Add to ORKGPsychophysical and neurophysiological studies have revealed that the visual system is sensitive to both “first-order” motion, in which moving features are defined by luminance cues, and “second-order ” motion, in which motion is defined by nonluminance cues, such as contrast or flicker. Here we show psychophysically that common types of second-order stimuli provide potent cues to depth order. Although motion defined exclusively by nonluminance cues may be relatively rare in natural scenes, the depth-order cues offered by second-order stimuli arise ubiquitously as a result of occlusion of one moving object by another. Our results thus shed new light on the ecological importance of second-order motion. Furthermore, our results imply that visu...
Neurons in early visual cortex respond to luminance variations occurring at objects' boundaries. How...
Priming for luminance-modulated (first-order) motion has been shown to rely on the functional integr...
AbstractRecent neurological studies of selective impairments in first and second-order motion proces...
Psychophysical and neurophysiological studies have revealed that the visual system is sensitive to b...
AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i....
The detection of visual stimuli involves neurons which are selectively responsive to components of a...
Distinct mechanisms underlying the visual perception of luminance-(first-order) and contrast-defined...
AbstractFirst- and second-order motions differ in their ability to induce motion aftereffects (MAEs)...
An unresolved issue in visual motion perception is how distinct are the processes underlying "first-...
AbstractMany studies have documented that first-order motion influences perceived position. Here, we...
SummaryMotion detection is nearly ubiquitous among visual animals. Simple ‘first-order’ motion in an...
AbstractLarge-field stimuli were used to investigate the interaction of first- and second-order path...
Moving first-order stimuli and to combined first- and second-order stimuli in order to determine whe...
AbstractMotion perception influences perceived position. It has been shown that first-order (luminan...
AbstractAlthough second-order motion may be detected by early and automatic mechanisms, some models ...
Neurons in early visual cortex respond to luminance variations occurring at objects' boundaries. How...
Priming for luminance-modulated (first-order) motion has been shown to rely on the functional integr...
AbstractRecent neurological studies of selective impairments in first and second-order motion proces...
Psychophysical and neurophysiological studies have revealed that the visual system is sensitive to b...
AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i....
The detection of visual stimuli involves neurons which are selectively responsive to components of a...
Distinct mechanisms underlying the visual perception of luminance-(first-order) and contrast-defined...
AbstractFirst- and second-order motions differ in their ability to induce motion aftereffects (MAEs)...
An unresolved issue in visual motion perception is how distinct are the processes underlying "first-...
AbstractMany studies have documented that first-order motion influences perceived position. Here, we...
SummaryMotion detection is nearly ubiquitous among visual animals. Simple ‘first-order’ motion in an...
AbstractLarge-field stimuli were used to investigate the interaction of first- and second-order path...
Moving first-order stimuli and to combined first- and second-order stimuli in order to determine whe...
AbstractMotion perception influences perceived position. It has been shown that first-order (luminan...
AbstractAlthough second-order motion may be detected by early and automatic mechanisms, some models ...
Neurons in early visual cortex respond to luminance variations occurring at objects' boundaries. How...
Priming for luminance-modulated (first-order) motion has been shown to rely on the functional integr...
AbstractRecent neurological studies of selective impairments in first and second-order motion proces...