AbstractTransparent motion involves the integration and segmentation of local motion signals. Previous research found a cost for processing transparent random dot motions relative to single coherent motions. However, this cost can be the result of the increased complexity of the transparent stimuli. We investigated this possibility by measuring the efficiency of transparent and coherent motions. Since efficiency normalises human performance to that of an ideal observer in the same task, performance can be compared fairly across tasks. Our task, identical in both transparent and coherent conditions, was to discriminate the fastest speed between two opposite motion directions. In two experiments where we varied dot density and speed, we confi...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are 'loc...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are ‘loc...
Motion transparency provides a challenging test case for our understanding of how visual motion, and...
Transparent motion involves the integration and segmentation of local motion signals. Previous resea...
AbstractTransparent motion involves the integration and segmentation of local motion signals. Previo...
AbstractWhen transparent motion is defined purely by direction differences, no more than two signal ...
AbstractIn calculating the precise speed of an object, the visual system must integrate motion measu...
AbstractDiscriminating between two speed signals is harder when they are seen as part of a single tr...
When transparent motion is defined purely by direction differences, no more than two signal directio...
AbstractMotion transparency requires that the visual system distinguish different motion vectors and...
When transparent motion is defined purely by direction differences, observers fail to detect more th...
AbstractThe simultaneous perception of multiple motion components within the same region in the visu...
AbstractWe present a series of experiments exploring the effect of the stimulus spatial configuratio...
Local motion signals have to be combined in space and time, to yield a coherent motion percept as it...
Transparency perception often occurs when objects within the visual scene partially occlude each oth...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are 'loc...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are ‘loc...
Motion transparency provides a challenging test case for our understanding of how visual motion, and...
Transparent motion involves the integration and segmentation of local motion signals. Previous resea...
AbstractTransparent motion involves the integration and segmentation of local motion signals. Previo...
AbstractWhen transparent motion is defined purely by direction differences, no more than two signal ...
AbstractIn calculating the precise speed of an object, the visual system must integrate motion measu...
AbstractDiscriminating between two speed signals is harder when they are seen as part of a single tr...
When transparent motion is defined purely by direction differences, no more than two signal directio...
AbstractMotion transparency requires that the visual system distinguish different motion vectors and...
When transparent motion is defined purely by direction differences, observers fail to detect more th...
AbstractThe simultaneous perception of multiple motion components within the same region in the visu...
AbstractWe present a series of experiments exploring the effect of the stimulus spatial configuratio...
Local motion signals have to be combined in space and time, to yield a coherent motion percept as it...
Transparency perception often occurs when objects within the visual scene partially occlude each oth...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are 'loc...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are ‘loc...
Motion transparency provides a challenging test case for our understanding of how visual motion, and...