AbstractHumans make smooth tracking eye movements to keep the image of a moving target on the foveal region of the retina and, thereby, maintain acute vision. Although the images of physically stationary background stimuli sweep across the retina during smooth pursuit eye movements, non-pursued targets are usually perceived to be neither moving nor smeared. The lack of perceived movement of background stimuli is generally attributed to a ‘cancellation’ of the retinal image motion by extraretinal information about the eye movement [1,2]; this information comes primarily from a neural facsimile of the efferent command to move the eyes, augmented by afferent signals from receptors in the extraocular muscles [3,4]. Here, we show that a physical...
AbstractThe extent of perceived blur produced by a moving retinal image is less when the image motio...
Recent studies indicate that the extent of perceived motion smear is attenuated asymmetrically durin...
AbstractSubjects made smooth pursuit eye movements with a target moving horizontally at 15 deg/sec. ...
AbstractWhen the eyes move, the images of stationary objects sweep across the retina. Despite this m...
AbstractBecause the visual system integrates information across time, an image that moves on the ret...
AbstractSmooth pursuit eye movements superimpose additional motion on the retinal image of untracked...
AbstractPrevious studies indicated that less motion smear is perceived when a physically stationary ...
AbstractRecent studies indicate that the extent of perceived motion smear is attenuated asymmetrical...
AbstractWhen our eyes are tracking a target that is moving in front of a structured background, glob...
AbstractThe extent of perceived motion smear was compared for targets that underwent similar velocit...
AbstractWhen viewing a moving object, details may appear blurred if the object’s motion is not compe...
AbstractA number of studies have shown that stationary backgrounds compromise smooth pursuit eye mov...
Current computational models of smooth-pursuit eye movements assume that the primary visual input is...
Stimulus motion is a prominent feature that is used by the visual system to segment figure from grou...
AbstractWhen our eyes track objects that are moving in a richly structured environment, the retinal ...
AbstractThe extent of perceived blur produced by a moving retinal image is less when the image motio...
Recent studies indicate that the extent of perceived motion smear is attenuated asymmetrically durin...
AbstractSubjects made smooth pursuit eye movements with a target moving horizontally at 15 deg/sec. ...
AbstractWhen the eyes move, the images of stationary objects sweep across the retina. Despite this m...
AbstractBecause the visual system integrates information across time, an image that moves on the ret...
AbstractSmooth pursuit eye movements superimpose additional motion on the retinal image of untracked...
AbstractPrevious studies indicated that less motion smear is perceived when a physically stationary ...
AbstractRecent studies indicate that the extent of perceived motion smear is attenuated asymmetrical...
AbstractWhen our eyes are tracking a target that is moving in front of a structured background, glob...
AbstractThe extent of perceived motion smear was compared for targets that underwent similar velocit...
AbstractWhen viewing a moving object, details may appear blurred if the object’s motion is not compe...
AbstractA number of studies have shown that stationary backgrounds compromise smooth pursuit eye mov...
Current computational models of smooth-pursuit eye movements assume that the primary visual input is...
Stimulus motion is a prominent feature that is used by the visual system to segment figure from grou...
AbstractWhen our eyes track objects that are moving in a richly structured environment, the retinal ...
AbstractThe extent of perceived blur produced by a moving retinal image is less when the image motio...
Recent studies indicate that the extent of perceived motion smear is attenuated asymmetrically durin...
AbstractSubjects made smooth pursuit eye movements with a target moving horizontally at 15 deg/sec. ...