It is hypothesized that the striate cortex is concerned with, among other things, removing binocular correlations in the inputs. This theory is applied to explain the different ocular dominance column (ODC) formations observed after visual developments under strabismus, excessive binocular correlations, normal environment, and monocular deprivation. These ODC formations are shown to be consequences of decorrelation coding strategies for different binocular input statistics. Experimental tests of the theory are suggested
This article develops a neural model of how sharp disparity tuning can arise through experience-depe...
[[abstract]]In this thesis, a binocular perception model in the low level vision processes was cons...
The map from eye to brain in vertebrates is topographic, i.e. neighbouring points in the eye map to ...
Stereo images are highly redundant; the left and right frames of typical scenes are very similar. Li...
Dataset and code used for data analysis featured in "A Role for Ocular Dominance in Binocular Integr...
A new computational model that addresses the formation of both topography and ocular dominance is pr...
iAbstract There is strong biological evidence that the same mechanisms underly the formation of both...
Recent experimental data indicate that both neurotrophic factors (NTFs) and intracortical inhibitory...
The development of ocular dominance columns in primary visual cortex has attracted much interest fro...
The map from eye to brain in vertebrates is topographic, i.e. neighbouring points in the eye map to ...
Ocular dominance has been extensively studied, often with the goal to understand neuroplasticity, ...
Binocular rivalry is scientifically attractive because it allows the study of an entirely subjective...
AbstractWe describe a modification to a standard correlation model for the development of the genicu...
The basic sets of cortical connections are present at birth in the primate visual system. The mainte...
Several factors may interact to determine the periodicity of ocular dominance stripes in cat and mon...
This article develops a neural model of how sharp disparity tuning can arise through experience-depe...
[[abstract]]In this thesis, a binocular perception model in the low level vision processes was cons...
The map from eye to brain in vertebrates is topographic, i.e. neighbouring points in the eye map to ...
Stereo images are highly redundant; the left and right frames of typical scenes are very similar. Li...
Dataset and code used for data analysis featured in "A Role for Ocular Dominance in Binocular Integr...
A new computational model that addresses the formation of both topography and ocular dominance is pr...
iAbstract There is strong biological evidence that the same mechanisms underly the formation of both...
Recent experimental data indicate that both neurotrophic factors (NTFs) and intracortical inhibitory...
The development of ocular dominance columns in primary visual cortex has attracted much interest fro...
The map from eye to brain in vertebrates is topographic, i.e. neighbouring points in the eye map to ...
Ocular dominance has been extensively studied, often with the goal to understand neuroplasticity, ...
Binocular rivalry is scientifically attractive because it allows the study of an entirely subjective...
AbstractWe describe a modification to a standard correlation model for the development of the genicu...
The basic sets of cortical connections are present at birth in the primate visual system. The mainte...
Several factors may interact to determine the periodicity of ocular dominance stripes in cat and mon...
This article develops a neural model of how sharp disparity tuning can arise through experience-depe...
[[abstract]]In this thesis, a binocular perception model in the low level vision processes was cons...
The map from eye to brain in vertebrates is topographic, i.e. neighbouring points in the eye map to ...