The functionality of central vision is different from peripheral vision. Central vision is used for fixation and has higher acuity, making it useful for everyday activities such as reading and object identification. The central and peripheral representations in primary visual cortex (V1) also differ in how higher-order processing areas modulate their responses. For example, attention and expectation are top-down processes (i.e., high-order cognitive functions) that influence visual information processing during behavioral tasks. This top-down control is different for central vs. peripheral vision. Since functional networks can influence visual information processing in different ways, networks (such as the Fronto-Parietal (FPN), Default Mod...
Early visual areas within each hemisphere (V1, V2, V3/VP, V4v) contain distinct representations of t...
Visuospatial attention allows us to select and act upon a subset of behaviorally relevant visual sti...
Neural activity in mammalian brains exhibits large spontaneous fluctuations whose structure reveals ...
The brain is continuously active, even without external input or task demands. This so-called restin...
The brain is continuously active, even without external input or task demands. This so-called restin...
Feature-based attention has a spatially global effect, i.e., responses to stimuli that share feature...
<div><p>Feature-based attention has a spatially global effect, i.e., responses to stimuli that share...
<p>Visual attention selects behaviorally relevant information for detailed processing by resolving c...
SummaryBackgroundRegions in human frontal cortex may have modulatory top-down influences on retinoto...
Visual attention selects only a tiny fraction of visual input information for further processing. Se...
Neuroimaging evidence suggests that the frontal eye field (FEF) and inferior frontal junction (IFJ) ...
Separable visual attention functions are assumed to rely on distinct but interacting neural mechanis...
Visuospatial attention allows us to select and act upon a subset of behaviorally relevant visual sti...
<div><p>In human visual cortex, the primary visual cortex (V1) is considered to be essential for vis...
Attention improves behavioral performance by selectively enhancing neural responses to attended task...
Early visual areas within each hemisphere (V1, V2, V3/VP, V4v) contain distinct representations of t...
Visuospatial attention allows us to select and act upon a subset of behaviorally relevant visual sti...
Neural activity in mammalian brains exhibits large spontaneous fluctuations whose structure reveals ...
The brain is continuously active, even without external input or task demands. This so-called restin...
The brain is continuously active, even without external input or task demands. This so-called restin...
Feature-based attention has a spatially global effect, i.e., responses to stimuli that share feature...
<div><p>Feature-based attention has a spatially global effect, i.e., responses to stimuli that share...
<p>Visual attention selects behaviorally relevant information for detailed processing by resolving c...
SummaryBackgroundRegions in human frontal cortex may have modulatory top-down influences on retinoto...
Visual attention selects only a tiny fraction of visual input information for further processing. Se...
Neuroimaging evidence suggests that the frontal eye field (FEF) and inferior frontal junction (IFJ) ...
Separable visual attention functions are assumed to rely on distinct but interacting neural mechanis...
Visuospatial attention allows us to select and act upon a subset of behaviorally relevant visual sti...
<div><p>In human visual cortex, the primary visual cortex (V1) is considered to be essential for vis...
Attention improves behavioral performance by selectively enhancing neural responses to attended task...
Early visual areas within each hemisphere (V1, V2, V3/VP, V4v) contain distinct representations of t...
Visuospatial attention allows us to select and act upon a subset of behaviorally relevant visual sti...
Neural activity in mammalian brains exhibits large spontaneous fluctuations whose structure reveals ...