AbstractPrevious work [Prince, S. J. D, & Eagle, R. A. (1999). Size-disparity correlation in human binocular depth perception. Proceedings of the Royal Society: Biological Sciences, 266, 1361–1365] has demonstrated that disparity sign discrimination performance in isolated bandpass patterns is supported at disparities much larger than a phase disparity model might predict. One possibility is that this extended performance relies on a separate second-order system [Hess, R. F., & Wilcox, L. M. (1994). Linear and non-linear filtering in stereopsis. Vision Research, 34, 2431–2438]. Here, a ‘weighted directional energy’ model is developed which explains a large body of crossed versus uncrossed disparity discrimination data with a single mechanis...
AbstractChanging disparity is a possible cue for stereomotion perception. We propose the changing di...
To compute depth from binocular disparity, the visual system must correctly link corresponding point...
Abstract. Depth perception starts with the binocular interaction receptive fields of simple cells mo...
AbstractPrevious work [Prince, S. J. D, & Eagle, R. A. (1999). Size-disparity correlation in human b...
AbstractPrevious data [Prince, S.J.D., & Eagle, R.A., (1999). Size-disparity correlation in human bi...
Numerous studies suggest that the visual system uses both phase- and position-shift receptive field ...
Early neural mechanisms for the measurement of binocular disparity appear to operate in a manner con...
AbstractWe previously proposed a physiologically realistic model for stereo vision based on the quan...
AbstractThe binocular energy model provides a good description of the first stages of cortical binoc...
3D vision is a key process in the spatial understanding of the world. For decades, numerous research...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
The first stage of processing of binocular information in the visual cortex is performed by mechanis...
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...
The binocular energy model of neural responses predicts that depth from binocular disparity might be...
AbstractChanging disparity is a possible cue for stereomotion perception. We propose the changing di...
To compute depth from binocular disparity, the visual system must correctly link corresponding point...
Abstract. Depth perception starts with the binocular interaction receptive fields of simple cells mo...
AbstractPrevious work [Prince, S. J. D, & Eagle, R. A. (1999). Size-disparity correlation in human b...
AbstractPrevious data [Prince, S.J.D., & Eagle, R.A., (1999). Size-disparity correlation in human bi...
Numerous studies suggest that the visual system uses both phase- and position-shift receptive field ...
Early neural mechanisms for the measurement of binocular disparity appear to operate in a manner con...
AbstractWe previously proposed a physiologically realistic model for stereo vision based on the quan...
AbstractThe binocular energy model provides a good description of the first stages of cortical binoc...
3D vision is a key process in the spatial understanding of the world. For decades, numerous research...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
The first stage of processing of binocular information in the visual cortex is performed by mechanis...
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...
The binocular energy model of neural responses predicts that depth from binocular disparity might be...
AbstractChanging disparity is a possible cue for stereomotion perception. We propose the changing di...
To compute depth from binocular disparity, the visual system must correctly link corresponding point...
Abstract. Depth perception starts with the binocular interaction receptive fields of simple cells mo...