AbstractVisual suppression of low-spatial frequency information during eye movements is believed to contribute to a stable perception of our visual environment. While visual perception has been studied extensively during saccades, vergence has been somewhat neglected. Here, we show that convergence eye movements reduce contrast sensitivity to low spatial frequency information around the onset of the eye movements, but do not affect sensitivity to higher spatial frequencies. This suggests that visual suppression elicited by convergence eye movements may have the same temporal and spatial characteristics as saccadic suppression
AbstractHow sensitive are viewers to changes in global image properties across saccades during activ...
Vergence eye movements, movements executed in opposite directions, have a crucial role in depth perc...
How the visual system achieves perceptual stability across saccadic eye movements is a long-standing...
During periods of steady fixation, we make small amplitude ocular movements, termed microsaccades, a...
The perceptual consequences of eye movements are manifold: Each large saccade is accompanied by a dr...
SummaryWhen viewing natural scenes saccadic eye movements are used to position retinal images of int...
AbstractPrevious work has shown that during saccadic eye movements, contrast sensitivity for low spa...
AbstractWe compared the spatio-temporal tuning of perception to the mechanisms that drive saccadic e...
Two experiments were conducted to examine the influence of the spatial frequency content of natural ...
Action and perception are intimately coupled systems. One clear case is saccadic suppression, the re...
AbstractIn a natural environment, saccade and vergence eye movements shift gaze in different directi...
AbstractThere is now good evidence that perception of motion is strongly suppressed during saccades ...
Recent research suggests that blink and saccadic suppression are produced by the same mechanism (Vol...
VISUAL scientists have long sought to explain why the world remains stable during saccades, the ball...
Perceptual stability is facilitated by a decrease in visual sensitivity during rapid eye movements, ...
AbstractHow sensitive are viewers to changes in global image properties across saccades during activ...
Vergence eye movements, movements executed in opposite directions, have a crucial role in depth perc...
How the visual system achieves perceptual stability across saccadic eye movements is a long-standing...
During periods of steady fixation, we make small amplitude ocular movements, termed microsaccades, a...
The perceptual consequences of eye movements are manifold: Each large saccade is accompanied by a dr...
SummaryWhen viewing natural scenes saccadic eye movements are used to position retinal images of int...
AbstractPrevious work has shown that during saccadic eye movements, contrast sensitivity for low spa...
AbstractWe compared the spatio-temporal tuning of perception to the mechanisms that drive saccadic e...
Two experiments were conducted to examine the influence of the spatial frequency content of natural ...
Action and perception are intimately coupled systems. One clear case is saccadic suppression, the re...
AbstractIn a natural environment, saccade and vergence eye movements shift gaze in different directi...
AbstractThere is now good evidence that perception of motion is strongly suppressed during saccades ...
Recent research suggests that blink and saccadic suppression are produced by the same mechanism (Vol...
VISUAL scientists have long sought to explain why the world remains stable during saccades, the ball...
Perceptual stability is facilitated by a decrease in visual sensitivity during rapid eye movements, ...
AbstractHow sensitive are viewers to changes in global image properties across saccades during activ...
Vergence eye movements, movements executed in opposite directions, have a crucial role in depth perc...
How the visual system achieves perceptual stability across saccadic eye movements is a long-standing...