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Claude Shannon

January 01, 1970

Claude Elwood Shannon (April 30, 1916 – February 24, 2001) was an American mathematician, electrical engineer, computer scientist and cryptographer known as the "father of information theory". He was the first to describe the Boolean gates (electronic circuits) that are essential to all digital electronic circuits, and he built the first machine learning device, thus founding the field of artificial intelligence.[1][2][3][4] He is credited alongside George Boole for laying the foundations of the Information Age.[5][6][7][4]

Claude Shannon
Shannon c. 1950s
Born
Claude Elwood Shannon

(1916-04-30)April 30, 1916
Petoskey, Michigan, U.S.
DiedFebruary 24, 2001(2001-02-24) (aged 84)
Medford, Massachusetts, U.S.
Alma materUniversity of Michigan (AB, BS)
Massachusetts Institute of Technology (MS, PhD)
Known for
 
Spouse(s)Norma Levor (1940–41)
Betty Shannon (1949–2001)
Awards
Morris Liebmann Memorial Prize (1949)
Scientific career
FieldsMathematics, computer science, electronic engineering
Institutions
Theses
  • A Symbolic Analysis of Relay and Switching Circuits  (1937)
  • An Algebra for Theoretical Genetics (1940)
Doctoral advisorFrank Lauren Hitchcock
Doctoral students

As a 21-year-old master's degree student at the Massachusetts Institute of Technology (MIT), he wrote his thesis demonstrating that electrical applications of Boolean algebra could construct any logical numerical relationship,[8] thereby establishing the theory behind digital computing and digital circuits.[9][10] In 1987, Howard Gardner called his thesis "possibly the most important, and also the most famous, master's thesis of the century",[11] and Herman Goldstine described it as "surely ... one of the most important master's theses ever written ... It helped to change digital circuit design from an art to a science."[12]

Shannon also contributed to the field of cryptanalysis for national defense of the United States during World War II, including his fundamental work on codebreaking and secure telecommunications, writing a paper which is considered one of the foundational pieces of modern cryptography,[13] and whose work "was a turning point, and marked the closure of classical cryptography and the beginning of modern cryptography."[14]

His mathematical theory of communication laid the foundations for the field of information theory,[15] with his famous paper being called the "Magna Carta of the Information Age" by Scientific American,[7][16] along with his work being described as being at "the heart of today's digital information technology".[17]

His Theseus machine was the first electrical device to learn by trial and error. It is thus the first example of artificial intelligence.[18][19]

Rodney Brooks declared that Shannon was the 20th century engineer who contributed the most to 21st century technologies.[18] Shannon's achievements are considered to be on par with those of Albert Einstein and Sir Isaac Newton in their fields.[5][2][20][21]

Biography edit

Childhood edit

The Shannon family lived in Gaylord, Michigan, and Claude was born in a hospital in nearby Petoskey.[1] His father, Claude Sr. (1862–1934), was a businessman and, for a while, a judge of probate in Gaylord. His mother, Mabel Wolf Shannon (1890–1945), was a language teacher, who also served as the principal of Gaylord High School.[22] Claude Sr. was a descendant of New Jersey settlers, while Mabel was a child of German immigrants.[1] Shannon's family was active in their Methodist Church during his youth.[23]

Most of the first 16 years of Shannon's life were spent in Gaylord, where he attended public school, graduating from Gaylord High School in 1932. Shannon showed an inclination towards mechanical and electrical things. His best subjects were science and mathematics. At home, he constructed such devices as models of planes, a radio-controlled model boat and a barbed-wire telegraph system to a friend's house a half-mile away.[24] While growing up, he also worked as a messenger for the Western Union company.

Shannon's childhood hero was Thomas Edison, whom he later learned was a distant cousin. Both Shannon and Edison were descendants of John Ogden (1609–1682), a colonial leader and an ancestor of many distinguished people.[25][26]

Logic circuits edit

In 1932, Shannon entered the University of Michigan, where he was introduced to the work of George Boole. He graduated in 1936 with two bachelor's degrees: one in electrical engineering and the other in mathematics.

In 1936, Shannon began his graduate studies in electrical engineering at the Massachusetts Institute of Technology (MIT), where he worked on Vannevar Bush's differential analyzer, which was an early analog computer that was composed of electromechanical parts and could solve differential equations.[27] While studying the complicated ad hoc circuits of this analyzer, Shannon designed switching circuits based on Boole's concepts. In 1937, he wrote his master's degree thesis, A Symbolic Analysis of Relay and Switching Circuits.[28] A paper from this thesis was published in 1938.[29] In this work, Shannon diagramed switching circuits that could implement the essential operators of Boolean algebra. Then he proved that his switching circuits could be used to simplify the arrangement of the electromechanical relays that were used during that time in telephone call routing switches. Next, he expanded this concept, proving that these circuits could solve all problems that Boolean algebra could solve. In the last chapter, he presented diagrams of several circuits, including a digital 4-bit full adder.[28]

Using this property of electrical switches to implement logic is the fundamental concept that underlies all electronic digital computers. Shannon's work became the foundation of digital circuit design, as it became widely known in the electrical engineering community during and after World War II. The theoretical rigor of Shannon's work superseded the ad hoc methods that had prevailed previously. Howard Gardner hailed Shannon's thesis "possibly the most important, and also the most noted, master's thesis of the century."[30]

Shannon received his PhD in mathematics from MIT in 1940.[25] Vannevar Bush had suggested that Shannon should work on his dissertation at the Cold Spring Harbor Laboratory, in order to develop a mathematical formulation for Mendelian genetics. This research resulted in Shannon's PhD thesis, called An Algebra for Theoretical Genetics.[31]

In 1940, Shannon became a National Research Fellow at the Institute for Advanced Study in Princeton, New Jersey. In Princeton, Shannon had the opportunity to discuss his ideas with influential scientists and mathematicians such as Hermann Weyl and John von Neumann, and he also had occasional encounters with Albert Einstein and Kurt Gödel. Shannon worked freely across disciplines, and this ability may have contributed to his later development of mathematical information theory.[32]

Wartime research edit

Shannon had worked at Bell Labs for a few months in the summer of 1937,[33] and returned there to work on fire-control systems and cryptography during World War II, under a contract with section D-2 (Control Systems section) of the National Defense Research Committee (NDRC).

Shannon is credited with the invention of signal-flow graphs, in 1942. He discovered the topological gain formula while investigating the functional operation of an analog computer.[34]

For two months early in 1943, Shannon came into contact with the leading British mathematician Alan Turing. Turing had been posted to Washington to share with the U.S. Navy's cryptanalytic service the methods used by the British Government Code and Cypher School at Bletchley Park to break the cyphers used by the Kriegsmarine U-boats in the north Atlantic Ocean.[35] He was also interested in the encipherment of speech and to this end spent time at Bell Labs. Shannon and Turing met at teatime in the cafeteria.[35] Turing showed Shannon his 1936 paper that defined what is now known as the "universal Turing machine".[36][37] This impressed Shannon, as many of its ideas complemented his own.

In 1945, as the war was coming to an end, the NDRC was issuing a summary of technical reports as a last step prior to its eventual closing down. Inside the volume on fire control, a special essay titled Data Smoothing and Prediction in Fire-Control Systems, coauthored by Shannon, Ralph Beebe Blackman, and Hendrik Wade Bode, formally treated the problem of smoothing the data in fire-control by analogy with "the problem of separating a signal from interfering noise in communications systems."[38] In other words, it modeled the problem in terms of data and signal processing and thus heralded the coming of the Information Age.

Shannon's work on cryptography was even more closely related to his later publications on communication theory.[39] At the close of the war, he prepared a classified memorandum for Bell Telephone Labs entitled "A Mathematical Theory of Cryptography", dated September 1945. A declassified version of this paper was published in 1949 as "Communication Theory of Secrecy Systems" in the Bell System Technical Journal. This paper incorporated many of the concepts and mathematical formulations that also appeared in his A Mathematical Theory of Communication. Shannon said that his wartime insights into communication theory and cryptography developed simultaneously, and that "they were so close together you couldn't separate them".[40] In a footnote near the beginning of the classified report, Shannon announced his intention to "develop these results … in a forthcoming memorandum on the transmission of information."[41]

While he was at Bell Labs, Shannon proved that the cryptographic one-time pad is unbreakable in his classified research that was later published in 1949. The same article also proved that any unbreakable system must have essentially the same characteristics as the one-time pad: the key must be truly random, as large as the plaintext, never reused in whole or part, and kept secret.[42]

Information theory edit

Main article: information theory

In 1948, the promised memorandum appeared as "A Mathematical Theory of Communication", an article in two parts in the July and October issues of the Bell System Technical Journal. This work focuses on the problem of how best to encode the message a sender wants to transmit. Shannon developed information entropy as a measure of the information content in a message, which is a measure of uncertainty reduced by the message. In so doing, he essentially invented the field of information theory.

The book The Mathematical Theory of Communication reprints Shannon's 1948 article and Warren Weaver's popularization of it, which is accessible to the non-specialist. Weaver pointed out that the word "information" in communication theory is not related to what you do say, but to what you could say. That is, information is a measure of one's freedom of choice when one selects a message. Shannon's concepts were also popularized, subject to his own proofreading, in John Robinson Pierce's Symbols, Signals, and Noise.

Information theory's fundamental contribution to natural language processing and computational linguistics was further established in 1951, in his article "Prediction and Entropy of Printed English", showing upper and lower bounds of entropy on the statistics of English – giving a statistical foundation to language analysis. In addition, he proved that treating space as the 27th letter of the alphabet actually lowers uncertainty in written language, providing a clear quantifiable link between cultural practice and probabilistic cognition.

Another notable paper published in 1949 is "Communication Theory of Secrecy Systems", a declassified version of his wartime work on the mathematical theory of cryptography, in which he proved that all theoretically unbreakable cyphers must have the same requirements as the one-time pad. He is also credited with the introduction of sampling theory, which is concerned with representing a continuous-time signal from a (uniform) discrete set of samples. This theory was essential in enabling telecommunications to move from analog to digital transmissions systems in the 1960s and later.

Artificial Intelligence edit

In 1950, Shannon, designed, and built with the help of his wife, a machine learning device, Theseus. It consisted of a maze on a surface, below which were sensors that followed the path of a mechanical mouse through the maze. After much trial and error, this device would learn the shortest path through the maze, and direct the mechanical mouse through the maze. The pattern of the maze could be changed at will.[19]

Mazin Gilbert says Theseus "inspired the whole field of AI. This random trial and error is the foundation of artificial intelligence."[19]

Teaching at MIT edit

In 1956 Shannon joined the MIT faculty, holding an endowed chair. He worked in the Research Laboratory of Electronics (RLE). He continued to serve on the MIT faculty until 1978.

Later life edit

Shannon developed Alzheimer's disease and spent the last few years of his life in a nursing home; he died in 2001, survived by his wife, a son and daughter, and two granddaughters.[43][44]

Hobbies and inventions edit

 
The Minivac 601, a digital computer trainer designed by Shannon

Outside of Shannon's academic pursuits, he was interested in juggling, unicycling, and chess. He also invented many devices, including a Roman numeral computer called THROBAC, and juggling machines.[45][46] He built a device that could solve the Rubik's Cube puzzle.[25]

Shannon designed the Minivac 601, a digital computer trainer to teach business people about how computers functioned. It was sold by the Scientific Development Corp starting in 1961.[47]

He is also considered the co-inventor of the first wearable computer along with Edward O. Thorp.[48] The device was used to improve the odds when playing roulette.

Personal life edit

Shannon married Norma Levor, a wealthy, Jewish, left-wing intellectual in January 1940. The marriage ended in divorce after about a year. Levor later married Ben Barzman.[49]

Shannon met his second wife, Mary Elizabeth Moore (Betty), when she was a numerical analyst at Bell Labs. They were married in 1949.[43] Betty assisted Claude in building some of his most famous inventions.[50] They had three children.[51]

Shannon presented himself as apolitical and an atheist.[52]

Tributes edit

 
Statue of Claude Shannon at AT&T Shannon Labs

There are six statues of Shannon sculpted by Eugene Daub: one at the University of Michigan; one at MIT in the Laboratory for Information and Decision Systems; one in Gaylord, Michigan; one at the University of California, San Diego; one at Bell Labs; and another at AT&T Shannon Labs.[53] The statue in Gaylord is located in the Claude Shannon Memorial Park.[54] After the breakup of the Bell System, the part of Bell Labs that remained with AT&T Corporation was named Shannon Labs in his honor.

According to Neil Sloane, an AT&T Fellow who co-edited Shannon's large collection of papers in 1993, the perspective introduced by Shannon's communication theory (now called information theory) is the foundation of the digital revolution, and every device containing a microprocessor or microcontroller is a conceptual descendant of Shannon's publication in 1948:[55] "He's one of the great men of the century. Without him, none of the things we know today would exist. The whole digital revolution started with him."[56] The cryptocurrency unit shannon (a synonym for gwei) is named after him.[57]

Shannon is credited by many as single-handedly creating information theory and for laying the foundations for the Digital Age.[58][59][60][17][61][4]

A Mind at Play, a biography of Shannon written by Jimmy Soni and Rob Goodman, was published in 2017.[62] They described Shannon as "the most important genius you’ve never heard of, a man whose intellect was on par with Albert Einstein and Isaac Newton".[63]

On April 30, 2016, Shannon was honored with a Google Doodle to celebrate his life on what would have been his 100th birthday.[64][65][66][67][68][69]

The Bit Player, a feature film about Shannon directed by Mark Levinson premiered at the World Science Festival in 2019.[70] Drawn from interviews conducted with Shannon in his house in the 1980s, the film was released on Amazon Prime in August 2020.

The Mathematical Theory of Communication edit

Weaver's Contribution edit

Shannon's The Mathematical Theory of Communication,[71] begins with an interpretation of his own work by Warren Weaver. Although Shannon's entire work is about communication itself, Warren Weaver communicated his ideas in such a way that those not acclimated to complex theory and mathematics could comprehend the fundamental laws he put forth. The coupling of their unique communicational abilities and ideas generated the Shannon-Weaver model, although the mathematical and theoretical underpinnings emanate entirely from Shannon's work after Weaver's introduction. For the layman, Weaver's introduction better communicates The Mathematical Theory of Communication,[71] but Shannon's subsequent logic, mathematics, and expressive precision was responsible for defining the problem itself.

Other work edit

 
Shannon and his electromechanical mouse Theseus (named after Theseus from Greek mythology) which he tried to have solve the maze in one of the first experiments in artificial intelligence
 
Theseus Maze in MIT Museum

Shannon's mouse edit

"Theseus", created in 1950, was a mechanical mouse controlled by an electromechanical relay circuit that enabled it to move around a labyrinth of 25 squares.[72] The maze configuration was flexible and it could be modified arbitrarily by rearranging movable partitions.[72] The mouse was designed to search through the corridors until it found the target. Having travelled through the maze, the mouse could then be placed anywhere it had been before, and because of its prior experience it could go directly to the target. If placed in unfamiliar territory, it was programmed to search until it reached a known location and then it would proceed to the target, adding the new knowledge to its memory and learning new behavior.[72] Shannon's mouse appears to have been the first artificial learning device of its kind.[72]

Shannon's estimate for the complexity of chess edit

Main article: Shannon number

In 1949 Shannon completed a paper (published in March 1950) which estimates the game-tree complexity of chess, which is approximately 10120. This number is now often referred to as the "Shannon number", and is still regarded today as an accurate estimate of the game's complexity. The number is often cited as one of the barriers to solving the game of chess using an exhaustive analysis (i.e. brute force analysis).[73][74]

Shannon's computer chess program edit

On March 9, 1949, Shannon presented a paper called "Programming a Computer for playing Chess". The paper was presented at the National Institute for Radio Engineers Convention in New York. He described how to program a computer to play chess based on position scoring and move selection. He proposed basic strategies for restricting the number of possibilities to be considered in a game of chess. In March 1950 it was published in Philosophical Magazine, and is considered one of the first articles published on the topic of programming a computer for playing chess, and using a computer to solve the game.[73][75]

His process for having the computer decide on which move to make was a minimax procedure, based on an evaluation function of a given chess position. Shannon gave a rough example of an evaluation function in which the value of the black position was subtracted from that of the white position. Material was counted according to the usual chess piece relative value (1 point for a pawn, 3 points for a knight or bishop, 5 points for a rook, and 9 points for a queen).[76] He considered some positional factors, subtracting ½ point for each doubled pawn, backward pawn, and isolated pawn; mobility was incorporated by adding 0.1 point for each legal move available.

Shannon's maxim edit

Shannon formulated a version of Kerckhoffs' principle as "The enemy knows the system". In this form it is known as "Shannon's maxim".

Commemorations edit

Shannon centenary edit

 
Claude Shannon centenary

The Shannon centenary, 2016, marked the life and influence of Claude Elwood Shannon on the hundredth anniversary of his birth on April 30, 1916. It was inspired in part by the Alan Turing Year. An ad hoc committee of the IEEE Information Theory Society including Christina Fragouli, Rüdiger Urbanke, Michelle Effros, Lav Varshney and Sergio Verdú,[77] coordinated worldwide events. The initiative was announced in the History Panel at the 2015 IEEE Information Theory Workshop Jerusalem[78][79] and the IEEE Information Theory Society newsletter.[80]

A detailed listing of confirmed events was available on the website of the IEEE Information Theory Society.[81]

Some of the planned activities included:

  • Bell Labs hosted the First Shannon Conference on the Future of the Information Age on April 28–29, 2016, in Murray Hill, New Jersey, to celebrate Claude Shannon and the continued impact of his legacy on society. The event includes keynote speeches by global luminaries and visionaries of the information age who will explore the impact of information theory on society and our digital future, informal recollections, and leading technical presentations on subsequent related work in other areas such as bioinformatics, economic systems, and social networks. There is also a student competition
  • Bell Labs launched a Web exhibit on April 30, 2016, chronicling Shannon's hiring at Bell Labs (under an NDRC contract with US Government), his subsequent work there from 1942 through 1957, and details of Mathematics Department. The exhibit also displayed bios of colleagues and managers during his tenure, as well as original versions of some of the technical memoranda which subsequently became well known in published form.
  • The Republic of Macedonia is planning a commemorative stamp. A USPS commemorative stamp is being proposed, with an active petition.[82]
  • A documentary on Claude Shannon and on the impact of information theory, The Bit Player, is being produced by Sergio Verdú and Mark Levinson.
  • A trans-Atlantic celebration of both George Boole's bicentenary and Claude Shannon's centenary that is being led by University College Cork and the Massachusetts Institute of Technology. A first event was a workshop in Cork, When Boole Meets Shannon,[83] and will continue with exhibits at the Boston Museum of Science and at the MIT Museum.[84]
  • Many organizations around the world are holding observance events, including the Boston Museum of Science, the Heinz-Nixdorf Museum, the Institute for Advanced Study, Technische Universität Berlin, University of South Australia (UniSA), Unicamp (Universidade Estadual de Campinas), University of Toronto, Chinese University of Hong Kong, Cairo University, Telecom ParisTech, National Technical University of Athens, Indian Institute of Science, Indian Institute of Technology Bombay, Indian Institute of Technology Kanpur, Nanyang Technological University of Singapore, University of Maryland, University of Illinois at Chicago, École Polytechnique Federale de Lausanne, The Pennsylvania State University (Penn State), University of California Los Angeles, Massachusetts Institute of Technology, Chongqing University of Posts and Telecommunications, and University of Illinois at Urbana-Champaign.
  • A logo that appears on this page was crowdsourced on Crowdspring.[85]
  • The Math Encounters presentation of May 4, 2016, at the National Museum of Mathematics in New York, titled Saving Face: Information Tricks for Love and Life, focused on Shannon's work in information theory. A video recording and other material are available.[86]

Awards and honors list edit

The Claude E. Shannon Award was established in his honor; he was also its first recipient, in 1972.[87][88]

Selected works edit

  • Claude E. Shannon: A Symbolic Analysis of Relay and Switching Circuits, master's thesis, MIT, 1937.
  • Claude E. Shannon: "A Mathematical Theory of Communication", Bell System Technical Journal, Vol. 27, pp. 379–423, 623–656, 1948 (abstract).
  • Claude E. Shannon and Warren Weaver: The Mathematical Theory of Communication. The University of Illinois Press, Urbana, Illinois, 1949. ISBN 0-252-72548-4
  • Neil Sloane editor (1993) Claude Shannon: Collected Works, IEEE Press

See also edit

References edit

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  3. ^ Roberts, Siobhan (April 30, 2016). "The Forgotten Father of the Information Age". The New Yorker. ISSN 0028-792X. Retrieved September 28, 2023.
  4. ^ a b c Tse, David (December 22, 2020). "How Claude Shannon Invented the Future". Quanta Magazine. Retrieved September 28, 2023.
  5. ^ a b Atmar, Wirt (2001). "A Profoundly Repeated Pattern". Bulletin of the Ecological Society of America. 82 (3): 208–211. ISSN 0012-9623. JSTOR 20168572.
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  13. ^ Shimeall, Timothy J.; Spring, Jonathan M. (2013). Introduction to Information Security: A Strategic-Based Approach. Syngress. p. 167. ISBN 978-1597499699.
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  22. ^ Sloane & Wyner (1993), p. xi.
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  41. ^ Quoted in Erico Marui Guizzo, "The Essential Message: Claude Shannon and the Making of Information Theory", May 28, 2008, at the Wayback Machine unpublished MS thesis, Massachusetts Institute of Technology, 2003, p. 21.
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  47. ^ Advertisement: Minivac 601. October 1961. p. 33.
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Further reading edit

  • Rethnakaran Pulikkoonattu — Eric W. Weisstein: Mathworld biography of Shannon, Claude Elwood (1916–2001) Shannon, Claude Elwood (1916–2001) – from Eric Weisstein's World of Scientific Biography
  • Claude E. Shannon: Programming a Computer for Playing Chess, Philosophical Magazine, Ser.7, Vol. 41, No. 314, March 1950. (Available online under External links below)
  • David Levy: Computer Gamesmanship: Elements of Intelligent Game Design, Simon & Schuster, 1983. ISBN 0-671-49532-1
  • Mindell, David A., "Automation's Finest Hour: Bell Labs and Automatic Control in World War II", IEEE Control Systems, December 1995, pp. 72–80.
  • Poundstone, William, Fortune's Formula, Hill & Wang, 2005, ISBN 978-0-8090-4599-0
  • Gleick, James, The Information: A History, A Theory, A Flood, Pantheon, 2011, ISBN 978-0-375-42372-7
  • Jimmy Soni and Rob Goodman, A Mind at Play: How Claude Shannon Invented the Information Age, Simon and Schuster, 2017, ISBN 978-1476766683
  • Nahin, Paul J., The Logician and the Engineer: How George Boole and Claude Shannon Create the Information Age, Princeton University Press, 2013, ISBN 978-0691151007
  • Everett M. Rogers, Claude Shannon's Cryptography Research During World War II and the Mathematical Theory of Communication, 1994 Proceedings of IEEE International Carnahan Conference on Security Technology, pp. 1–5, 1994. Claude Shannon's cryptography research during World War II and the mathematical theory of communication

External links edit

  •   Media related to Claude Shannon at Wikimedia Commons
 
Wikiquote has quotations related to Claude Elwood Shannon.

January 01, 1970
claude, shannon, claude, elwood, shannon, april, 1916, february, 2001, american, mathematician, electrical, engineer, computer, scientist, cryptographer, known, father, information, theory, first, describe, boolean, gates, electronic, circuits, that, essential. Claude Elwood Shannon April 30 1916 February 24 2001 was an American mathematician electrical engineer computer scientist and cryptographer known as the father of information theory He was the first to describe the Boolean gates electronic circuits that are essential to all digital electronic circuits and he built the first machine learning device thus founding the field of artificial intelligence 1 2 3 4 He is credited alongside George Boole for laying the foundations of the Information Age 5 6 7 4 Claude ShannonShannon c 1950sBornClaude Elwood Shannon 1916 04 30 April 30 1916Petoskey Michigan U S DiedFebruary 24 2001 2001 02 24 aged 84 Medford Massachusetts U S Alma materUniversity of Michigan AB BS Massachusetts Institute of Technology MS PhD Known for Information theory A Mathematical Theory of Communication A Symbolic Analysis of Relay and Switching Circuits Communication Theory of Secrecy Systems Artificial intelligence Beta distribution Binary code Block cipher Boolean algebra Channel capacity Computer chess Data compression Digital electronics Digital Revolution Digital subscriber line Edge coloring Entropy in information theory Entropy information theory Entropy power inequality Error correcting codes with feedback Evaluation function Financial signal processing Information processing Information theoretic security Innovation signal processing Key size Logic gate Logic synthesis Minivac 601 Models of communication n gram Noisy channel coding theorem Nyquist Shannon sampling theorem One time pad Product cipher Pulse code modulation Rate distortion theory Sampling Shannon Fano coding Shannon Hartley law Shannon capacity Shannon entropy Shannon s expansion Shannon index Shannon s Maxim Shannon multigraph Shannon number Shannon security Shannon s source coding theorem Shannon switching game Shannon Weaver model of communication Stream cipher Switching circuit theory Symbolic dynamics Uncertainty coefficient Units of information Useless machine Wearable computer Whittaker Shannon interpolation formulaSpouse s Norma Levor 1940 41 Betty Shannon 1949 2001 AwardsMorris Liebmann Memorial Prize 1949 Stuart Ballantine Medal 1955 IEEE Medal of Honor 1966 National Medal of Science 1966 Harvey Prize 1972 Claude E Shannon Award 1972 Harold Pender Award 1978 John Fritz Medal 1983 Kyoto Prize 1985 Marconi Society Lifetime Achievement Award 2000 National Inventors Hall of Fame 2004 Scientific careerFieldsMathematics computer science electronic engineeringInstitutionsBell Labs MIT Institute for Advanced StudyThesesA Symbolic Analysis of Relay and Switching Circuits 1937 An Algebra for Theoretical Genetics 1940 Doctoral advisorFrank Lauren HitchcockDoctoral studentsDanny Hillis Leonard Kleinrock Ivan Sutherland Bert Sutherland As a 21 year old master s degree student at the Massachusetts Institute of Technology MIT he wrote his thesis demonstrating that electrical applications of Boolean algebra could construct any logical numerical relationship 8 thereby establishing the theory behind digital computing and digital circuits 9 10 In 1987 Howard Gardner called his thesis possibly the most important and also the most famous master s thesis of the century 11 and Herman Goldstine described it as surely one of the most important master s theses ever written It helped to change digital circuit design from an art to a science 12 Shannon also contributed to the field of cryptanalysis for national defense of the United States during World War II including his fundamental work on codebreaking and secure telecommunications writing a paper which is considered one of the foundational pieces of modern cryptography 13 and whose work was a turning point and marked the closure of classical cryptography and the beginning of modern cryptography 14 His mathematical theory of communication laid the foundations for the field of information theory 15 with his famous paper being called the Magna Carta of the Information Age by Scientific American 7 16 along with his work being described as being at the heart of today s digital information technology 17 His Theseus machine was the first electrical device to learn by trial and error It is thus the first example of artificial intelligence 18 19 Rodney Brooks declared that Shannon was the 20th century engineer who contributed the most to 21st century technologies 18 Shannon s achievements are considered to be on par with those of Albert Einstein and Sir Isaac Newton in their fields 5 2 20 21 Contents 1 Biography 1 1 Childhood 1 2 Logic circuits 1 3 Wartime research 1 4 Information theory 1 5 Artificial Intelligence 1 6 Teaching at MIT 1 7 Later life 1 8 Hobbies and inventions 1 9 Personal life 1 10 Tributes 2 The Mathematical Theory of Communication 2 1 Weaver s Contribution 3 Other work 3 1 Shannon s mouse 3 2 Shannon s estimate for the complexity of chess 3 3 Shannon s computer chess program 3 4 Shannon s maxim 4 Commemorations 4 1 Shannon centenary 5 Awards and honors list 6 Selected works 7 See also 8 References 9 Further reading 10 External linksBiography editChildhood edit The Shannon family lived in Gaylord Michigan and Claude was born in a hospital in nearby Petoskey 1 His father Claude Sr 1862 1934 was a businessman and for a while a judge of probate in Gaylord His mother Mabel Wolf Shannon 1890 1945 was a language teacher who also served as the principal of Gaylord High School 22 Claude Sr was a descendant of New Jersey settlers while Mabel was a child of German immigrants 1 Shannon s family was active in their Methodist Church during his youth 23 Most of the first 16 years of Shannon s life were spent in Gaylord where he attended public school graduating from Gaylord High School in 1932 Shannon showed an inclination towards mechanical and electrical things His best subjects were science and mathematics At home he constructed such devices as models of planes a radio controlled model boat and a barbed wire telegraph system to a friend s house a half mile away 24 While growing up he also worked as a messenger for the Western Union company Shannon s childhood hero was Thomas Edison whom he later learned was a distant cousin Both Shannon and Edison were descendants of John Ogden 1609 1682 a colonial leader and an ancestor of many distinguished people 25 26 Logic circuits edit In 1932 Shannon entered the University of Michigan where he was introduced to the work of George Boole He graduated in 1936 with two bachelor s degrees one in electrical engineering and the other in mathematics In 1936 Shannon began his graduate studies in electrical engineering at the Massachusetts Institute of Technology MIT where he worked on Vannevar Bush s differential analyzer which was an early analog computer that was composed of electromechanical parts and could solve differential equations 27 While studying the complicated ad hoc circuits of this analyzer Shannon designed switching circuits based on Boole s concepts In 1937 he wrote his master s degree thesis A Symbolic Analysis of Relay and Switching Circuits 28 A paper from this thesis was published in 1938 29 In this work Shannon diagramed switching circuits that could implement the essential operators of Boolean algebra Then he proved that his switching circuits could be used to simplify the arrangement of the electromechanical relays that were used during that time in telephone call routing switches Next he expanded this concept proving that these circuits could solve all problems that Boolean algebra could solve In the last chapter he presented diagrams of several circuits including a digital 4 bit full adder 28 Using this property of electrical switches to implement logic is the fundamental concept that underlies all electronic digital computers Shannon s work became the foundation of digital circuit design as it became widely known in the electrical engineering community during and after World War II The theoretical rigor of Shannon s work superseded the ad hoc methods that had prevailed previously Howard Gardner hailed Shannon s thesis possibly the most important and also the most noted master s thesis of the century 30 Shannon received his PhD in mathematics from MIT in 1940 25 Vannevar Bush had suggested that Shannon should work on his dissertation at the Cold Spring Harbor Laboratory in order to develop a mathematical formulation for Mendelian genetics This research resulted in Shannon s PhD thesis called An Algebra for Theoretical Genetics 31 In 1940 Shannon became a National Research Fellow at the Institute for Advanced Study in Princeton New Jersey In Princeton Shannon had the opportunity to discuss his ideas with influential scientists and mathematicians such as Hermann Weyl and John von Neumann and he also had occasional encounters with Albert Einstein and Kurt Godel Shannon worked freely across disciplines and this ability may have contributed to his later development of mathematical information theory 32 Wartime research edit Shannon had worked at Bell Labs for a few months in the summer of 1937 33 and returned there to work on fire control systems and cryptography during World War II under a contract with section D 2 Control Systems section of the National Defense Research Committee NDRC Shannon is credited with the invention of signal flow graphs in 1942 He discovered the topological gain formula while investigating the functional operation of an analog computer 34 For two months early in 1943 Shannon came into contact with the leading British mathematician Alan Turing Turing had been posted to Washington to share with the U S Navy s cryptanalytic service the methods used by the British Government Code and Cypher School at Bletchley Park to break the cyphers used by the Kriegsmarine U boats in the north Atlantic Ocean 35 He was also interested in the encipherment of speech and to this end spent time at Bell Labs Shannon and Turing met at teatime in the cafeteria 35 Turing showed Shannon his 1936 paper that defined what is now known as the universal Turing machine 36 37 This impressed Shannon as many of its ideas complemented his own In 1945 as the war was coming to an end the NDRC was issuing a summary of technical reports as a last step prior to its eventual closing down Inside the volume on fire control a special essay titled Data Smoothing and Prediction in Fire Control Systems coauthored by Shannon Ralph Beebe Blackman and Hendrik Wade Bode formally treated the problem of smoothing the data in fire control by analogy with the problem of separating a signal from interfering noise in communications systems 38 In other words it modeled the problem in terms of data and signal processing and thus heralded the coming of the Information Age Shannon s work on cryptography was even more closely related to his later publications on communication theory 39 At the close of the war he prepared a classified memorandum for Bell Telephone Labs entitled A Mathematical Theory of Cryptography dated September 1945 A declassified version of this paper was published in 1949 as Communication Theory of Secrecy Systems in the Bell System Technical Journal This paper incorporated many of the concepts and mathematical formulations that also appeared in his A Mathematical Theory of Communication Shannon said that his wartime insights into communication theory and cryptography developed simultaneously and that they were so close together you couldn t separate them 40 In a footnote near the beginning of the classified report Shannon announced his intention to develop these results in a forthcoming memorandum on the transmission of information 41 While he was at Bell Labs Shannon proved that the cryptographic one time pad is unbreakable in his classified research that was later published in 1949 The same article also proved that any unbreakable system must have essentially the same characteristics as the one time pad the key must be truly random as large as the plaintext never reused in whole or part and kept secret 42 Information theory edit Main article information theory In 1948 the promised memorandum appeared as A Mathematical Theory of Communication an article in two parts in the July and October issues of the Bell System Technical Journal This work focuses on the problem of how best to encode the message a sender wants to transmit Shannon developed information entropy as a measure of the information content in a message which is a measure of uncertainty reduced by the message In so doing he essentially invented the field of information theory The book The Mathematical Theory of Communication reprints Shannon s 1948 article and Warren Weaver s popularization of it which is accessible to the non specialist Weaver pointed out that the word information in communication theory is not related to what you do say but to what you could say That is information is a measure of one s freedom of choice when one selects a message Shannon s concepts were also popularized subject to his own proofreading in John Robinson Pierce s Symbols Signals and Noise Information theory s fundamental contribution to natural language processing and computational linguistics was further established in 1951 in his article Prediction and Entropy of Printed English showing upper and lower bounds of entropy on the statistics of English giving a statistical foundation to language analysis In addition he proved that treating space as the 27th letter of the alphabet actually lowers uncertainty in written language providing a clear quantifiable link between cultural practice and probabilistic cognition Another notable paper published in 1949 is Communication Theory of Secrecy Systems a declassified version of his wartime work on the mathematical theory of cryptography in which he proved that all theoretically unbreakable cyphers must have the same requirements as the one time pad He is also credited with the introduction of sampling theory which is concerned with representing a continuous time signal from a uniform discrete set of samples This theory was essential in enabling telecommunications to move from analog to digital transmissions systems in the 1960s and later Artificial Intelligence edit In 1950 Shannon designed and built with the help of his wife a machine learning device Theseus It consisted of a maze on a surface below which were sensors that followed the path of a mechanical mouse through the maze After much trial and error this device would learn the shortest path through the maze and direct the mechanical mouse through the maze The pattern of the maze could be changed at will 19 Mazin Gilbert says Theseus inspired the whole field of AI This random trial and error is the foundation of artificial intelligence 19 Teaching at MIT edit In 1956 Shannon joined the MIT faculty holding an endowed chair He worked in the Research Laboratory of Electronics RLE He continued to serve on the MIT faculty until 1978 Later life edit Shannon developed Alzheimer s disease and spent the last few years of his life in a nursing home he died in 2001 survived by his wife a son and daughter and two granddaughters 43 44 Hobbies and inventions edit nbsp The Minivac 601 a digital computer trainer designed by Shannon Outside of Shannon s academic pursuits he was interested in juggling unicycling and chess He also invented many devices including a Roman numeral computer called THROBAC and juggling machines 45 46 He built a device that could solve the Rubik s Cube puzzle 25 Shannon designed the Minivac 601 a digital computer trainer to teach business people about how computers functioned It was sold by the Scientific Development Corp starting in 1961 47 He is also considered the co inventor of the first wearable computer along with Edward O Thorp 48 The device was used to improve the odds when playing roulette Personal life edit Shannon married Norma Levor a wealthy Jewish left wing intellectual in January 1940 The marriage ended in divorce after about a year Levor later married Ben Barzman 49 Shannon met his second wife Mary Elizabeth Moore Betty when she was a numerical analyst at Bell Labs They were married in 1949 43 Betty assisted Claude in building some of his most famous inventions 50 They had three children 51 Shannon presented himself as apolitical and an atheist 52 Tributes edit nbsp Statue of Claude Shannon at AT amp T Shannon Labs There are six statues of Shannon sculpted by Eugene Daub one at the University of Michigan one at MIT in the Laboratory for Information and Decision Systems one in Gaylord Michigan one at the University of California San Diego one at Bell Labs and another at AT amp T Shannon Labs 53 The statue in Gaylord is located in the Claude Shannon Memorial Park 54 After the breakup of the Bell System the part of Bell Labs that remained with AT amp T Corporation was named Shannon Labs in his honor According to Neil Sloane an AT amp T Fellow who co edited Shannon s large collection of papers in 1993 the perspective introduced by Shannon s communication theory now called information theory is the foundation of the digital revolution and every device containing a microprocessor or microcontroller is a conceptual descendant of Shannon s publication in 1948 55 He s one of the great men of the century Without him none of the things we know today would exist The whole digital revolution started with him 56 The cryptocurrency unit shannon a synonym for gwei is named after him 57 Shannon is credited by many as single handedly creating information theory and for laying the foundations for the Digital Age 58 59 60 17 61 4 A Mind at Play a biography of Shannon written by Jimmy Soni and Rob Goodman was published in 2017 62 They described Shannon as the most important genius you ve never heard of a man whose intellect was on par with Albert Einstein and Isaac Newton 63 On April 30 2016 Shannon was honored with a Google Doodle to celebrate his life on what would have been his 100th birthday 64 65 66 67 68 69 The Bit Player a feature film about Shannon directed by Mark Levinson premiered at the World Science Festival in 2019 70 Drawn from interviews conducted with Shannon in his house in the 1980s the film was released on Amazon Prime in August 2020 The Mathematical Theory of Communication editWeaver s Contribution edit Shannon s The Mathematical Theory of Communication 71 begins with an interpretation of his own work by Warren Weaver Although Shannon s entire work is about communication itself Warren Weaver communicated his ideas in such a way that those not acclimated to complex theory and mathematics could comprehend the fundamental laws he put forth The coupling of their unique communicational abilities and ideas generated the Shannon Weaver model although the mathematical and theoretical underpinnings emanate entirely from Shannon s work after Weaver s introduction For the layman Weaver s introduction better communicates The Mathematical Theory of Communication 71 but Shannon s subsequent logic mathematics and expressive precision was responsible for defining the problem itself Other work edit nbsp Shannon and his electromechanical mouse Theseus named after Theseus from Greek mythology which he tried to have solve the maze in one of the first experiments in artificial intelligence nbsp Theseus Maze in MIT Museum Shannon s mouse edit Theseus created in 1950 was a mechanical mouse controlled by an electromechanical relay circuit that enabled it to move around a labyrinth of 25 squares 72 The maze configuration was flexible and it could be modified arbitrarily by rearranging movable partitions 72 The mouse was designed to search through the corridors until it found the target Having travelled through the maze the mouse could then be placed anywhere it had been before and because of its prior experience it could go directly to the target If placed in unfamiliar territory it was programmed to search until it reached a known location and then it would proceed to the target adding the new knowledge to its memory and learning new behavior 72 Shannon s mouse appears to have been the first artificial learning device of its kind 72 Shannon s estimate for the complexity of chess edit Main article Shannon number In 1949 Shannon completed a paper published in March 1950 which estimates the game tree complexity of chess which is approximately 10120 This number is now often referred to as the Shannon number and is still regarded today as an accurate estimate of the game s complexity The number is often cited as one of the barriers to solving the game of chess using an exhaustive analysis i e brute force analysis 73 74 Shannon s computer chess program edit On March 9 1949 Shannon presented a paper called Programming a Computer for playing Chess The paper was presented at the National Institute for Radio Engineers Convention in New York He described how to program a computer to play chess based on position scoring and move selection He proposed basic strategies for restricting the number of possibilities to be considered in a game of chess In March 1950 it was published in Philosophical Magazine and is considered one of the first articles published on the topic of programming a computer for playing chess and using a computer to solve the game 73 75 His process for having the computer decide on which move to make was a minimax procedure based on an evaluation function of a given chess position Shannon gave a rough example of an evaluation function in which the value of the black position was subtracted from that of the white position Material was counted according to the usual chess piece relative value 1 point for a pawn 3 points for a knight or bishop 5 points for a rook and 9 points for a queen 76 He considered some positional factors subtracting point for each doubled pawn backward pawn and isolated pawn mobility was incorporated by adding 0 1 point for each legal move available Shannon s maxim edit Shannon formulated a version of Kerckhoffs principle as The enemy knows the system In this form it is known as Shannon s maxim Commemorations editShannon centenary edit This section needs to be updated Please help update this article to reflect recent events or newly available information April 2016 nbsp Claude Shannon centenary The Shannon centenary 2016 marked the life and influence of Claude Elwood Shannon on the hundredth anniversary of his birth on April 30 1916 It was inspired in part by the Alan Turing Year An ad hoc committee of the IEEE Information Theory Society including Christina Fragouli Rudiger Urbanke Michelle Effros Lav Varshney and Sergio Verdu 77 coordinated worldwide events The initiative was announced in the History Panel at the 2015 IEEE Information Theory Workshop Jerusalem 78 79 and the IEEE Information Theory Society newsletter 80 A detailed listing of confirmed events was available on the website of the IEEE Information Theory Society 81 Some of the planned activities included Bell Labs hosted the First Shannon Conference on the Future of the Information Age on April 28 29 2016 in Murray Hill New Jersey to celebrate Claude Shannon and the continued impact of his legacy on society The event includes keynote speeches by global luminaries and visionaries of the information age who will explore the impact of information theory on society and our digital future informal recollections and leading technical presentations on subsequent related work in other areas such as bioinformatics economic systems and social networks There is also a student competition Bell Labs launched a Web exhibit on April 30 2016 chronicling Shannon s hiring at Bell Labs under an NDRC contract with US Government his subsequent work there from 1942 through 1957 and details of Mathematics Department The exhibit also displayed bios of colleagues and managers during his tenure as well as original versions of some of the technical memoranda which subsequently became well known in published form The Republic of Macedonia is planning a commemorative stamp A USPS commemorative stamp is being proposed with an active petition 82 A documentary on Claude Shannon and on the impact of information theory The Bit Player is being produced by Sergio Verdu and Mark Levinson A trans Atlantic celebration of both George Boole s bicentenary and Claude Shannon s centenary that is being led by University College Cork and the Massachusetts Institute of Technology A first event was a workshop in Cork When Boole Meets Shannon 83 and will continue with exhibits at the Boston Museum of Science and at the MIT Museum 84 Many organizations around the world are holding observance events including the Boston Museum of Science the Heinz Nixdorf Museum the Institute for Advanced Study Technische Universitat Berlin University of South Australia UniSA Unicamp Universidade Estadual de Campinas University of Toronto Chinese University of Hong Kong Cairo University Telecom ParisTech National Technical University of Athens Indian Institute of Science Indian Institute of Technology Bombay Indian Institute of Technology Kanpur Nanyang Technological University of Singapore University of Maryland University of Illinois at Chicago Ecole Polytechnique Federale de Lausanne The Pennsylvania State University Penn State University of California Los Angeles Massachusetts Institute of Technology Chongqing University of Posts and Telecommunications and University of Illinois at Urbana Champaign A logo that appears on this page was crowdsourced on Crowdspring 85 The Math Encounters presentation of May 4 2016 at the National Museum of Mathematics in New York titled Saving Face Information Tricks for Love and Life focused on Shannon s work in information theory A video recording and other material are available 86 Awards and honors list editThe Claude E Shannon Award was established in his honor he was also its first recipient in 1972 87 88 Stuart Ballantine Medal of the Franklin Institute 1955 89 Member of the American Academy of Arts and Sciences 1957 90 Harvey Prize the Technion of Haifa Israel 1972 91 Alfred Noble Prize 1939 award of civil engineering societies in the US 92 National Medal of Science 1966 presented by President Lyndon B Johnson 93 Kyoto Prize 1985 94 Morris Liebmann Memorial Prize of the Institute of Radio Engineers 1949 95 United States National Academy of Sciences 1956 96 Medal of Honor of the Institute of Electrical and Electronics Engineers 1966 97 Golden Plate Award of the American Academy of Achievement 1967 98 Royal Netherlands Academy of Arts and Sciences KNAW foreign member 1975 99 Member of the American Philosophical Society 1983 100 Basic Research Award Eduard Rhein Foundation Germany 1991 101 Marconi Society Lifetime Achievement Award 2000 102 Donnor Professor of Science MIT 1958 1979 103 Selected works editClaude E Shannon A Symbolic Analysis of Relay and Switching Circuits master s thesis MIT 1937 Claude E Shannon A Mathematical Theory of Communication Bell System Technical Journal Vol 27 pp 379 423 623 656 1948 abstract Claude E Shannon and Warren Weaver The Mathematical Theory of Communication The University of Illinois Press Urbana Illinois 1949 ISBN 0 252 72548 4 Neil Sloane editor 1993 Claude Shannon Collected Works IEEE PressSee also edit nbsp Biography portal nbsp Mathematics portal Entropy power inequality Error correcting codes with feedback List of pioneers in computer science Models of communication n gram Noisy channel coding theorem Nyquist Shannon sampling theorem One time pad Product cipher Pulse code modulation Rate distortion theory Sampling Shannon capacity Shannon entropy Shannon index Shannon multigraph Shannon security Shannon switching game Shannon Fano coding Shannon Hartley law Shannon Hartley theorem Shannon s expansion Shannon s source coding theorem Shannon Weaver model of communication Whittaker Shannon interpolation formulaReferences edit a b c James Ioan 2009 Claude Elwood Shannon 30 April 1916 24 February 2001 Biographical Memoirs of Fellows of the Royal Society 55 257 265 doi 10 1098 rsbm 2009 0015 a b Horgan John April 27 2016 Claude Shannon Tinkerer Prankster and Father of Information Theory spectrum ieee org Retrieved September 28 2023 Roberts Siobhan April 30 2016 The Forgotten Father of the Information Age The New Yorker ISSN 0028 792X Retrieved September 28 2023 a b c Tse David December 22 2020 How Claude Shannon Invented the Future Quanta Magazine Retrieved September 28 2023 a b Atmar Wirt 2001 A Profoundly Repeated Pattern Bulletin of the Ecological Society of America 82 3 208 211 ISSN 0012 9623 JSTOR 20168572 Nahin Paul J 2012 The Logician and the Engineer How George Boole and Claude Shannon Created the Information Age Princeton University Press ISBN 978 0691176000 JSTOR j cttq957s a b Goodman Jimmy Soni and Rob July 30 2017 Claude Shannon The Juggling Poet Who Gave Us the Information Age The Daily Beast Retrieved October 31 2023 Poundstone William 2005 Fortune s Formula The Untold Story of the Scientific Betting System That Beat the Casinos and Wall Street Hill amp Wang ISBN 978 0 8090 4599 0 Claude Shannon Father of the Information Age CosmoLearning Computer Science CosmoLearning Retrieved January 11 2024 Chow Rony June 5 2021 Claude Shannon The Father of Information Theory History of Data Science Retrieved January 11 2024 Smith Nancy Duvergne August 15 2011 Claude Shannon Digital Pioneer s Work Still Reverberates alum mit edu Retrieved January 11 2024 Goldstine Herman A 1972 The Computer From Pascal to von Neumann p 119 20 Shimeall Timothy J Spring Jonathan M 2013 Introduction to Information Security A Strategic Based Approach Syngress p 167 ISBN 978 1597499699 Koc Cetin Kaya Ozdemir Funda 2023 Development of Cryptography since Shannon Handbook of Formal Analysis and Verification in Cryptography Claude E Shannon IEEE Information Theory Society www itsoc org Retrieved October 31 2023 Goodman Rob Soni Jimmy 2018 Genius in Training Alumni Association of the University of Michigan Retrieved October 31 2023 a b Guizzo Erico Marui 2003 The Essential Message Claude Shannon and the Making of Information Theory Master s thesis University of Sao Paulo Retrieved January 11 2024 a b Brooks Rodney January 25 2022 How Claude Shannon Helped Kick start Machine Learning ieeespectrum Retrieved October 31 2023 a b c Klein Daniel 2019 Dragoon aLICE ed Mighty mouse MIT News January February Cambridge Massachusetts MIT Technology Review 6 7 Goodman Rob July 20 2017 Claude Shannon Was A Genius On Par With Einstein And Turing Why Isn t He As Famous Forbes Retrieved October 31 2023 Rutledge Tom August 16 2017 The Man Who Invented Information Theory Boston Review Retrieved October 31 2023 Sloane amp Wyner 1993 p xi Soni J Goodman R 2017 A Mind at Play How Claude Shannon Invented the Information Age Simon amp Schuster p 6 ISBN 978 1 4767 6668 3 Retrieved May 2 2023 Gleick James December 30 2001 THE LIVES THEY LIVED CLAUDE SHANNON B 1916 Bit Player The New York Times Magazine Section 6 Page 48 a b c MIT Professor Claude Shannon dies was founder of digital communications MIT News office Cambridge Massachusetts February 27 2001 Sloane N J A Wyner Aaron D eds 1993 Claude Elwood Shannon Collected Papers Wiley IEEE Press ISBN 978 0 7803 0434 5 Retrieved December 9 2016 Price Robert 1982 Claude E Shannon an oral history IEEE Global History Network IEEE Retrieved July 14 2011 a b Shannon C E 1938 A Symbolic Analysis of Relay and Switching Circuits Trans AIEE 57 12 713 723 doi 10 1109 T AIEE 1938 5057767 hdl 1721 1 11173 S2CID 51638483 Shannon C E 1938 A Symbolic Analysis of Relay and Switching Circuits Trans AIEE 57 12 713 723 doi 10 1109 T AIEE 1938 5057767 hdl 1721 1 11173 S2CID 51638483 Gardner Howard 1987 The Mind s New Science A History of the Cognitive Revolution Basic Books p 144 ISBN 978 0 465 04635 5 Shannon Claude Elwood 1940 An Algebra for Theoretical Genetics Thesis Massachusetts Institute of Technology hdl 1721 1 11174 Contains a biography on pp 64 65 Guizzo Erico Marui 2003 The Essential Message Claude Shannon and the Making of Information Theory Thesis Massachusetts Institute of Technology hdl 1721 1 39429 Gertner Jon 2013 The idea factory Bell Labs and the great age of American innovation London Penguin Books p 118 ISBN 978 0 14 312279 1 Okrent Howard McNamee Lawrence P 1970 3 3 Flowgraph Theory PDF NASAP 70 User s and Programmer s manual Los Angeles California School of Engineering and Applied Science University of California at Los Angeles pp 3 9 Retrieved March 4 2016 a b Hodges Andrew 1992 Alan Turing The Enigma London Vintage pp 243 252 ISBN 978 0 09 911641 7 Turing A M 1936 On Computable Numbers with an Application to the Entscheidungsproblem Proceedings of the London Mathematical Society 2 vol 42 published 1937 pp 230 65 doi 10 1112 plms s2 42 1 230 S2CID 73712 Turing A M 1938 On Computable Numbers with an Application to the Entscheidungsproblem A correction Proceedings of the London Mathematical Society 2 vol 43 no 6 published 1937 pp 544 6 doi 10 1112 plms s2 43 6 544 Mindell David A October 15 2004 Between Human and Machine Feedback Control and Computing Before Cybernetics JHU Press pp 319 320 ISBN 0801880572 Kahn David 1966 The Codebreakers The Comprehensive History of Secret Communication from Ancient Times to the Internet Macmillan and Sons pp 743 751 ISBN 0684831309 quoted in Kahn The Codebreakers p 744 Quoted in Erico Marui Guizzo The Essential Message Claude Shannon and the Making of Information Theory Archived May 28 2008 at the Wayback Machine unpublished MS thesis Massachusetts Institute of Technology 2003 p 21 Shannon C E 1949 Communication Theory of Secrecy Systems Bell System Technical Journal 28 4 656 715 doi 10 1002 j 1538 7305 1949 tb00928 x a b Weisstein Eric Shannon Claude Elwood 1916 2001 World of Scientific Biography Wolfram Research Claude Shannon computer science theory www thocp net The History of Computing Project Retrieved December 9 2016 People Shannon Claude Elwood MIT Museum Retrieved December 9 2016 Boehm George A W March 1 1953 GYPSY MODEL VI CLAUDE SHANNON NIMWIT AND THE MOUSE Computers and Automation 1953 03 Vol 2 Iss 2 Internet Archive Berkeley Enterprises pp 1 4 Advertisement Minivac 601 October 1961 p 33 Thorp Edward October 1998 The invention of the first wearable computer Digest of Papers Second International Symposium on Wearable Computers Cat No 98EX215 pp 4 8 doi 10 1109 iswc 1998 729523 ISBN 0 8186 9074 7 S2CID 1526 Jimmy Soni Rob Goodman 2017 A Mind At Play How Claude Shannon Invented the Information Age Simon and Schuster pp 63 80 Betty Shannon Unsung Mathematical Genius Scientific American Blog Network Retrieved July 26 2017 Horgan John April 27 2016 Claude Shannon Tinkerer Prankster and Father of Information Theory IEEE Spectrum Retrieved June 19 2020 William Poundstone 2010 Fortune s Formula The Untold Story of the Scientific Betting System Macmillan p 18 ISBN 978 0 374 70708 8 Shannon described himself as an atheist and was outwardly apolitical Claude Shannon Statue Dedications Archived from the original on July 31 2010 Michigan Roadside Attractions Claude Shannon Park Gaylord Travel the Mitten TravelTheMitten com August 11 2018 Retrieved September 8 2022 Gaylord Michigan is home to a small park honoring Claude Shannon Shannon C E 1948 A mathematical theory of communication Bell System Technical Journal 27 3 379 423 623 656 doi 10 1002 j 1538 7305 1948 tb01338 x Coughlin Kevin February 27 2001 Bell Labs digital guru dead at 84 Pioneer scientist led high tech revolution The Star Ledger Gwei Investopedia Claude Shannon The Telegraph March 12 2001 Retrieved January 11 2024 Calderbank Robert Sloane Neil J A April 12 2001 Claude Shannon 1916 2001 Nature 410 6830 768 doi 10 1038 35071223 ISSN 1476 4687 Gallager Robert G 2001 Claude E Shannon A Retrospective on His Life Work and Impact PDF IEEE Transactions on Information Theory 47 7 Collins Graham P October 14 2002 Claude E Shannon Founder of Information Theory Scientific American Retrieved January 11 2024 George Dyson July 21 2017 The Elegance of Ones and Zeroes Wall Street Journal Retrieved August 15 2017 Soni Jimmy Goodman Rob August 1 2017 10 000 Hours With Claude Shannon How a Genius Thinks Works and Lives Observer Retrieved October 31 2023 Claude Shannon s 100th birthday Google 2016 Katie Reilly April 30 2016 Google Doodle Honors Mathematician Juggler Claude Shannon Time Menchie Mendoza May 2 2016 Google Doodle Celebrates 100th Birthday Of Claude Shannon Father Of Information Theory Tech Times Google Doodle commemorates father of information theory Claude Shannon on his 100th birthday Firstpost May 3 2016 Jonathan Gibbs April 29 2016 Claude Shannon Three things you ll wish you owned that the mathematician invented The Independent David Z Morris April 30 2016 Google Celebrates 100th Birthday of Claude Shannon the Inventor of the Bit Fortune Feder Toni July 19 2019 Review The Bit Player an homage to Claude Shannon Physics Today doi 10 1063 PT 6 3 20190719a S2CID 243548904 Retrieved August 3 2019 a b Shannon Claude Elwood 1998 The mathematical theory of communication Warren Weaver Urbana University of Illinois Press ISBN 0 252 72546 8 OCLC 40716662 a b c d Bell Labs Advances Intelligent Networks Archived from the original on July 22 2012 a b Claude Shannon 1950 Programming a Computer for Playing Chess PDF Philosophical Magazine 41 314 Archived from the original PDF on July 6 2010 Retrieved January 2 2018 Grime James July 24 2015 How many chess games are possible Numberphile Early Computer Chess Programs by Bill Wall billwall phpwebhosting com Hamid Reza Ekbia 2008 Artificial Dreams The Quest for Non biological Intelligence Cambridge University Press p 46 ISBN 978 0 521 87867 8 Newsletter IEEE Information Theory Society IEEE June 2015 Archived from the original on July 9 2015 Videos Israel Technion Archived from the original on July 6 2015 Retrieved July 5 2015 Sergio Verdu Twitter Newsletter IEEE Information Theory Society IEEE September 2014 Archived from the original on September 4 2015 Shannon Centenary IEEE Information Theory Society IEEE Shannon s centenary US postal stamp Information Theory Society www itsoc org George Boole 200 Conferences Archived from the original on September 6 2015 Retrieved September 21 2015 Compute and Communicate A Boole Shannon Celebration Claude Shannon centennial logo a Logo amp Identity project by cfrag1 www crowdspring com Saving Face Information Tricks for Love and Life Math Encounters Presentation at the National Museum of Mathematics Claude E Shannon Award Information Theory Society www itsoc org Roberts Siobhan April 30 2016 Claude Shannon the Father of the Information Age Turns 1100100 The New Yorker Retrieved April 30 2016 Claude Elwood Shannon The Franklin Institute January 11 2014 Claude Elwood Shannon February 9 2023 Harvey Prize Technion Israel Institute of Technology Haifa Israel American Society of Civil Engineers Alfred Noble Prize American Society of Civil Engineers Retrieved April 27 2020 The President s National Medal of Science Recipient Details NSF National Science Foundation www nsf gov Claude Elwood Shannon Kyoto Prize 京都賞 IEEE Morris N Liebmann Memorial Award Recipients PDF IEEE Archived from the original PDF on March 3 2016 Retrieved February 27 2011 Claude Shannon National Academy of Sciences July 2 2015 Retrieved March 25 2019 IEEE Medal of Honor Recipients PDF IEEE Archived from the original PDF on April 22 2015 Retrieved February 27 2011 Golden Plate Awardees of the American Academy of Achievement www achievement org American Academy of Achievement C E Shannon 1916 2001 Royal Netherlands Academy of Arts and Sciences Retrieved July 17 2015 APS Member History Award Winners chronological Eduard Rhein Foundation Archived from the original on July 18 2011 Retrieved February 20 2011 Marconi Lifetime Achievement Award marconisociety org Staff February 27 2001 MIT Professor Claude Shannon dies was founder of digital communications MIT News Retrieved April 4 2023 Further reading editRethnakaran Pulikkoonattu Eric W Weisstein Mathworld biography of Shannon Claude Elwood 1916 2001 Shannon Claude Elwood 1916 2001 from Eric Weisstein s World of Scientific Biography Claude E Shannon Programming a Computer for Playing Chess Philosophical Magazine Ser 7 Vol 41 No 314 March 1950 Available online under External links below David Levy Computer Gamesmanship Elements of Intelligent Game Design Simon amp Schuster 1983 ISBN 0 671 49532 1 Mindell David A Automation s Finest Hour Bell Labs and Automatic Control in World War II IEEE Control Systems December 1995 pp 72 80 Poundstone William Fortune s Formula Hill amp Wang 2005 ISBN 978 0 8090 4599 0 Gleick James The Information A History A Theory A Flood Pantheon 2011 ISBN 978 0 375 42372 7 Jimmy Soni and Rob Goodman A Mind at Play How Claude Shannon Invented the Information Age Simon and Schuster 2017 ISBN 978 1476766683 Nahin Paul J The Logician and the Engineer How George Boole and Claude Shannon Create the Information Age Princeton University Press 2013 ISBN 978 0691151007 Everett M Rogers Claude Shannon s Cryptography Research During World War II and the Mathematical Theory of Communication 1994 Proceedings of IEEE International Carnahan Conference on Security Technology pp 1 5 1994 Claude Shannon s cryptography research during World War II and the mathematical theory of communicationExternal links edit nbsp Media related to Claude Shannon at Wikimedia Commons nbsp Wikiquote has quotations related to Claude Elwood Shannon Guide to the Claude Elwood Shannon papers at the Library of Congress A Public Lecture Celebrating Claude E Shannon Sergio Verdu Institute for Advanced Study on YouTube Claude Elwood Shannon 1916 2001 at the Notices of the American Mathematical Society Retrieved from https en wikipedia org w index php title Claude Shannon amp oldid 1222157174, wikipedia, wiki, book, books, library,

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