AbstractMany studies have documented that first-order motion influences perceived position. Here, we show that second-order (contrast defined) motion influences the perceived positions of stationary objects as well. We used a Gabor pattern as our second-order stimulus, which consisted of a drifting sinusoidal contrast modulation of a dynamic random-dot background; this second-order carrier was enveloped by a static Gaussian contrast modulation. Two vertically aligned Gabors had carrier motion in opposite directions. Subjects judged the relative positions of the Gabors’ static envelopes. The positions of the Gabors appeared shifted in the direction of the carrier motion, but the effect was narrowly tuned to low temporal frequencies across al...
AbstractSpeed matches were obtained, using a spatial two-alternative forced-choice task, between a s...
Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pat...
Motion and position information interact within the visual cortex in such a way that creates the per...
AbstractMany studies have documented that first-order motion influences perceived position. Here, we...
AbstractMotion perception influences perceived position. It has been shown that first-order (luminan...
Motion perception influences perceived position. It has been shown that first-order (luminance defin...
AbstractThe perceived position of a stationary Gaussian window of a Gabor target shifts in the direc...
Illusory position shifts induced by motion suggest that motion processing can interfere with perceiv...
AbstractA static or counterphase (target) grating surrounded by drifting (inducer) gratings is perce...
AbstractAfter an observer adapts to a moving stimulus, texture within a stationary stimulus is perce...
AbstractWhen the sinusoidal grating of a “Gabor pattern” is drifted, the apparent position of the pa...
NoAfter an observer adapts to a moving stimulus, texture within a stationary stimulus is perceived t...
AbstractWhere do we perceive an object to be when it is moving? Nijhawan [1] has reported that if a ...
AbstractAlthough second-order motion may be detected by early and automatic mechanisms, some models ...
AbstractMotion detection can be achieved either with mechanisms sensitive to a target's velocity, or...
AbstractSpeed matches were obtained, using a spatial two-alternative forced-choice task, between a s...
Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pat...
Motion and position information interact within the visual cortex in such a way that creates the per...
AbstractMany studies have documented that first-order motion influences perceived position. Here, we...
AbstractMotion perception influences perceived position. It has been shown that first-order (luminan...
Motion perception influences perceived position. It has been shown that first-order (luminance defin...
AbstractThe perceived position of a stationary Gaussian window of a Gabor target shifts in the direc...
Illusory position shifts induced by motion suggest that motion processing can interfere with perceiv...
AbstractA static or counterphase (target) grating surrounded by drifting (inducer) gratings is perce...
AbstractAfter an observer adapts to a moving stimulus, texture within a stationary stimulus is perce...
AbstractWhen the sinusoidal grating of a “Gabor pattern” is drifted, the apparent position of the pa...
NoAfter an observer adapts to a moving stimulus, texture within a stationary stimulus is perceived t...
AbstractWhere do we perceive an object to be when it is moving? Nijhawan [1] has reported that if a ...
AbstractAlthough second-order motion may be detected by early and automatic mechanisms, some models ...
AbstractMotion detection can be achieved either with mechanisms sensitive to a target's velocity, or...
AbstractSpeed matches were obtained, using a spatial two-alternative forced-choice task, between a s...
Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pat...
Motion and position information interact within the visual cortex in such a way that creates the per...