Add to ORKGAs we move through space, stationary objects around us show motion parallax: their directions relative to us change at different rates, depending on their distance. Does the brain incorporate parallax when it updates its stored representations of space? We had subjects fixate a distant target and then we flashed lights, at different distances, onto the retinal periphery. Subjects translated sideways while keeping their gaze on the distant target, and then they looked to the remembered location of the flash. Their responses corrected almost perfectly for parallax: they turned their eyes farther for nearer targets, in the predicted nonlinear patterns. Computer simulations suggest a neural mechanism in which feedback about self-motion updates ...
Perception of depth is a fundamental challenge for the visual system, particularly for observers mov...
SummaryWhether we are riding in a car or walking, our internal map of the environment must be contin...
SummaryThe capacity to perceive depth is critical for an observer to interact with his or her surrou...
Contains fulltext : 63834.pdf (publisher's version ) (Open Access)As we move throu...
When we move, the retinal velocities of objects in our surrounding differ according to their relativ...
Contains fulltext : 139808.pdf (publisher's version ) (Open Access)Despite the con...
Various cortical and sub-cortical brain structures update the gaze-centered coordinates of remembere...
It is well known that when we intentionally make large head movements, the resulting motion parallax...
AbstractUnder normal viewing conditions, adjustments in body posture and involuntary head movements ...
It may be hard to fathom, but our eyes make 3-5 fixations every second, connected by short, rapid ey...
Contains fulltext : 157671.pdf (publisher's version ) (Open Access)When moving aro...
AbstractAlthough motion parallax is closely associated with observer head movement, the underlying n...
Contains fulltext : 149727.pdf (publisher's version ) (Open Access)It is known tha...
Howdoes the visuomotor systemdecidewhether a target ismoving or stationary in space orwhether itmove...
Contains fulltext : 103072.pdf (publisher's version ) (Open Access)In order to mai...
Perception of depth is a fundamental challenge for the visual system, particularly for observers mov...
SummaryWhether we are riding in a car or walking, our internal map of the environment must be contin...
SummaryThe capacity to perceive depth is critical for an observer to interact with his or her surrou...
Contains fulltext : 63834.pdf (publisher's version ) (Open Access)As we move throu...
When we move, the retinal velocities of objects in our surrounding differ according to their relativ...
Contains fulltext : 139808.pdf (publisher's version ) (Open Access)Despite the con...
Various cortical and sub-cortical brain structures update the gaze-centered coordinates of remembere...
It is well known that when we intentionally make large head movements, the resulting motion parallax...
AbstractUnder normal viewing conditions, adjustments in body posture and involuntary head movements ...
It may be hard to fathom, but our eyes make 3-5 fixations every second, connected by short, rapid ey...
Contains fulltext : 157671.pdf (publisher's version ) (Open Access)When moving aro...
AbstractAlthough motion parallax is closely associated with observer head movement, the underlying n...
Contains fulltext : 149727.pdf (publisher's version ) (Open Access)It is known tha...
Howdoes the visuomotor systemdecidewhether a target ismoving or stationary in space orwhether itmove...
Contains fulltext : 103072.pdf (publisher's version ) (Open Access)In order to mai...
Perception of depth is a fundamental challenge for the visual system, particularly for observers mov...
SummaryWhether we are riding in a car or walking, our internal map of the environment must be contin...
SummaryThe capacity to perceive depth is critical for an observer to interact with his or her surrou...