AbstractWe studied the changes and invariances of foveal motion detection upon dark adaptation. It is well-documented that dark adaptation affects both spatial and temporal aspects of visual processing. The question we were interested in is how this alters motion coherence detection for moving random texture. To compare motion sensitivity at different adaptation levels, we adjusted the viewing distance for equal detectability of a stationary pattern. At these viewing distances we then measured velocity tuning curves for moving random pixel arrays (RPAs). Mean luminance levels ranged from 50 down to 0.005 cd m−2. Our main conclusion is that foveal velocity tuning is amazingly close to luminance-invariant, down to a level of 0.05 cd m−2. Beca...
AbstractThis study evaluated the influence of superimposed luminance flicker on the detection of osc...
AbstractWe studied the low-level interactions between motion coherence detection and binocular corre...
AbstractRetinal motion can modulate visual sensitivity. For instance, low contrast drifting waveform...
We studied the changes and invariances of foveal motion detection upon dark adaptation. It is well-d...
AbstractWe studied the changes and invariances of foveal motion detection upon dark adaptation. It i...
We studied effects of dark adaptation on spatial and temporal tuning for motion coherence detection....
AbstractWe studied effects of dark adaptation on spatial and temporal tuning for motion coherence de...
AbstractIn this study we quantify the influence of adaptation luminance on the threshold for directi...
AbstractWe examined the effect of average luminance level on texture segregation by motion. We deter...
AbstractTo characterize scotopic motion mechanisms, we examined how variation in average luminance a...
Visual analyses of movement are disproportionately reliant on luminance contrast, as opposed to colo...
Retinal motion can modulate visual sensitivity. For instance, low contrast drifting waveforms (targe...
We studied the low-level interactions between motion coherence detection and binocular correlation d...
AbstractWhen a stimulus of equally spaced parallel lines is displaced slightly in a direction perpen...
We sought to determine the extent to which red-green, colour-opponent mechanisms in the human visual...
AbstractThis study evaluated the influence of superimposed luminance flicker on the detection of osc...
AbstractWe studied the low-level interactions between motion coherence detection and binocular corre...
AbstractRetinal motion can modulate visual sensitivity. For instance, low contrast drifting waveform...
We studied the changes and invariances of foveal motion detection upon dark adaptation. It is well-d...
AbstractWe studied the changes and invariances of foveal motion detection upon dark adaptation. It i...
We studied effects of dark adaptation on spatial and temporal tuning for motion coherence detection....
AbstractWe studied effects of dark adaptation on spatial and temporal tuning for motion coherence de...
AbstractIn this study we quantify the influence of adaptation luminance on the threshold for directi...
AbstractWe examined the effect of average luminance level on texture segregation by motion. We deter...
AbstractTo characterize scotopic motion mechanisms, we examined how variation in average luminance a...
Visual analyses of movement are disproportionately reliant on luminance contrast, as opposed to colo...
Retinal motion can modulate visual sensitivity. For instance, low contrast drifting waveforms (targe...
We studied the low-level interactions between motion coherence detection and binocular correlation d...
AbstractWhen a stimulus of equally spaced parallel lines is displaced slightly in a direction perpen...
We sought to determine the extent to which red-green, colour-opponent mechanisms in the human visual...
AbstractThis study evaluated the influence of superimposed luminance flicker on the detection of osc...
AbstractWe studied the low-level interactions between motion coherence detection and binocular corre...
AbstractRetinal motion can modulate visual sensitivity. For instance, low contrast drifting waveform...