Richard Shiffrin

Richard Shiffrin
Born (1942-03-13) March 13, 1942
New Haven, Connecticut
Fields Cognitive science
Institutions Indiana University
Alma mater

Stanford University

Yale University
Known for Empirical, theoretical, and computational work in the modeling of human cognition
Notable awards

1995  Fellow of the National Academy of Science

1996  Fellow of the American Academy of Arts and Sciences

1996  Fellow of the American Psychological Society

2002  Rumelhart Prize

2005  Fellow of the American Philosophical Society
Spouse Judith Mahy
Children 4

Richard Shiffrin (born March 13, 1942) is the Luther Dana Waterman Professor of cognitive science for the Department of Psychological and Brain Sciences at Indiana University, Bloomington. Shiffrin has contributed a number of theories of attention and memory to the field of psychology. He co-authored the Atkinson–Shiffrin model of memory in 1968 with Richard Atkinson,[1] who was his academic adviser at the time. In 1977, he published a theory of attention with Walter Schneider.[2] With Jeroen G.W. Raaijmakers in 1980, Shiffrin published the Search of Associative Memory (SAM) model,[3] which has served as the standard model of recall for cognitive psychologists well into the 2000s.[4] He extended the SAM model with the Retrieving Effectively From Memory (REM) model in 1997 with Mark Steyvers.[5]

Biography

Career

Shiffrin proposed a mathematical model of memory with Richard C. Atkinson in 1968 while at Stanford University. This laid out components of short and long term memory and processes that control the operations of memory. The Atkinson-Shiffrin memory model showed the importance and possibility of modeling the control processes of cognition, and remains one of the most highly cited in the entire field of psychology[6]

Shiffrin graduated with a Ph.D. in Mathematical Psychology from Stanford in 1968, and joined Indiana University as faculty that same year, where he remains today as a distinguished Professor and Luther Dana Waterman Professor of Psychological and Brain Sciences in the College of Arts and Sciences. Shiffrin also directs the department's Memory and Perception Laboratory.

In the 1980s, Shiffrin's formal theory of memory took a great leap forward with the Search of Associative Memory (SAM) model. This model quantified the nature of retrieval from long-term memory and characterized recall as a memory search with cycles of sampling and recovery.[7] In 1984, another quantum step forward occurred, when the theory was extended to recognition memory, in which a decision is based on summed activation of related memory traces.[8] It was a major accomplishment that the same retrieval activations that had been used in the recall model could be carried forward and used to predict a wide range of recognition phenomena. Another major step, In 1990, Shiffrin published two articles on the list-length effect which clearly established that experience leads to the differentiation, rather than the mere strengthening, of the representations of items in memory.[9][10] In 1997 Shiffrin extended the SAM model with the Retrieving Effectively From Memory (REM) model.[11][12]

Shiffrin runs an Annual Summer Interdisciplinary Conference ( ASIC ) that features talks and posters in the broad frame of Cognitive Science and related areas. Days are free for activities, and talks/posters fall in late afternoon and evening sessions, followed by dinner. The settings are in scenic and dramatic mountain venues with access to summer adventure and mountain sports such as climbing, hiking, biking, canyoning, white water rafting, and via ferrata. Attendees are welcome to bring family and friends and the conference is open to all interested parties. Invitation is not needed to attend.[13]

Awards

See also

References

  1. Atkinson, R.C. & Shiffrin, R.M. (1968) Human memory: A proposed system and its control processes. In K.W. Spence and J.T. Spence (Eds.), The psychology of learning and motivation, vol. 8. London: Academic Press.
  2. Shiffrin, R. M. & Schneider, W. (1977). Controlled and automatic human information processing: II. Perceptual learning, automatic attending, and a general theory. Psychological Review, 84, 127–190.
  3. Raaijmakers, J. G. W. & Shiffrin, R. M. (1980). SAM: A theory of probabilistic search of associative memory. In Bower, G. H. (Ed.), The Psychology of Learning and Motivation, Vol. 14, 207–262. New York: Academic Press.
  4. APS Observer - Models of Memory: Award Address by Richard M. Shiffrin
  5. Shiffrin, R. M. & Steyvers, M. (1997). A model for recognition memory: REM: Retrieving effectively from memory. Psychonomic Bulletin and Review, 4(2), 145–166.
  6. Atkinson, R. C., & Shiffrin, R. M. (1968). Human memory: A proposed system and its control processes. In K. W. Spence and J. T. Spence (Eds.), The Psychology of Learning and Motivation: Advances in Research and Theory (Vol. 2, pp. 89-195). New York: Aaademic Press.
  7. Raaijmakers, J. G. W., & Shiffrin, R. M. (1980). SAM: A theory of probabilistic search of associative memory. In Bower, G. H. (Ed.), The Psychology of Learning and Motivation, Vol. 14, 207-262. New York: Academic Press.
  8. Gillund, G., & Shiffrin, R. M. (1984). A retrieval model for both recognition and recall. Psychological Review, 91, 1-67.
  9. Ratcliff, R., Clark, S., & Shiffrin, R. M. (1990). The list-strength effect: I. Data and discussion. Journal of Experimental Psychology: Learning, Memory, and Cognition, 16, 163-178.
  10. Shiffrin, R. M., Ratcliff, R., & Clark, S. (1990). The list-strength effect: II. Theoretical mechanisms. Journal of Experimental Psychology: Learning, Memory, and Cognition, 16, 179-195.
  11. Shiffrin, R. M., & Steyvers, M. (1997). A model for recognition memory: REM: Retrieving effectively from memory. Psychonomic Bulletin and Review, 4 (2), 145-166.
  12. http://www.lrdc.pitt.edu/schunn/cogsci2002/plenary_shiffrin2.html
  13. http://www.cogs.indiana.edu/asic/
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