How our perceptual experience of the world remains stable and continuous in the face of continuous rapid eye movements still remains a mystery. This review discusses some recent progress towards understanding the neural and psychophysical processes that accompany these eye movements. We firstly report recent evidence from imaging studies in humans showing that many brain regions are tuned in spatiotopic coordinates, but only for items that are actively attended. We then describe a series of experiments measuring the spatial and temporal phenomena that occur around the time of saccades, and discuss how these could be related to visual stability. Finally, we introduce the concept of the spatio-temporal receptive field to describe the local sp...
Humans move their eyes several times per second, yet we perceive the outside world as continuous des...
People shift their gaze more frequently than they realize, sometimes smoothly to track objects in m...
Saccadic eye movements pose many challenges for stable and continuous vision, such as how informatio...
How our perceptual experience of the world remains stable and continuous in the face of continuous r...
The ability to perceive the visual world around us as spatially stable despite frequent eye movement...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
It may be hard to fathom, but our eyes make 3-5 fixations every second, connected by short, rapid ey...
To interact rapidly and effectively with our environment, our brain needs access to a neural represe...
SummaryOne of the long-standing unsolved mysteries of visual neuroscience is how the world remains a...
We actively scan our environment with fast ballistic movements called saccades, which create large a...
Eye movements pose major problems to the visual system, because each new saccade changes the mapping...
Saccades shift the retina with high-speed motion. In order to compensate for the sudden displacement...
Saccades shift the retina with high-speed motion. In order to compensate for the sudden displacement...
Humans maintain a stable representation of the visual world effortlessly, despite constant movements...
How perceptual continuity across saccades emerges from the visual system is a longstanding question ...
Humans move their eyes several times per second, yet we perceive the outside world as continuous des...
People shift their gaze more frequently than they realize, sometimes smoothly to track objects in m...
Saccadic eye movements pose many challenges for stable and continuous vision, such as how informatio...
How our perceptual experience of the world remains stable and continuous in the face of continuous r...
The ability to perceive the visual world around us as spatially stable despite frequent eye movement...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
It may be hard to fathom, but our eyes make 3-5 fixations every second, connected by short, rapid ey...
To interact rapidly and effectively with our environment, our brain needs access to a neural represe...
SummaryOne of the long-standing unsolved mysteries of visual neuroscience is how the world remains a...
We actively scan our environment with fast ballistic movements called saccades, which create large a...
Eye movements pose major problems to the visual system, because each new saccade changes the mapping...
Saccades shift the retina with high-speed motion. In order to compensate for the sudden displacement...
Saccades shift the retina with high-speed motion. In order to compensate for the sudden displacement...
Humans maintain a stable representation of the visual world effortlessly, despite constant movements...
How perceptual continuity across saccades emerges from the visual system is a longstanding question ...
Humans move their eyes several times per second, yet we perceive the outside world as continuous des...
People shift their gaze more frequently than they realize, sometimes smoothly to track objects in m...
Saccadic eye movements pose many challenges for stable and continuous vision, such as how informatio...