Abstract. This paper describes a new model for extracting large-field optical flow patterns to generate distributed representations of neural activation to control complex visual tasks such as 3D egomotion. The neural mechanisms draw upon experimental findings about the response properties and specificities of cells in areas V1, MT and MSTd along the dorsal pathway. Model V1 cells detect local motion estimates. Model MT cells in different pools are suggested to be selective to motion patterns integrating from V1 as well as to velocity gradients. Model MSTd cells considered here integrate MT gradient cells over a much larger spatial neighborhood to generate the observed pattern selectivity for expansion/contraction, rotation and spiral motio...
Transparent motion is perceived when multiple motions are presented in the same part of visual space...
Motion estimation has been studied extensively in neuroscience in the last two decades. Even though ...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
Interest in the processing of optic flow has increased recently in both the neurophysiological and t...
AbstractNeurophysiological studies in MSTd report the existence of motion pattern selective cells wh...
Cells in the dorsal medial superior temporal cortex (MSTd) process optic flow generated by self-moti...
In this paper, the authors present information processing strategies, derived from neurobiology, whi...
A simple and biologically plausible model is proposed to simulate the optic flow computation taking ...
Psychophysical studies suggest the existence of specialized detectors for component motion patterns ...
A neural feed-forward model composed of two layers that mimic the V1\u2013MT primary motion pathway,...
Optical flow is the pattern of apparent motion of objects in a visual scene and the relative motion,...
We study the impact of local context of an image (contrast and 2D structure) on spatial motion integ...
A neural model is developed of how motion integration and segmentation processes, both within and ac...
Computing motion on the basis of the time-varying image intensity is a difficult problem for both ar...
Optic flow based navigation is a fundamental way of visual course control described in many differen...
Transparent motion is perceived when multiple motions are presented in the same part of visual space...
Motion estimation has been studied extensively in neuroscience in the last two decades. Even though ...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
Interest in the processing of optic flow has increased recently in both the neurophysiological and t...
AbstractNeurophysiological studies in MSTd report the existence of motion pattern selective cells wh...
Cells in the dorsal medial superior temporal cortex (MSTd) process optic flow generated by self-moti...
In this paper, the authors present information processing strategies, derived from neurobiology, whi...
A simple and biologically plausible model is proposed to simulate the optic flow computation taking ...
Psychophysical studies suggest the existence of specialized detectors for component motion patterns ...
A neural feed-forward model composed of two layers that mimic the V1\u2013MT primary motion pathway,...
Optical flow is the pattern of apparent motion of objects in a visual scene and the relative motion,...
We study the impact of local context of an image (contrast and 2D structure) on spatial motion integ...
A neural model is developed of how motion integration and segmentation processes, both within and ac...
Computing motion on the basis of the time-varying image intensity is a difficult problem for both ar...
Optic flow based navigation is a fundamental way of visual course control described in many differen...
Transparent motion is perceived when multiple motions are presented in the same part of visual space...
Motion estimation has been studied extensively in neuroscience in the last two decades. Even though ...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...