Even within the early sensory areas, the majority of the input to any given cortical neuron comes from other cortical neurons. To extend our knowledge of the contextual information that is transmitted by such lateral and feedback connections, we investigated how visually nonstimulated regions in primary visual cortex (V1) and visual area V2 are influenced by the surrounding context. We used functional magnetic resonance imaging (fMRI) and pattern-classification methods to show that the cortical representation of a nonstimulated quarter-field carries information that can discriminate the surrounding visual context. We show further that the activity patterns in these regions are significantly related to those observed with feed-forward stimul...
Early visual cortical neurons receive highly selective feedforward input, which is amplified or disa...
SummaryHuman early visual cortex was traditionally thought to process simple visual features such as...
AbstractObjects in our environment tend to be grouped in typical contexts. How does the human brain ...
Even within the early sensory areas, the majority of the input to any given cortical neuron comes fr...
The majority of synaptic inputs to the primary visual cortex (V1) are non-feedforward, instead origi...
Neurons in the primary visual cortex (V1) receive sensory inputs that describe small, local regions ...
SummaryThe standard view of neurons in early visual cortex is that they behave like localized featur...
A commonly held view about neurons in early visual cortex is that they serve as localized feature de...
Human early visual cortex was traditionally thought to process simple visual features such as orient...
Early visual cortex receives non-feedforward input from lateral and top-down connections (Muckli &am...
Neuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of which ...
In the visual cortex, information is transferred from one area to the next by means of feedforward c...
SummaryNeuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of...
Neuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of which ...
How does the brain form a useful representation of its external environment from the astoundingly co...
Early visual cortical neurons receive highly selective feedforward input, which is amplified or disa...
SummaryHuman early visual cortex was traditionally thought to process simple visual features such as...
AbstractObjects in our environment tend to be grouped in typical contexts. How does the human brain ...
Even within the early sensory areas, the majority of the input to any given cortical neuron comes fr...
The majority of synaptic inputs to the primary visual cortex (V1) are non-feedforward, instead origi...
Neurons in the primary visual cortex (V1) receive sensory inputs that describe small, local regions ...
SummaryThe standard view of neurons in early visual cortex is that they behave like localized featur...
A commonly held view about neurons in early visual cortex is that they serve as localized feature de...
Human early visual cortex was traditionally thought to process simple visual features such as orient...
Early visual cortex receives non-feedforward input from lateral and top-down connections (Muckli &am...
Neuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of which ...
In the visual cortex, information is transferred from one area to the next by means of feedforward c...
SummaryNeuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of...
Neuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of which ...
How does the brain form a useful representation of its external environment from the astoundingly co...
Early visual cortical neurons receive highly selective feedforward input, which is amplified or disa...
SummaryHuman early visual cortex was traditionally thought to process simple visual features such as...
AbstractObjects in our environment tend to be grouped in typical contexts. How does the human brain ...