We studied receptive field organization of motion-sensitive neurons in macaque middle temporal cortical area (MT), by mapping direction selectivity in space and in time. Stimuli consisted of pseudorandom sequences of single motion steps presented simultaneously at many different receptive field locations. Spatio-temporal receptive field profiles were constructed by cross-correlating stimuli and spikes. The resulting spike-triggered averages revealed centre-surround organization. The temporal dynamics of the receptive fields were generally biphasic with increased probability for the preferred direction at short latency (50-70 ms) and decreased probability at longer latency (80-100 ms). The response latency of the receptive field surround was...
Many neurons in the monkey visual extrastriate cortex have receptive fields that are affected by gaz...
Based on stimulation with plaid patterns, neurons in the Middle Temporal (MT) area of primate visual...
Recanzone, G. H., R. H. Wurtz, and U. Schwarz. Responses of the receptive field of a neuron by using...
We studied receptive field organization of motion-sensitive neurons in macaque middle temporal corti...
We studied the temporal dynamics of motion direction sensitivity in macaque area MT using a motion r...
AbstractThe spatio-temporal receptive fields (RFs) of cells in the macaque monkey lateral geniculate...
The true receptive field of more than 90% of neurons in the middle temporal visual area (MT) extends...
AbstractThis study investigates the effects of feature-based attention on responses of direction-sel...
The middle temporal (MT) area is a cortical area integral to the “where” pathway of primate visual p...
This dissertation is organized into two main parts: physiology and new techniques. The physiology is...
The primate visual system incorporates a highly specialized subsystem for the analysis of motion in ...
The classical receptive field (CRF) of a spiking visual neuron is defined as the region in the visua...
Direction-selective neurons in the primary visual cortex (V1) and the extrastriate motion area MT/V5...
Directing spatial attention to a location inside the classical receptive field (cRF) of a neuron in ...
On the basis of extracellular recordings in marmoset monkeys, we report on the organisation of the m...
Many neurons in the monkey visual extrastriate cortex have receptive fields that are affected by gaz...
Based on stimulation with plaid patterns, neurons in the Middle Temporal (MT) area of primate visual...
Recanzone, G. H., R. H. Wurtz, and U. Schwarz. Responses of the receptive field of a neuron by using...
We studied receptive field organization of motion-sensitive neurons in macaque middle temporal corti...
We studied the temporal dynamics of motion direction sensitivity in macaque area MT using a motion r...
AbstractThe spatio-temporal receptive fields (RFs) of cells in the macaque monkey lateral geniculate...
The true receptive field of more than 90% of neurons in the middle temporal visual area (MT) extends...
AbstractThis study investigates the effects of feature-based attention on responses of direction-sel...
The middle temporal (MT) area is a cortical area integral to the “where” pathway of primate visual p...
This dissertation is organized into two main parts: physiology and new techniques. The physiology is...
The primate visual system incorporates a highly specialized subsystem for the analysis of motion in ...
The classical receptive field (CRF) of a spiking visual neuron is defined as the region in the visua...
Direction-selective neurons in the primary visual cortex (V1) and the extrastriate motion area MT/V5...
Directing spatial attention to a location inside the classical receptive field (cRF) of a neuron in ...
On the basis of extracellular recordings in marmoset monkeys, we report on the organisation of the m...
Many neurons in the monkey visual extrastriate cortex have receptive fields that are affected by gaz...
Based on stimulation with plaid patterns, neurons in the Middle Temporal (MT) area of primate visual...
Recanzone, G. H., R. H. Wurtz, and U. Schwarz. Responses of the receptive field of a neuron by using...