The understanding of the subjective experience of a visually stable world despite the occurrence of an observer's eye movements has been the focus of extensive research for over 20 years. These studies have revealed fundamental mechanisms such as anticipatory receptive field (RF) shifts and the saccadic suppression of stimulus displacements, yet there currently exists no single explanatory framework for these observations. We show that a previously presented neuro-computational model of peri-saccadic mislocalization accounts for the phenomenon of predictive remapping and for the observation of saccadic suppression of displacement (SSD). This converging evidence allows us to identify the potential ingredients of perceptual stability that gen...
Saccadic eye movements cause rapid and dramatic displacements of the retinal image of the visual wor...
Eye movements create an ever-changing image of the world on the retina. In particular, frequent sacc...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
AbstractAt the time of an impending saccade receptive fields (RFs) undergo dynamic changes, that is,...
Perceptual phenomena that occur around the time of a saccade, such as peri-saccadic mislocalization ...
Humans and other primates perform multiple fast eye movements per second in order to redirect gaze ...
Our eyes move constantly at a frequency of 3–5 times per second. These movements, called saccades, i...
As a foveate animal, the primate must redirect its gaze with saccadic eye movements to subject diffe...
Visual stability refers to the apparent stability of the visual world given the displacement of reti...
AbstractHuman vision is stable and continuous in spite of the incessant interruptions produced by sa...
As we look around a scene, we perceive it as continuous and stable even though each saccadic eye mov...
Recent research has identified neurons in the visual system that remap their receptive fields before...
As we look around a scene, we perceive it as continuous and stable even though each saccadic eye mov...
Saccadic eye movements cause rapid and dramatic displacements of the retinal image of the visual wor...
Eye movements create an ever-changing image of the world on the retina. In particular, frequent sacc...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
AbstractAt the time of an impending saccade receptive fields (RFs) undergo dynamic changes, that is,...
Perceptual phenomena that occur around the time of a saccade, such as peri-saccadic mislocalization ...
Humans and other primates perform multiple fast eye movements per second in order to redirect gaze ...
Our eyes move constantly at a frequency of 3–5 times per second. These movements, called saccades, i...
As a foveate animal, the primate must redirect its gaze with saccadic eye movements to subject diffe...
Visual stability refers to the apparent stability of the visual world given the displacement of reti...
AbstractHuman vision is stable and continuous in spite of the incessant interruptions produced by sa...
As we look around a scene, we perceive it as continuous and stable even though each saccadic eye mov...
Recent research has identified neurons in the visual system that remap their receptive fields before...
As we look around a scene, we perceive it as continuous and stable even though each saccadic eye mov...
Saccadic eye movements cause rapid and dramatic displacements of the retinal image of the visual wor...
Eye movements create an ever-changing image of the world on the retina. In particular, frequent sacc...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...