The depth cue is a fundamental piece of information for artificial and living beings who interact with the surrounding environment in order to handle objects and to avoid obstacles: in such situations, the disparity patterns, which arise when agents fixate objects, are vector fields. We propose a biologically-inspired computational model to estimate dense horizontal and vertical disparity maps by exploiting the cortical paradigms of the primate visual system: in particular, we aim to model the disparity sensitivity of the V1-MT visual pathway. The proposed model is based on a first processing stage composed of a bank of spatial band-pass filters and a static nonlinearity, mimicking complex binocular cells. Then, subsequent pooling stages an...
Depth information using the biological Disparity Energy Model can be obtained by using a population ...
Stereomatching of oblique and transparent surfaces is described using a model of cortical binocular ...
nferring depth from binocular disparities is a difficult problem for the visual system because local...
A biologically-inspired model of disparity estimation: we consider the disparity patterns that arise...
3D vision is a key process in the spatial understanding of the world. For decades, numerous research...
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...
AbstractAlthough binocular neurons in the primary visual cortex are sensitive to retinal disparity, ...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
Binocular stereopsis refers to the ability to perceive depth, which has always been a central proble...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
One of the most powerful forms of depth perception capitalizes on the small relative displacements, ...
Inferring depth from binocular disparities is a difficult problem for the visual system because loca...
Humans and many animals have forward-facing eyes providing different views of the environment. Preci...
Depth information using the biological Disparity Energy Model can be obtained by using a population ...
Stereomatching of oblique and transparent surfaces is described using a model of cortical binocular ...
nferring depth from binocular disparities is a difficult problem for the visual system because local...
A biologically-inspired model of disparity estimation: we consider the disparity patterns that arise...
3D vision is a key process in the spatial understanding of the world. For decades, numerous research...
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...
AbstractAlthough binocular neurons in the primary visual cortex are sensitive to retinal disparity, ...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
Binocular stereopsis refers to the ability to perceive depth, which has always been a central proble...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
One of the most powerful forms of depth perception capitalizes on the small relative displacements, ...
Inferring depth from binocular disparities is a difficult problem for the visual system because loca...
Humans and many animals have forward-facing eyes providing different views of the environment. Preci...
Depth information using the biological Disparity Energy Model can be obtained by using a population ...
Stereomatching of oblique and transparent surfaces is described using a model of cortical binocular ...
nferring depth from binocular disparities is a difficult problem for the visual system because local...