none5noFast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pattern (R. Kanai & F. A. Verstraten, 2005). Depending on both the duration of the adapting stimulus ( ranging from tens to hundreds of milliseconds) and the duration of the adaptation-test blank interval, the perceived direction of an ambiguous test pattern can be biased towards the same or the opposite direction of the adaptation pattern, resulting in rapid forms of motion priming or motion aftereffect respectively. These findings were obtained employing drifting luminance gratings. Many studies have shown that first-order motion (luminance-defined) and second-order motion (contrast-defined) stimuli are processed by separate mechani...
AbstractA number of psychophysical and physiological studies have suggested that first- and second-o...
We describe an unusual motion aftereffect that probes early stages of motion coding psychophysically...
AbstractOne of the many interesting questions in motion aftereffect (MAE) research is concerned with...
Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pat...
Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pat...
Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pat...
AbstractIt has become apparent from recent work that the spatial frequency and orientation content o...
AbstractTo investigate whether or not adaptation to second-order motion can cause changes in perceiv...
To investigate whether or not adaptation to second-order motion can cause changes in perceived speed...
AbstractObservers adapted to drifting patterns varying either in luminance (first-order pattern), or...
AbstractVisual neurons show fast adaptive behavior in response to brief visual input. However, the p...
none2siSubsecond adaptation to directional motion can induce a rapid form of motion after-effect (rM...
Prolonged exposure (adaptation) to a stimulus drifting at a constant speed can bias the perceived sp...
AbstractWe found that the motion aftereffect measured using a directionally ambiguous counterphase g...
After prolonged adaptation to a moving pattern, a subsequently presented static or dynamic test patt...
AbstractA number of psychophysical and physiological studies have suggested that first- and second-o...
We describe an unusual motion aftereffect that probes early stages of motion coding psychophysically...
AbstractOne of the many interesting questions in motion aftereffect (MAE) research is concerned with...
Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pat...
Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pat...
Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pat...
AbstractIt has become apparent from recent work that the spatial frequency and orientation content o...
AbstractTo investigate whether or not adaptation to second-order motion can cause changes in perceiv...
To investigate whether or not adaptation to second-order motion can cause changes in perceived speed...
AbstractObservers adapted to drifting patterns varying either in luminance (first-order pattern), or...
AbstractVisual neurons show fast adaptive behavior in response to brief visual input. However, the p...
none2siSubsecond adaptation to directional motion can induce a rapid form of motion after-effect (rM...
Prolonged exposure (adaptation) to a stimulus drifting at a constant speed can bias the perceived sp...
AbstractWe found that the motion aftereffect measured using a directionally ambiguous counterphase g...
After prolonged adaptation to a moving pattern, a subsequently presented static or dynamic test patt...
AbstractA number of psychophysical and physiological studies have suggested that first- and second-o...
We describe an unusual motion aftereffect that probes early stages of motion coding psychophysically...
AbstractOne of the many interesting questions in motion aftereffect (MAE) research is concerned with...