Ross, Inc.
  26. ^ R. D. Patterson; J. Holdsworth; M. Allerhand (1992). "Auditory Models as Preprocessors for Speech Recognition". In Marten Egbertus Hendrik Schouten (ed.). The Auditory Processing of Speech: From Sounds to Words. Walter de Gruyter. ISBN 978-3-11-013589-3.
  27. ^ Licklider JC (1948). "The influence of interaural phase relations upon the masking of speech by white noise". J. Acoust. Soc. Am. 20 (2): 150–159. Bibcode:1948ASAJ...20..150L. doi:10.1121/1.1906358.
  28. ^ "J. C. R. Licklider And The Universal Network", Living Internet, accessed 18 September 2012
  29. ^ a b c Licklider, J. C. R., "Man-Computer Symbiosis" Archived 2005-11-03 at the Wayback Machine, IRE Transactions on Human Factors in Electronics, vol. HFE-1, 4-11, March 1960.
  30. ^ Licklider, J. C. R. (1965). Libraries of the Future (PDF). Cambridge, MA: Massachusetts Institute of Technology. p. 1965. Archived from the original (PDF) on 2012-09-16.
  31. ^ Guice, Jon (1998), "Controversy and the State: Lord ARPA and Intelligence Computing", Social Studies of Science, 28 (1): 103–138, doi:10.1177/030631298028001004, JSTOR 285752, PMID 11619937, S2CID 23036109
  32. ^ "J. C. R. Licklider". The History of Computing Project. thocp.net. July 8, 2001. Retrieved August 7, 2011.
  33. ^ Highnam, Peter (2020-06-23). "The Defense Advanced Research Projects Agency's Artificial Intelligence Vision". AI Magazine. 41 (2): 83–85. doi:10.1609/aimag.v41i2.5301. ISSN 2371-9621.
  34. ^ Mohamed, Arif (March 2009). "A History of Cloud Computing". ComputerWeekly. Retrieved May 1, 2012.
  35. ^ Roberts, Dr. Lawrence G. (November 1978). "The Evolution of Packet Switching". Archived from the original on March 24, 2016. Retrieved 5 September 2017. Almost immediately after the 1965 meeting, Donald Davies conceived of the details of a store-and-forward packet switching system
  36. ^ Roberts, Dr. Lawrence G. (May 1995). "The ARPANET & Computer Networks". Archived from the original on March 24, 2016. Retrieved 13 April 2016.
  37. ^ "Televistas: Looking ahead through side windows", J. C. R. Licklider, Supplementary Papers submitted to the Carnegie Commission on Educational Television, 1967
  38. ^ Johnson, Lyndon B. (November 7, 1967). "Remarks of President Lyndon B. Johnson Upon Signing the Public Broadcasting Act of 1967". cpb.org. Archived from the original on August 8, 2011. Retrieved August 7, 2011.
  39. ^ a b "The Computer as a Communication Device", J.C.R. Licklider and Robert W. Taylor, Science and Technology, April 1968

Further reading

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