%0 Journal Article
%@ 0036-8075
%A  Sáry Gyula
%A  Vogels Rufin
%A  Orban Guy A
%D 1993
%F publicatio:32165
%J SCIENCE
%N 5110
%P 995-997
%T Cue-invariant shape selectivity of macaque inferior temporal neurons
%U http://publicatio.bibl.u-szeged.hu/32165/
%V 260
%X The perception of shape is independent of the size and position  of the shape and  also of the visual cue that defines it. The same shape can be  recognized whether  defined by a difference in luminance, by motion, or by texture.  Experiments showed that the shape selectivity of individual cells in the  macaque inferior temporal cortex did not vary with the size and position of a  shape and also did not vary with the visual cue used to define the shape. This cue  invariance was true for static luminance and texture cues as well as for  relative motion cues--that is, for cues that are processed in ventral and dorsal  visual pathways. The properties of these inferior temporal cells meet the demands  of cue-invariant shape coding.