The visual system cannot rely only upon information from the retina to perceive object motion because identical retinal stimulations can be evoked by the movement of objects in the field of view as well as by the movements of retinal images self-evoked by eye movements. We clearly distinguish the two situations, perceiving object motion in the first case and stationarity in the second. The present work deals with the neuronal mechanisms that are likely involved in the detection of real motion. In monkeys, cells that are able to distinguish real from self-induced motion (real-motion cells) are distributed in several cortical areas of the dorsal visual stream. We suggest that the activity of these cells is responsible for motion perception, a...
To plan movements toward objects our brain must recognize whether retinal displacement is due to sel...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
Heading perception in primates depends heavily on visual optic-flow cues. Yet during self-motion, he...
The stability of visual perception despite eye movements suggests the existence, in the visual syste...
Extracellular recordings were made in area V2 of behaving macaque monkeys. Neurons were classified i...
Extracellular recordings were carried out in the primary visual cortex of behaving macaque monkeys. ...
Detection of objects that move in a scene is a fundamental computation performed by the visual syste...
A large extent of the posterior cortex of the primate brain is devoted to vision, and it contains tw...
PURPOSE: Recent studies show that visual motion information is processed in a distributed fashion ...
The neural activity in area 7a and the arm area of motor cortex was recorded while real or path-guid...
Vision provides the primary means by which many animals distinguish foreground objects from their ba...
Eye movements induce visual motion that can complicate the stable perception of the world. The visua...
Smooth pursuit eye movements are eye rotations that are used to maintain fixation on a moving target...
How does the visual system determine the direction and speed of moving objects? In the primate brain...
AbstractThe motion areas of posterior parietal cortex extract information on visual motion for perce...
To plan movements toward objects our brain must recognize whether retinal displacement is due to sel...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
Heading perception in primates depends heavily on visual optic-flow cues. Yet during self-motion, he...
The stability of visual perception despite eye movements suggests the existence, in the visual syste...
Extracellular recordings were made in area V2 of behaving macaque monkeys. Neurons were classified i...
Extracellular recordings were carried out in the primary visual cortex of behaving macaque monkeys. ...
Detection of objects that move in a scene is a fundamental computation performed by the visual syste...
A large extent of the posterior cortex of the primate brain is devoted to vision, and it contains tw...
PURPOSE: Recent studies show that visual motion information is processed in a distributed fashion ...
The neural activity in area 7a and the arm area of motor cortex was recorded while real or path-guid...
Vision provides the primary means by which many animals distinguish foreground objects from their ba...
Eye movements induce visual motion that can complicate the stable perception of the world. The visua...
Smooth pursuit eye movements are eye rotations that are used to maintain fixation on a moving target...
How does the visual system determine the direction and speed of moving objects? In the primate brain...
AbstractThe motion areas of posterior parietal cortex extract information on visual motion for perce...
To plan movements toward objects our brain must recognize whether retinal displacement is due to sel...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
Heading perception in primates depends heavily on visual optic-flow cues. Yet during self-motion, he...