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Citation |
Sun LD, Goldberg ME. Annu. Rev. Vis. Sci. 2016; 2: 61-84. |
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Affiliation |
Division of Neurobiology and Behavior, New York State Psychiatric Institute, New York, NY 10032. |
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Copyright |
(Copyright © 2016, Annual Reviews) |
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DOI |
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PMID |
28532350 |
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Abstract |
A classic problem in psychology is understanding how the brain creates a stable and accurate representation of space for perception and action despite a constantly moving eye. Two mechanisms have been proposed to solve this problem: Herman von Helmholtz's idea that the brain uses a corollary discharge of the motor command that moves the eye to adjust the visual representation, and Sir Charles Sherrington's idea that the brain measures eye position to calculate a spatial representation. Here, we discuss the cognitive, neuropsychological, and physiological mechanisms that support each of these ideas. We propose that both are correct: A rapid corollary discharge signal remaps the visual representation before an impending saccade, computing accurate movement vectors; and an oculomotor proprioceptive signal enables the brain to construct a more accurate craniotopic representation of space that develops slowly after the saccade. Language: en |
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Keywords |
corollary discharge; craniotopic representation; oculomotor proprioception; predictive; remapping; retinotopic representation; saccade; spatial accuracy |