AbstractNeurophysiological studies in MSTd report the existence of motion pattern selective cells whose visual motion properties span a continuum of values, suggesting a role in estimates of self-motion from optic flow. Biologically motivated models of heading estimation support this view, having identified similar visual motion properties within their “neural” structures. While such models have addressed the computational sufficiency of their respective feed-forward designs they have not explicitly examined the underlying computational structures, particularly as they relate to the interaction between planar and spiral motion responses within MSTd. Here we use an expanded stimulus training set that includes planar motions to extend the ran...
© 2016 Dr. Parvin Zarei EskikandThe processing of motion information in the brain initiates in the p...
Several groups have proposed that area MSTd of the macaque monkey has a role in processing optical f...
A neural feed-forward model composed of two layers that mimic the V1\u2013MT primary motion pathway,...
AbstractNeurophysiological studies in MSTd report the existence of motion pattern selective cells wh...
Self-motion generates patterns of optic flow on the retina. Neurons in the dorsal part of the medial...
Psychophysical studies suggest the existence of specialized detectors for component motion patterns ...
Abstract. This paper describes a new model for extracting large-field optical flow patterns to gener...
Interest in the processing of optic flow has increased recently in both the neurophysiological and t...
Cells in the dorsal medial superior temporal cortex (MSTd) process optic flow generated by self-moti...
A simple and biologically plausible model is proposed to simulate the optic flow computation taking ...
Cells in the dorsal division of the medial superior temporal area (MSTd) have large receptive fields...
UnlabelledNeurons in the dorsal subregion of the medial superior temporal (MSTd) area of the macaque...
<p>(a) Responses of the maximally-active model MSTd subpopulations in spiral space as a function of ...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
<p>Neurons in a model MSTd hypercolumn possess selectivities across a spiral space spanning CW, CCW,...
© 2016 Dr. Parvin Zarei EskikandThe processing of motion information in the brain initiates in the p...
Several groups have proposed that area MSTd of the macaque monkey has a role in processing optical f...
A neural feed-forward model composed of two layers that mimic the V1\u2013MT primary motion pathway,...
AbstractNeurophysiological studies in MSTd report the existence of motion pattern selective cells wh...
Self-motion generates patterns of optic flow on the retina. Neurons in the dorsal part of the medial...
Psychophysical studies suggest the existence of specialized detectors for component motion patterns ...
Abstract. This paper describes a new model for extracting large-field optical flow patterns to gener...
Interest in the processing of optic flow has increased recently in both the neurophysiological and t...
Cells in the dorsal medial superior temporal cortex (MSTd) process optic flow generated by self-moti...
A simple and biologically plausible model is proposed to simulate the optic flow computation taking ...
Cells in the dorsal division of the medial superior temporal area (MSTd) have large receptive fields...
UnlabelledNeurons in the dorsal subregion of the medial superior temporal (MSTd) area of the macaque...
<p>(a) Responses of the maximally-active model MSTd subpopulations in spiral space as a function of ...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
<p>Neurons in a model MSTd hypercolumn possess selectivities across a spiral space spanning CW, CCW,...
© 2016 Dr. Parvin Zarei EskikandThe processing of motion information in the brain initiates in the p...
Several groups have proposed that area MSTd of the macaque monkey has a role in processing optical f...
A neural feed-forward model composed of two layers that mimic the V1\u2013MT primary motion pathway,...