Numerous studies suggest that the visual system uses both phase- and position-shift receptive field (RF) mechanisms for the processing of binocular disparity. Although the difference between these two mechanisms has been analyzed before, previous work mainly focused on disparity tuning curves instead of population responses. However, tuning curve and population response can exhibit different characteristics, and it is the latter that determines disparity estimation. Here we demonstrate, in the framework of the disparity energy model, that for relatively small disparities, the population response generated by the phase-shift mechanism is more reliable than that generated by the position-shift mechanism. This is true over a wide range of para...
Abstract. Depth perception starts with the binocular interaction receptive fields of simple cells mo...
The binocular energy model provides a good description of the first stages of cortical binocular pro...
Disparity-tuned cells in primary visual cortex (VI) are thought to play a significant role in the pr...
Neurophysiological data support two models for the disparity selectivity of binocular simple and com...
The relative depth of objects causes small shifts in the left and right retinal positions of these o...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
Understanding exactly how disparity is processed from binocular views of the world is a long standin...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
Disparity tuning of visual cells in the brain depends on the structure of their binocular receptive ...
AbstractWe previously proposed a physiologically realistic model for stereo vision based on the quan...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
AbstractPrevious work [Prince, S. J. D, & Eagle, R. A. (1999). Size-disparity correlation in human b...
A great challenge of systems neuroscience is to understand the computations that underlie perceptual...
Although binocular neurons in the primary visual cortex are sensitive to retinal disparity, their ac...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
Abstract. Depth perception starts with the binocular interaction receptive fields of simple cells mo...
The binocular energy model provides a good description of the first stages of cortical binocular pro...
Disparity-tuned cells in primary visual cortex (VI) are thought to play a significant role in the pr...
Neurophysiological data support two models for the disparity selectivity of binocular simple and com...
The relative depth of objects causes small shifts in the left and right retinal positions of these o...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
Understanding exactly how disparity is processed from binocular views of the world is a long standin...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
Disparity tuning of visual cells in the brain depends on the structure of their binocular receptive ...
AbstractWe previously proposed a physiologically realistic model for stereo vision based on the quan...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
AbstractPrevious work [Prince, S. J. D, & Eagle, R. A. (1999). Size-disparity correlation in human b...
A great challenge of systems neuroscience is to understand the computations that underlie perceptual...
Although binocular neurons in the primary visual cortex are sensitive to retinal disparity, their ac...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
Abstract. Depth perception starts with the binocular interaction receptive fields of simple cells mo...
The binocular energy model provides a good description of the first stages of cortical binocular pro...
Disparity-tuned cells in primary visual cortex (VI) are thought to play a significant role in the pr...