AbstractWhen transparent motion is defined purely by direction differences, observers fail to detect more than two signal directions simultaneously [Edwards, M., & Greenwood, J.A. (2005). The perception of motion transparency: A signal-to-noise limit. Vision Research, 45, 1877–1884]. This limit is strongly related to signal-detection thresholds for transparent motion, which are several times higher than uni-directional thresholds. When the effective signal intensities are elevated by speed differences that drive independent global-motion systems, the transparent-motion limit can be extended to allow detection of three signals [Greenwood, J.A., & Edwards, M. (2006). An extension of transparent-motion detection limit using speed-tuned global-...
AbstractA number of experiments were conducted to compare the ability of observers to extract unidir...
AbstractThe perception of transparency in binocular vision presents a challenge for any model of ste...
AbstractWe have examined the ability of observers to parse bimodal local-motion distributions into t...
When transparent motion is defined purely by direction differences, observers fail to detect more th...
AbstractWhen transparent motion is defined purely by direction differences, no more than two signal ...
AbstractA number of studies were conducted to determine how many transparent motion signals observer...
AbstractTransparent motion involves the integration and segmentation of local motion signals. Previo...
When transparent motion is defined purely by direction differences, no more than two signal directio...
AbstractHuman observers can extract a given motion direction from sets of random dots moving simulta...
Transparency perception often occurs when objects within the visual scene partially occlude each oth...
Our understanding of how the visual system processes motion transparency, the phenomenon by which mu...
AbstractPrevious research indicates that the maximum number of motion signals that can be simultaneo...
AbstractMotion transparency provides a challenging test case for our understanding of how visual mot...
this article some other nontransparent displays that cannot be explained this way. Motion transparen...
When multiple motion directions are presented simultaneously within the same region of the visual fi...
AbstractA number of experiments were conducted to compare the ability of observers to extract unidir...
AbstractThe perception of transparency in binocular vision presents a challenge for any model of ste...
AbstractWe have examined the ability of observers to parse bimodal local-motion distributions into t...
When transparent motion is defined purely by direction differences, observers fail to detect more th...
AbstractWhen transparent motion is defined purely by direction differences, no more than two signal ...
AbstractA number of studies were conducted to determine how many transparent motion signals observer...
AbstractTransparent motion involves the integration and segmentation of local motion signals. Previo...
When transparent motion is defined purely by direction differences, no more than two signal directio...
AbstractHuman observers can extract a given motion direction from sets of random dots moving simulta...
Transparency perception often occurs when objects within the visual scene partially occlude each oth...
Our understanding of how the visual system processes motion transparency, the phenomenon by which mu...
AbstractPrevious research indicates that the maximum number of motion signals that can be simultaneo...
AbstractMotion transparency provides a challenging test case for our understanding of how visual mot...
this article some other nontransparent displays that cannot be explained this way. Motion transparen...
When multiple motion directions are presented simultaneously within the same region of the visual fi...
AbstractA number of experiments were conducted to compare the ability of observers to extract unidir...
AbstractThe perception of transparency in binocular vision presents a challenge for any model of ste...
AbstractWe have examined the ability of observers to parse bimodal local-motion distributions into t...