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Responses in extrastriate cortex to optic flow during simulated turns

Published online by Cambridge University Press:  30 October 2002

HELEN SHERK
Affiliation:
Department of Biological Structure, University of Washington, Seattle
JONG-NAM KIM
Affiliation:
Department of Biological Structure, University of Washington, Seattle Current address: Department of Neuroscience, College of Veterinary Medicine, Seoul National University, Suwon 441-744, Republic of Korea.

Abstract

An observer locomoting along a straight path sees a pattern of optic flow in which images move approximately radially outward from his heading point. If the observer turns, the optic flow field changes markedly because each object's image now has a component of horizontal motion added to its “optic flow” motion. We tested the responses of 326 cells in the cat's extrastriate area LS (lateral suprasylvian visual area) to movies simulating the optic flow seen during locomotion in a straight line, and during various simulated turns to the left and right. About 60% of 326 cells tested responded to optic flow simulating turns. Of most interest was a subset of cells, 15% of the total, that had “turn-selective” responses. They responded significantly better to turns in a particular direction (usually to the contralateral side) than to turns in the opposite direction or to optic flow simulating straight-ahead locomotion. For each cell, we generated a display of fronto-parallel motion with a direction and speed that matched the image motion in the preferred turn movie, as seen at the receptive-field center. Most turn-selective cells responded significantly better to their preferred turn movie than to this fronto-parallel stimulus. We examined the role of cells' selectivity for stimulus direction, speed, and acceleration in determining cell preference for particular turns. Direction preference played some role for most cells, but about a third of the cells preferred turn movies that did not reflect their direction selectivity. Other factors, including the presence of opposing motion, only rarely appeared to determine cell preferences for particular turn movies.

Type
Research Article
Copyright
2002 Cambridge University Press

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