When observers adapt to a transparent-motion stimulus, the resulting motion aftereffect (MAE) is typically in the direction opposite to the vector average of the component directions. It has been proposed that the reason for this is that it is the adaptation state at the local-level (i.e. of the local-motion-pooling units) that determines the nature of the MAE (Vidnyanszky et al. Trends in Cognitive Sciences, 6(4), 157-161). The adapting stimuli used in these experiments typically consisted of random-dot kinematograms, with each dot being able to move over the entire viewing aperture. Here we used spatially-localised global-plaid stimuli which enabled us, over the course of adaptation, to present either one of both motion directions at each...
AbstractThe motion after-effect (MAE) can be elicited by adapting observers to global motion of rand...
AbstractSimultaneously adapting to retinal motion and non-collinear pursuit eye movement produces a ...
AbstractThe visual motion aftereffect (MAE) typically occurs when stationary contours are presented ...
AbstractWhen observers adapt to a transparent-motion stimulus, the resulting motion aftereffect (MAE...
AbstractImage motion is initially detected locally. Local motion signals are then integrated across ...
Visual adaptation produces remarkable perceptual aftereffects. However, it remains unclear what basi...
AbstractOne of the many interesting questions in motion aftereffect (MAE) research is concerned with...
Image motion is initially detected locally. Local motion signals are then integrated across space in...
It has been shown that humans cannot perceive more than three directions from a multidirectional mot...
AbstractThe processing of motion information by the visual system can be decomposed into two general...
We have studied the effects of voluntary attention on the induction of motion aftereffects (MAEs). W...
AbstractWe have studied the effects of voluntary attention on the induction of motion aftereffects (...
AbstractThe motion aftereffect (MAE) to drifting bivectorial stimuli, such as plaids, is usually uni...
If motion that one has been looking at for some time suddenly stops, or if one shifts one's gaze to ...
AbstractIf motion that one has been looking at for some time suddenly stops, or if one shifts one’s ...
AbstractThe motion after-effect (MAE) can be elicited by adapting observers to global motion of rand...
AbstractSimultaneously adapting to retinal motion and non-collinear pursuit eye movement produces a ...
AbstractThe visual motion aftereffect (MAE) typically occurs when stationary contours are presented ...
AbstractWhen observers adapt to a transparent-motion stimulus, the resulting motion aftereffect (MAE...
AbstractImage motion is initially detected locally. Local motion signals are then integrated across ...
Visual adaptation produces remarkable perceptual aftereffects. However, it remains unclear what basi...
AbstractOne of the many interesting questions in motion aftereffect (MAE) research is concerned with...
Image motion is initially detected locally. Local motion signals are then integrated across space in...
It has been shown that humans cannot perceive more than three directions from a multidirectional mot...
AbstractThe processing of motion information by the visual system can be decomposed into two general...
We have studied the effects of voluntary attention on the induction of motion aftereffects (MAEs). W...
AbstractWe have studied the effects of voluntary attention on the induction of motion aftereffects (...
AbstractThe motion aftereffect (MAE) to drifting bivectorial stimuli, such as plaids, is usually uni...
If motion that one has been looking at for some time suddenly stops, or if one shifts one's gaze to ...
AbstractIf motion that one has been looking at for some time suddenly stops, or if one shifts one’s ...
AbstractThe motion after-effect (MAE) can be elicited by adapting observers to global motion of rand...
AbstractSimultaneously adapting to retinal motion and non-collinear pursuit eye movement produces a ...
AbstractThe visual motion aftereffect (MAE) typically occurs when stationary contours are presented ...