Abstract
Humans are more likely to report perceiving an expected than an unexpected stimulus. Influential theories have proposed that this bias arises from expectation altering the sensory signal. However, the effects of expectation can also be due to decisional criterion shifts independent of any sensory changes. In order to adjudicate between these two possibilities, we compared the behavioral effects of pre-stimulus cues (pre cues; can influence both sensory signal and decision processes) and post-stimulus cues (post cues; can only influence decision processes). Subjects judged the average orientation of a series of Gabor patches. Surprisingly, we found that post cues had a larger effect on response bias (criterion c) than pre cues. Further, pre and post cues did not differ in their effects on stimulus sensitivity (d’) or the pattern of temporal or feature processing. Indeed, reverse correlation analyses showed no difference in the temporal or feature-based use of information between pre and post cues. Overall, post cues produced all of the behavioral modulations observed as a result of pre cues. These findings show that pre and post cues affect the decision through the same mechanisms and suggest that stimulus expectation alters the decision criterion but not the sensory signal itself.
Highlights
When given an expectation about a forthcoming stimulus, human subjects report the expected stimulus with greater frequency[1,2,3,4,5]
We examined the results of reverse correlation analyses applied to simulated data generated via sensory signal or decision criterion changes
We found that post cues were surprisingly more effective in influencing subjects’ choices than pre cues
Summary
When given an expectation about a forthcoming stimulus, human subjects report the expected stimulus with greater frequency[1,2,3,4,5]. It is possible that stimulus expectation alters the decision criterion[6,11] According to this view, the sensory processing of the stimulus remains exactly the same but downstream areas change the response using the information from the cue. The sensory processing of the stimulus remains exactly the same but downstream areas change the response using the information from the cue This possibility is tacitly assumed by more abstract theories such as Bayesian Decision Theory[12] and Signal Detection Theory[13,14] which typically treat stimulus expectation as affecting the decision rule rather than the stimulus distributions. A change in early but not late sensory signal created a characteristic pattern of L-shaped temporal information www.nature.com/scientificreports/
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