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Published August 16, 2011 | Published + Supplemental Material
Journal Article Open

Multialternative drift-diffusion model predicts the relationship between visual fixations and choice in value-based decisions

Abstract

How do we make decisions when confronted with several alternatives (e.g., on a supermarket shelf)? Previous work has shown that accumulator models, such as the drift-diffusion model, can provide accurate descriptions of the psychometric data for binary value-based choices, and that the choice process is guided by visual attention. However, the computational processes used to make choices in more complicated situations involving three or more options are unknown. We propose a model of trinary value-based choice that generalizes what is known about binary choice, and test it using an eye-tracking experiment. We find that the model provides a quantitatively accurate description of the relationship between choice, reaction time, and visual fixation data using the same parameters that were estimated in previous work on binary choice. Our findings suggest that the brain uses similar computational processes to make binary and trinary choices.

Additional Information

© 2011 National Academy of Sciences. Edited by James L. McClelland, Stanford University, Stanford, CA, and approved July 6, 2011 (received for review January 24, 2011). Published online before print August 1, 2011. We thank Johannes Pulst-Korenberg for data collection. Financial support for this work was provided by the National Science Foundation (A.R. and I.K.) and the Betty and Gordon Moore Foundation (A.R.). Author contributions: I.K. and A.R. designed research; I.K. and A.R. performed research; I.K. contributed new reagents/analytic tools; I.K. analyzed data; and I.K. and A.R. wrote the paper.

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Published - Krajbich2011p15652P_Natl_Acad_Sci_Usa.pdf

Supplemental Material - pnas.201101328SI.pdf

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