Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are ‘locally-balanced ’ by pairing limited-lifetime dots at each location [Qian, Andersen and Adelson (1994). Journal of Neuroscience, 14, 7357–7366]. Qian et al. also report that locally-paired stimuli appear as directionless flicker when the paired dots differ in their directions by 90 ° or more. They attribute this to local inhibition between motion detectors more than 45 ° apart. We investigated perceived motion in such displays, by requiring subjects to make direction and speed judgements with locally-paired stimuli containing two directions 60, 90 or 120 ° apart. Subjects perceived coherent motion in these displays and made reliable direction j...
AbstractIn calculating the precise speed of an object, the visual system must integrate motion measu...
AbstractThe simultaneous perception of multiple motion components within the same region in the visu...
When we look at two overlapping random-dot patterns moving toward different directions, we perceive ...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are 'loc...
AbstractPhenomenal transparency in random-dot kinematograms is abolished when two motion directions ...
Recent psychophysical studies suggest that there are two types of motion integra-tion processes in h...
AbstractWhat circumstance lead to the perception of global motion transparency? It has been shown th...
AbstractHuman observers can extract a given motion direction from sets of random dots moving simulta...
AbstractRecent psychophysical studies suggest that there are two types of motion integration process...
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...
Recent physiological studies have established that cortical cells that are tuned for the direction ...
Recent physiological studies have established that cortical cells that are tuned for the direction o...
Motion transparency provides a challenging test case for our understanding of how visual motion, and...
When multiple motion directions are presented simultaneously within the same region of the visual fi...
AbstractIn calculating the precise speed of an object, the visual system must integrate motion measu...
AbstractThe simultaneous perception of multiple motion components within the same region in the visu...
When we look at two overlapping random-dot patterns moving toward different directions, we perceive ...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are 'loc...
AbstractPhenomenal transparency in random-dot kinematograms is abolished when two motion directions ...
Recent psychophysical studies suggest that there are two types of motion integra-tion processes in h...
AbstractWhat circumstance lead to the perception of global motion transparency? It has been shown th...
AbstractHuman observers can extract a given motion direction from sets of random dots moving simulta...
AbstractRecent psychophysical studies suggest that there are two types of motion integration process...
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...
Recent physiological studies have established that cortical cells that are tuned for the direction ...
Recent physiological studies have established that cortical cells that are tuned for the direction o...
Motion transparency provides a challenging test case for our understanding of how visual motion, and...
When multiple motion directions are presented simultaneously within the same region of the visual fi...
AbstractIn calculating the precise speed of an object, the visual system must integrate motion measu...
AbstractThe simultaneous perception of multiple motion components within the same region in the visu...
When we look at two overlapping random-dot patterns moving toward different directions, we perceive ...