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C. Randy Gallistel

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Charles Ransom (Randy) Gallistel
Born (1941-05-18) May 18, 1941 (age 83)
Indianapolis
NationalityAmerican
Alma materStanford University, Yale University
Occupation(s)Neuroscientist, Psychologist

Charles Ransom Gallistel (born May 18, 1941) is an Emeritus Professor of Psychology at Rutgers University. He is an expert in the cognitive processes of learning and memory, using animal models to carry out research on these topics. Gallistel is married to fellow psychologist Rochel Gelman. Prior to joining the Rutgers faculty he held positions at the University of Pennsylvania, where he was chair of the psychology department and Bernard L. & Ida E. Grossman Term Professor, and at the University of California, Los Angeles.[1][2]

Academic career

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Gallistel obtained his BA in psychology from Stanford University in 1963 and his PhD in physiological psychology from Yale University in 1966. He joined the faculty of Psychology at the University of Pennsylvania in 1966, where he became full professor in 1976. He moved to UCLA with his wife, Rochel Gelman, in 1989. They moved to Rutgers University, the State University of New Jersey in New Brunswick, NJ in 2000, where they became co-directors of the Rutgers Center for Cognitive Science. Gallistel was elected to the American Academy of Arts and Sciences in 2001 and to the National Academy of Sciences (USA) in 2002.

Research

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Gallistel has made experimental and theoretical contributions to several areas of behavioral and cognitive neuroscience: 1) The nature and development of the representation of numerosity in young children, in collaboration with his wife, Rochel Gelman.[3] 2) The psychophysical analysis of the neural substrate for electrical self-stimulation of the brain.[4] 3) The theory of action and its close relation to the theory of motivation.[5] 4) The theory of learning.[6] 5) What it means to say that brains represent the experienced world.[7] 6) The brain's representation of the abstract variables central to conceptions of space (distance & direction), time (duration and phase), numerosity, rate (number/duration) and probability (subset numerosity/set numerosity).[8] 7) The nature of the engram, the physical realization of memory in brains.[9]

Gallistel is an advocate of the computational theory of mind, and as such he criticized the view of memory as an alteration of synaptic connections (a view that is related to Associationism). His critique, in particular, focuses on how the Associationist theory of mind allegedly cannot explain how the brain encodes quantitative data such as distances, directions, and temporal durations. Gallistel rather argues that such memories could be collected inside the neurons, at the molecular level, and to support his claim he remarks the considerable capacity of polynucleotides for storing information.[10][11][12][13][14][15]

Books

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  • Gallistel, C. R.; King, Adam Philip (2009). Memory and the computational brain: why cognitive science will transform neuroscience. Wiley-Blackwell. ISBN 9781444310498.

References

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  1. ^ Haselgrove, Mark (2016). Learning: A Very Short Introduction. Oxford University Press.
  2. ^ Stemmy, E. (2004). "Biography of Charles R. Gallistel". Proceedings of the National Academy of Sciences. 101 (36): 13121–13123. doi:10.1073/pnas.0405840101. ISSN 0027-8424. PMC 516534. PMID 15340141.
  3. ^ R. Gelman et C. R. Gallistel, The Child's Understanding of Number.
  4. ^ C. R. Gallistel, Electrical self-stimulation and its theoretical implications in Psychological Bulletin, 1964, 61, 23-34
  5. ^ C. R. Gallistel, The organization of action: A new synthesis, Hillsdale, N. J.: Lawrence Erlbaum Associates, Inc. 432 pp, 1980
  6. ^ C. R. Gallistel, P. D. Balsam, S. Fairhurst, The learning curve: Implications of a quantitative analysis. Proceedings of the National Academy of Sciences, R 101(36), 2004, p. 13124-13131
  7. ^ C. R. Gallistel, Learning and Representation. In: R. Menzel (ed.), Learning. Theory and Behavior, Vol. 1 of Learning and Memory: A Comprehensive Reference, p. 141-154, Academic Press, Oxford
  8. ^ C. R. Gallistel, 2018, Finding numbers in the brain. Proceedings of the Royal Society (London). Series B, 373(1740): 20170119
  9. ^ Gallistel, C.R. The coding question., 2017, Trends in Cognitive Sciences, 21(7), 498-508. doi: 10.1016/j.tics.2017.04.012
  10. ^ C. R. Gallistel, Machinery of cognition, chapitre 3, in Evolution and the Mechanisms of Decision Making. Strüngmann Forum Reports, Cambridge, MA, MIT Press, 2003, p. 39-52
  11. ^ C. R. Gallistel, A. P. King, Memory and the Computational Brain : Why cognitive Science will transform Neuroscience, New York: Blackwell/Wiley, 2009
  12. ^ C.R Gallistel, 2017 The neurobiological bases for the computational theory of mind, in R. G. d. Almeida & L. Gleitman (Eds.), On Concepts, Modules, and Language New York: Oxford University Press.p. 275-296
  13. ^ C. R. Gallistel, 2017, The coding question. Trends in Cognitive Sciences, 21(7), p. 498-508
  14. ^ C. R. Gallistel, 2017, Numbers and brains. Learning & Behavior, 45(4), p. 327-328
  15. ^ C. R. Gallistel, 2018, Finding numbers in the brain. Proceedings of the Royal Society (London). Series B, 373(1740): 20170119
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