Probabilistic Computation in Human Perception under Variability in Encoding Precision

Author(s)

Keshvari, Shaiyan Oliver; Berg, Ronald van den; Ma, Wei Ji

Abstract

A key function of the brain is to interpret noisy sensory information. To do so optimally, observers must, in many tasks, take into account knowledge of the precision with which stimuli are encoded. In an orientation change detection task, we find that encoding precision does not only depend on an experimentally controlled reliability parameter (shape), but also exhibits additional variability. In spite of variability in precision, human subjects seem to take into account precision near-optimally on a trial-to-trial and item-to-item basis. Our results offer a new conceptualization of the encoding of sensory information and highlight the brain’s remarkable ability to incorporate knowledge of uncertainty during complex perceptual decision-making.

Date issued

2012-06

URI

http://hdl.handle.net/1721.1/72430

Department

Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences

Journal

PLoS ONE

Publisher

Public Library of Science

Citation

Keshvari, Shaiyan, Ronald van den Berg, and Wei Ji Ma. “Probabilistic Computation in Human Perception Under Variability in Encoding Precision.” Ed. Marc O. Ernst. PLoS ONE 7.6 (2012): e40216.

Version: Final published version

ISSN

1932-6203