AbstractPrevious research has shown that a field of random dots in which each dot alternates between a slow and a fast speed, can give rise to the percept of two superimposed sheets of moving dots when the alternations are out of phase or asynchronous with each other [Vis. Res. 35 (1995) 1691]. Under those conditions, observers can discriminate changes in the slow speed independent of changes in the fast speed. The present study investigated whether such motion-based segregation could result when dots alternated between two different directions. Three observers viewed a variety of displays containing two directions of motion, one upward and one oblique, with the task of discriminating small trial-to-trial changes in the direction of the upw...
Three experiments examined direction discrimination in temporally interleaved random dot patterns. T...
The way in which movement enhances target visibility has been investigated by measuring the detectab...
AbstractIf the elements within a figure move synchronously while those in the surround move at a dif...
AbstractPrevious research has shown that a field of random dots in which each dot alternates between...
The ability to integrate local second-order motion signals over space and time was examined using ra...
AbstractA random dot pattern that moved within an invisible aperture was used to present two motions...
AbstractThe ability to integrate local second-order motion signals over space and time was examined ...
AbstractDiscriminating between two speed signals is harder when they are seen as part of a single tr...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are 'loc...
AbstractIn calculating the precise speed of an object, the visual system must integrate motion measu...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are ‘loc...
The display comprised 12 black dots arranged evenly around a virtual circle on a grey background. Ha...
AbstractTo better understand how local motion detectors merge their responses so as to permit the gl...
AbstractThree experiments examined direction discrimination in temporally interleaved random dot pat...
We measured psychophysical thresholds for discriminating the speeds of two arrays of moving dots. Th...
Three experiments examined direction discrimination in temporally interleaved random dot patterns. T...
The way in which movement enhances target visibility has been investigated by measuring the detectab...
AbstractIf the elements within a figure move synchronously while those in the surround move at a dif...
AbstractPrevious research has shown that a field of random dots in which each dot alternates between...
The ability to integrate local second-order motion signals over space and time was examined using ra...
AbstractA random dot pattern that moved within an invisible aperture was used to present two motions...
AbstractThe ability to integrate local second-order motion signals over space and time was examined ...
AbstractDiscriminating between two speed signals is harder when they are seen as part of a single tr...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are 'loc...
AbstractIn calculating the precise speed of an object, the visual system must integrate motion measu...
Phenomenal transparency in random-dot kinematograms is abolished when two motion directions are ‘loc...
The display comprised 12 black dots arranged evenly around a virtual circle on a grey background. Ha...
AbstractTo better understand how local motion detectors merge their responses so as to permit the gl...
AbstractThree experiments examined direction discrimination in temporally interleaved random dot pat...
We measured psychophysical thresholds for discriminating the speeds of two arrays of moving dots. Th...
Three experiments examined direction discrimination in temporally interleaved random dot patterns. T...
The way in which movement enhances target visibility has been investigated by measuring the detectab...
AbstractIf the elements within a figure move synchronously while those in the surround move at a dif...