Apparent motion during saccadic suppression periods
Author(s) -
Robert S. Allison,
J. Schumacher,
Shabnam Sadr,
Rainer Herpers
Publication year - 2009
Publication title -
experimental brain research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.782
H-Index - 172
eISSN - 1432-1106
pISSN - 0014-4819
DOI - 10.1007/s00221-009-2120-y
Subject(s) - saccadic masking , saccade , fixation (population genetics) , saccadic suppression of image displacement , psychology , eye movement , magnitude (astronomy) , physics , computer vision , artificial intelligence , audiology , neuroscience , computer science , chemistry , astrophysics , medicine , biochemistry , gene
Sensitivity to many visual stimuli, and, in particular, image displacement, is reduced during a change in fixation (saccade) compared to when the eye is still. In these experiments, we studied the sensitivity of observers to ecologically relevant image translations of large, complex, real world scenes either during horizontal saccades or during fixation. In the first experiment, we found that such displacements were much less detectable during saccades than during fixation. Qualitatively, even when trans-saccadic scene changes were detectable, they were less salient and appeared slower than equivalent changes in the absence of a saccade. Two further experiments followed up on this observation and estimated the perceived magnitude of trans-saccadic apparent motion using a two-interval forced-choice procedure (Experiment 2) and a magnitude estimation procedure (Experiment 3). Both experiments suggest that trans-saccadic displacements were perceived as smaller than equivalent inter-saccadic displacements. We conclude that during saccades, the magnitude of the apparent motion signal is attenuated as well as its detectability.
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