Throughout the brain, information from individual sources converges onto higher order neurons. For example, information from the two eyes first converges in binocular neurons in area V1. Some neurons appear tuned to similarities between sources of information, which makes intuitive sense in a system striving to match multiple sensory signals to a single external cause, i.e., establish causal inference. However, there are also neurons that are tuned to dissimilar information. In particular, some binocular neurons respond maximally to a dark feature in one eye and a light feature in the other. Despite compelling neurophysiological and behavioural evidence supporting the existence of these neurons (Cumming & Parker, 1997; Janssen, Vogels, Liu,...
The fine task of stereoscopic depth discrimination in human subjects requires a functional binocular...
Binocular rivalry is scientifically attractive because it allows the study of an entirely subjective...
Stereovision is the ability to perceive fine depth variations from small differences in the two eyes...
SummarySensory processing in the brain is thought to have evolved to encode naturally occurring stim...
Binocular rivalry occurs when an observer looks at two different monocular images. One of the images...
When each eye views a different stimulus, visual perception alternates irregularly between them: bin...
A plane lying in depth is vividly perceived by viewing a random-dot stereogram (RDS) with a slight b...
Biological visual systems continuously optimize themselves to the prevailing image statistics, which...
AbstractStereoscopic vision requires the correspondence problem to be solved, i.e., discarding “fals...
EARLY visual processing is organized into a number of independent channels. In the retina, increment...
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 past decades of research in visual neuroscience have generated a large and disparate body of lit...
AbstractIn normal human subjects, evoked potentials in response to depth reversing two-color dynamic...
Disparity-tuned cells in primary visual cortex (VI) are thought to play a significant role in the pr...
The fine task of stereoscopic depth discrimination in human subjects requires a functional binocular...
Binocular rivalry is scientifically attractive because it allows the study of an entirely subjective...
Stereovision is the ability to perceive fine depth variations from small differences in the two eyes...
SummarySensory processing in the brain is thought to have evolved to encode naturally occurring stim...
Binocular rivalry occurs when an observer looks at two different monocular images. One of the images...
When each eye views a different stimulus, visual perception alternates irregularly between them: bin...
A plane lying in depth is vividly perceived by viewing a random-dot stereogram (RDS) with a slight b...
Biological visual systems continuously optimize themselves to the prevailing image statistics, which...
AbstractStereoscopic vision requires the correspondence problem to be solved, i.e., discarding “fals...
EARLY visual processing is organized into a number of independent channels. In the retina, increment...
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 past decades of research in visual neuroscience have generated a large and disparate body of lit...
AbstractIn normal human subjects, evoked potentials in response to depth reversing two-color dynamic...
Disparity-tuned cells in primary visual cortex (VI) are thought to play a significant role in the pr...
The fine task of stereoscopic depth discrimination in human subjects requires a functional binocular...
Binocular rivalry is scientifically attractive because it allows the study of an entirely subjective...
Stereovision is the ability to perceive fine depth variations from small differences in the two eyes...