EFTA02539827.pdf

From: Marvin Minslir Sent: Tuesday, May 31, 2011 7:09 PM To: Jeffrey Epstein Subject: Minsky biography / CV Brief Academic Biography of Marvin Minsky Marvin Minsky is Toshiba Professor of Media Arts and Sciences at the Massach=setts Institute of Technology. His research has led to both theoretical and=practical advances in artificial intelligence, cognitive psychology, neural=networks, and the general theory of computation. (In 1961 he showed that a=y computer can be simulated by a machine with only two registers and two si=ple instructions.) He has made many other contributions in the domains of c=mputer graphics, symbolic computation, knowledge representation, commonsens=cal semantics, and both symbolic and connectionist learning. He has also be=n involved with advanced technologies for exploring space. Professor Minsky was also a pioneer of robotics and telepresence. He designe= and built some of the first visual scanners, and mechanical hands with tac=ile sensors, along with their software and hardware interfaces. These influ=nced many subsequent robotic projects. In 1951he built the first randomly wired neural network learning -- based o= reinforcing the synaptic connections that contributed to recent reactions.=ln 1956, when a Junior Fellow at Harvard, he invented and built the first C=nfocal Scanning Microscope, an optical instrument with unprecedented resolu=ion and image quality. Since the early 1950s, Marvin Minsky has worked on using computational ideas=to characterize human psychological processes, as well as working to endow m=chines with intelligence. His 1961 paper, "Steps Towards Artificial Intelli=ence" surveyed and analyzed what had been done before, and outlined many ma=or problems that the infant discipline would later later need to face. The 1=63 paper, "Matter, Mind, and Models" addressed the problem of making self-a=are machines. In "Perceptrons," 1969, Minsky and Seymour Papert characteriz=d the capabilities and limitations of loop-free learning and pattern recogn=tion machines. In "A Framework for Representing Knowledge" (1974) Minsky pu= forth a model of knowledge representation to account for many phenomena in=cognition, language understanding, and visual perception. These representat=ons, called "frames," inherited their variable assignments from previously d=fined frames, and are often considered to be an early form of object orient=d programming. In the early 1970s, Minsky and Papert began formulating a theory which combi=ed insights from developmental child psychology and their experience with r=search on Artificial Intelligence — a view in which human intellige=ce comes from the managed interaction of a diverse variety of agencies. The= argued that such diversity is necessary because different tasks require fu=damentally different mechanisms; this transforms psychology from a fruitles= quest for a few "basic" principles into a search for mechanisms that a min= could use to manage the interaction of many diverse elements. Bits and pieces of this theory emerged in papers through the 70s and early 8=s. Papert turned to applying these new ideas to transforming education whil= Minsky continued to work on "The Society of Mind," a book published in 198= which 270 interconnected one-page ideas reflect the structure of the theor= itself. Each page either proposes one such mechanism to account for some p=ychological phenomena or addresses a problem introduced by some proposed so=ution of another page. In 2006, Minsky published a sequel, "The Emotion Mac=ine," which proposes theories that could account for human higher-level fee=ings, goals, emotions, and conscious thoughts in terms of multiple levels o= EFTA_R1_01688425 EFTA02539827 processes, some of which can reflect on the others. By providing us with m=litple different "ways to think," these processes could account for much of=our uniquely human resourcefulness. EDUCATION The Fieldston School, New York. Bronx High School of Science, New York Phillips Academy, Andover, Massachusetts United States Navy, 1944-45 B.A. Mathematics Harvard University 1946-50 Ph.D. Mathematics Princeton University 1951-54 Junior Fellow, Harvard Society of Fellows, 1954-1957 PROFESSIONAL Toshiba Professor of Media Arts and Sciences, M.I.T, 1990-present Donner Professor of Science, M.I.T., 1974-1989 Professor, Department of Electrical Engineering, M.I.T., 1974 Co-Director, M.I.T. Artificial Intelligence Laboratory, 1959- 1974 Assistant Professor of Mathematics, M.I.T., 1958 Founder, M.I.T. Artificial Intelligence Project, 1959 Staff Member, M.I.T. Lincoln Laboratory, 1957-1958 HONORS Turing Award, Association for Computing Machinery, 1970 Doubleday Lecturer, Smithsonian Institution, 1978 Messenger Lecturer, Cornell University, 1979 Dr. Honoris Causa, Free University of Brussels, 1986 Killian Award, MIT, 1989 Japan Prize Laureate, 1990 Research Excellence Award, IJCAI 1991 Joseph Priestly Award, 1995 Rank Prize, Royal Society of Medicine, 1995 Computer Pioneer Award, IEEE Computer Society, 1995 R.W. Wood Prize, Optical Society of America, 2001 Benjamin Franklin Medal, Franklin Institute, 2001 In Praise of Reason Award, World Skeptics Congress, 2002 SOCIETIES President, American Association for Artificial Intelligence, 1981-82 Fellow, American Academy of Arts and Sciences Fellow, Institute of Electrical and Electronic Engineers Fellow, Harvard Society of Fellows Fellow, CSICOP Board of Advisors, National Dance Institute Board of Advisors, Planetary Society Board of Governors, National Space Society Awards Council, American Academy of Achievement Member, U.S. National Academy of Engineering Member, U.S. National Academy of Sciences Member, Argentine National Academy of Science CORPORATE AFFILIATIONS Director, Information International, Inc., 1961-1984 Founder, LOGO Computer Systems, Inc. Founder, Thinking Machines, Inc. Fellow, Walt Disney Imagineering INVENTIONS 1951 SNARC: First Neural Network Simulator 1955 Confocal Scanning Microscope: U.S.Patent 3013467 1963 First head-mounted graphical display 1963 Concept of Binary-Tree Robotic Manipulator 1967 Serpentine Hydraulic Robot Arm (MIT Museum of Science) 2 EFTA_R1_01688426 EFTA02539828 1970 The "Muse" -- Musical Variation Synthesizer (with E. Fredkin) 1972 First LOGO "turtle" device (with S. Papert) BOOKS Neural Nets and the Brain Model Problem, Ph.D. thesis, Princeton 1954. Computation: Finite and Infinite Machines, Prentice-Hall, 1967. Semantic Information Processing, MIT Press, 1968. Perceptrons, (with Papert), MIT Press, 1969, 1988 Artificial Intelligence (with Papert) Univ. of Oregon, 1972. Robotics, Doubleday, 1986. The Society of Mind, Simon and Schuster, 1987. The Turing Option, with Harry Harrison, Warner Books, 1992. The Emotion Machine. Simon and Schuster, 2006. <?xml version=.0" encoding=TF-8"?> <IDOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd"> <plist version=.0"> <dict> <key>conversation-id</key> <integer>188952</integer> <key>date-last-viewed</key> <integer>0</integer> <key>date-received</key> <integer>1306868937</integer> <key>flags</key> <integer>8590195713</integer> <key>gmail-label-ids</key> <array> <integer>2</integer> </array> <key>remote-id</key> <string>158814</string> </dict> </plist> 3 EFTA_R1_01688427 EFTA02539829