Current computational models of smooth-pursuit eye movements assume that the primary visual input is local retinal-image motion (often referred to as retinal slip). However, we show that humans can pursue object motion with considerable accuracy, even in the presence of conflicting local image motion. This finding indicates that the visual cortical area(s) controlling pursuit must be able to perform a spatio-temporal integration of local image motion into a signal related to object motion. We also provide evidence that the object-motion signal that drives pursuit is related to the signal that supports perception. We conclude that current models of pursuit should be modified to include a visual input that encodes perceived object motion and ...
Presenting a few dots moving coherently on a screen can yield to the perception of human motion. Thi...
Smooth pursuit eye movements add motion to the retinal image. To compensate, the visual system can c...
Stimulus motion is a prominent feature that is used by the visual system to segment figure from grou...
AbstractWhen viewing a moving object, details may appear blurred if the object’s motion is not compe...
Eye movements change the retinal image motion of objects in the visual field. When we make an eye mo...
Eye movements change the retinal image motion of objects in the visual field. When we make an eye mo...
Smooth pursuit eye movements (pursuit) are used to minimize the retinal motion of moving objects. Du...
One way the visual system estimates object motion during pursuit is to combine estimates of eye velo...
AbstractThe smooth pursuit system is usually studied using single moving objects as stimuli. However...
Smooth-pursuit eye movements transform 100 ms of visual motion into a rapid initiation of smooth eye...
Smooth pursuit eye movements (pursuit) are used to minimize the retinal motion of moving objects. Du...
During pursuit eye movement, a stationary background projected on the retina shifts in the direction...
Smooth pursuit eye movements change the retinal image velocity of objects in the visual field. In or...
Although many studies have been devoted to motion perception during smooth pursuit eye movements, re...
Most studies concerned with motion perception during smooth pursuit eye movements havefocused on the...
Presenting a few dots moving coherently on a screen can yield to the perception of human motion. Thi...
Smooth pursuit eye movements add motion to the retinal image. To compensate, the visual system can c...
Stimulus motion is a prominent feature that is used by the visual system to segment figure from grou...
AbstractWhen viewing a moving object, details may appear blurred if the object’s motion is not compe...
Eye movements change the retinal image motion of objects in the visual field. When we make an eye mo...
Eye movements change the retinal image motion of objects in the visual field. When we make an eye mo...
Smooth pursuit eye movements (pursuit) are used to minimize the retinal motion of moving objects. Du...
One way the visual system estimates object motion during pursuit is to combine estimates of eye velo...
AbstractThe smooth pursuit system is usually studied using single moving objects as stimuli. However...
Smooth-pursuit eye movements transform 100 ms of visual motion into a rapid initiation of smooth eye...
Smooth pursuit eye movements (pursuit) are used to minimize the retinal motion of moving objects. Du...
During pursuit eye movement, a stationary background projected on the retina shifts in the direction...
Smooth pursuit eye movements change the retinal image velocity of objects in the visual field. In or...
Although many studies have been devoted to motion perception during smooth pursuit eye movements, re...
Most studies concerned with motion perception during smooth pursuit eye movements havefocused on the...
Presenting a few dots moving coherently on a screen can yield to the perception of human motion. Thi...
Smooth pursuit eye movements add motion to the retinal image. To compensate, the visual system can c...
Stimulus motion is a prominent feature that is used by the visual system to segment figure from grou...