Disparity-tuned cells in primary visual cortex (VI) are thought to play a significant role in the processing of stereoscopic depth. The disparity-specific responses of these neurons have been previously described by an energy model based on local, feedforward interactions. This model fails to predict the response to binocularly anticorrelated stimuli, in which images presented to left and right eyes have opposite contrasts. The original energy model predicts that anticorrelation should invert the disparity tuning curve (phase difference pi), with no change in the amplitude of the response. Experimentally, the amplitude tends to be reduced with anticorrelated stimuli and a spread of phase differences is observed, although phase differences n...
Recent physiological observations in which stimuli with opposite contrast signs in the two eyes have...
Throughout the brain, information from individual sources converges onto higher order neurons. For e...
PhD ThesisMany animals are able to perceive stereoscopic depth owing to the disparity information th...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
Disparity tuning measured in the primary visual cortex (V1) is described well by the disparity energ...
he binocular energy model provides a good description of the first stages of cortical binocular proc...
Neurophysiological data support two models for the disparity selectivity of binocular simple and com...
AbstractThe binocular energy model provides a good description of the first stages of cortical binoc...
Disparity-selective neurons in striate cortex (V1) probably implement the initial processing that su...
Stereo vision relies on cortical signals that encode binocular disparity. In V1, the disparity energ...
Neurons encode the depth in stereoscopic images by combining the signals from the receptive fields i...
SummarySensory processing in the brain is thought to have evolved to encode naturally occurring stim...
Binocular neurons in primary visual cortex are typically categorised as either Near, Far, Tuned Exci...
The human ability to detect modulation of binocular disparity over time is poor compared with detect...
The relative depth of objects causes small shifts in the left and right retinal positions of these o...
Recent physiological observations in which stimuli with opposite contrast signs in the two eyes have...
Throughout the brain, information from individual sources converges onto higher order neurons. For e...
PhD ThesisMany animals are able to perceive stereoscopic depth owing to the disparity information th...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
Disparity tuning measured in the primary visual cortex (V1) is described well by the disparity energ...
he binocular energy model provides a good description of the first stages of cortical binocular proc...
Neurophysiological data support two models for the disparity selectivity of binocular simple and com...
AbstractThe binocular energy model provides a good description of the first stages of cortical binoc...
Disparity-selective neurons in striate cortex (V1) probably implement the initial processing that su...
Stereo vision relies on cortical signals that encode binocular disparity. In V1, the disparity energ...
Neurons encode the depth in stereoscopic images by combining the signals from the receptive fields i...
SummarySensory processing in the brain is thought to have evolved to encode naturally occurring stim...
Binocular neurons in primary visual cortex are typically categorised as either Near, Far, Tuned Exci...
The human ability to detect modulation of binocular disparity over time is poor compared with detect...
The relative depth of objects causes small shifts in the left and right retinal positions of these o...
Recent physiological observations in which stimuli with opposite contrast signs in the two eyes have...
Throughout the brain, information from individual sources converges onto higher order neurons. For e...
PhD ThesisMany animals are able to perceive stereoscopic depth owing to the disparity information th...