AbstractThe spatio-temporal receptive fields (RFs) of cells in the macaque monkey lateral geniculate nucleus (LGN) and striate cortex (V1) have been examined and two distinct sub-populations of non-directional V1 cells have been found: those with a slow largely monophasic temporal RF, and those with a fast very biphasic temporal response. These two sub-populations are in temporal quadrature, the fast biphasic cells crossing over from one response phase to the reverse just as the slow monophasic cells reach their peak response. The two sub-populations also differ in the spatial phases of their RFs. A principal components analysis of the spatio-temporal RFs of directional V1 cells shows that their RFs could be constructed by a linear combinat...
Optical blurring in the eye prevents conventional physiological techniques from revealing the fine s...
Our broad objective is to establish the mechanisms responsible for motion selectivity in receptive ...
We investigated the spatio-temporal frequency selectivity properties of 248 neurons in VI and VII of...
AbstractThe spatio-temporal receptive fields (RFs) of cells in the macaque monkey lateral geniculate...
In the central visual pathway of binocular animals, the property of directional selectivity (DS) is ...
We studied receptive field organization of motion-sensitive neurons in macaque middle temporal corti...
The directional preference of neurons sampled from all layers of the striate cortex was determined u...
We studied neurons in the central visual field representation of the lateral geniculate nucleus (LGN...
The lateral geniculate nucleus (LGN) is increasingly regarded as a “smart-gating” operator for proce...
Direction-selective neurons in the primary visual cortex (V1) and the extrastriate motion area MT/V5...
AbstractExtracellular local field potentials (LFPs) and multiunit activity (MUA) reflect the spatial...
SummaryNeurons in primary visual cortex (V1) are commonly classified as simple or complex based upon...
Bauer U, Adorjan P, Scholz M, Levitt JB, Obermayer K, Lund JS. On the Anatomical Basis of Receptive ...
We investigated the functional properties of neurons in extrastriate area V3. V3 receives inputs fro...
AbstractWe measured the spatial receptive field dimensions of cells in the lateral geniculate nucleu...
Optical blurring in the eye prevents conventional physiological techniques from revealing the fine s...
Our broad objective is to establish the mechanisms responsible for motion selectivity in receptive ...
We investigated the spatio-temporal frequency selectivity properties of 248 neurons in VI and VII of...
AbstractThe spatio-temporal receptive fields (RFs) of cells in the macaque monkey lateral geniculate...
In the central visual pathway of binocular animals, the property of directional selectivity (DS) is ...
We studied receptive field organization of motion-sensitive neurons in macaque middle temporal corti...
The directional preference of neurons sampled from all layers of the striate cortex was determined u...
We studied neurons in the central visual field representation of the lateral geniculate nucleus (LGN...
The lateral geniculate nucleus (LGN) is increasingly regarded as a “smart-gating” operator for proce...
Direction-selective neurons in the primary visual cortex (V1) and the extrastriate motion area MT/V5...
AbstractExtracellular local field potentials (LFPs) and multiunit activity (MUA) reflect the spatial...
SummaryNeurons in primary visual cortex (V1) are commonly classified as simple or complex based upon...
Bauer U, Adorjan P, Scholz M, Levitt JB, Obermayer K, Lund JS. On the Anatomical Basis of Receptive ...
We investigated the functional properties of neurons in extrastriate area V3. V3 receives inputs fro...
AbstractWe measured the spatial receptive field dimensions of cells in the lateral geniculate nucleu...
Optical blurring in the eye prevents conventional physiological techniques from revealing the fine s...
Our broad objective is to establish the mechanisms responsible for motion selectivity in receptive ...
We investigated the spatio-temporal frequency selectivity properties of 248 neurons in VI and VII of...