AbstractVisual perception results from the interaction of incoming sensory signals and top down cognitive and motor signals. Here we focus on the representation of attended locations in parietal cortex and in earlier visual cortical areas. We review evidence that these spatial representations are modulated not only by selective attention but also by the intention to move the eyes. We describe recent experiments in monkey and human that elucidate the mechanisms and circuitry involved in updating, or remapping, the representations of salient stimuli. Two central ideas emerge. First, selective attention and remapping are closely intertwined, and together contribute to the percept of spatial stability. Second, remapping is accomplished not by a...
With each eye movement, the image of the world received by the visual system changes dramatically. T...
AbstractThe processing of visual information combines bottom-up sensory aspects with top-down influe...
The visual world is represented in the brain in numerous retinotopic maps that extend along the cort...
AbstractVisual perception results from the interaction of incoming sensory signals and top down cogn...
Perceiving objects' positions is one of the fundamental purposes of vision and is crucial to day-to-...
AbstractSingle neurons in monkey parietal cortex update visual information in conjunction with eye m...
Single neurons in several cortical areas in monkeys update visual information in conjunction with ey...
Our eyes are constantly moving yet our perception remains stable. Neurons in lateral intraparietal c...
Observers viewing a complex visual scene selectively attend to relevant locations or objects and ign...
AbstractAttention influences the processing of visual information even in the earliest areas of prim...
AbstractBackground: Attending to the spatial location or to nonspatial features of visual stimuli ca...
When multiple objects are present in a visual scene, they compete for cortical processing in the vis...
Recent experiments in neurophysiology have begun to examine the active nature of our perceptual expe...
Parietal and frontal cortical areas play important roles in the control of goal-oriented behaviour. ...
Defining the exact mechanisms by which the brain processes visual objects and scenes remains an unre...
With each eye movement, the image of the world received by the visual system changes dramatically. T...
AbstractThe processing of visual information combines bottom-up sensory aspects with top-down influe...
The visual world is represented in the brain in numerous retinotopic maps that extend along the cort...
AbstractVisual perception results from the interaction of incoming sensory signals and top down cogn...
Perceiving objects' positions is one of the fundamental purposes of vision and is crucial to day-to-...
AbstractSingle neurons in monkey parietal cortex update visual information in conjunction with eye m...
Single neurons in several cortical areas in monkeys update visual information in conjunction with ey...
Our eyes are constantly moving yet our perception remains stable. Neurons in lateral intraparietal c...
Observers viewing a complex visual scene selectively attend to relevant locations or objects and ign...
AbstractAttention influences the processing of visual information even in the earliest areas of prim...
AbstractBackground: Attending to the spatial location or to nonspatial features of visual stimuli ca...
When multiple objects are present in a visual scene, they compete for cortical processing in the vis...
Recent experiments in neurophysiology have begun to examine the active nature of our perceptual expe...
Parietal and frontal cortical areas play important roles in the control of goal-oriented behaviour. ...
Defining the exact mechanisms by which the brain processes visual objects and scenes remains an unre...
With each eye movement, the image of the world received by the visual system changes dramatically. T...
AbstractThe processing of visual information combines bottom-up sensory aspects with top-down influe...
The visual world is represented in the brain in numerous retinotopic maps that extend along the cort...