We present a nonlinear, recurrent neural network model of the primary visual cortex with separate ON/OFF-pathways and modifiable afferent as well as intracortical synaptic couplings. Orientation maps emerge driven by random input stimuli. Lateral coupling structures self-organize into DOG profiles under the influence of pronounced emerging cortical activity blobs. The model’s architecture and features are, compared with former models, well justified neurobiologically
[Abstract] Networks of neurons in the cerebral cortex generate complex outputs that are not simply p...
AbstractCombined optical imaging of ferret primary visual cortex in vivo and scanning laser photosti...
A model is proposed to demonstrate how neurons in the primary visual cortex could self-organize to r...
We present a nonlinear, recurrent neural network model of the primary visual cortex with separate ON...
Based on a Hebbian adaptation process, the afferent and lateral connections in the RF-LISSOM model o...
Based on recent experimental results on the connectivity and plasticity of the visual cortex, a new ...
Experimental observations suggest that contour integration may take place in V1. However, there has ...
The primary visual cortex (V1) of the mammalian brain is equipped with a specifi cally connected net...
Neurons in the primary visual cortex are more or less selective for the orientation of a light bar u...
Prenatal development of the primary visual cortex leads to simple cells with spatially distinct and ...
Orientation and ocular dominance maps in the primary visual cortex of mammals are among the most tho...
<p>Layer one represented layer 2/3 of V1 and contained excitatory and inhibitory neurons. Layer two ...
Based on recent experimental results on the connectivity and plasticity of the visual cortex, a new ...
International audienceA fundamental challenge for the theoretical study of neuronal networks is to m...
Adaptation refers to the phenomenon that sensory neurons are affected not only by their immediate in...
[Abstract] Networks of neurons in the cerebral cortex generate complex outputs that are not simply p...
AbstractCombined optical imaging of ferret primary visual cortex in vivo and scanning laser photosti...
A model is proposed to demonstrate how neurons in the primary visual cortex could self-organize to r...
We present a nonlinear, recurrent neural network model of the primary visual cortex with separate ON...
Based on a Hebbian adaptation process, the afferent and lateral connections in the RF-LISSOM model o...
Based on recent experimental results on the connectivity and plasticity of the visual cortex, a new ...
Experimental observations suggest that contour integration may take place in V1. However, there has ...
The primary visual cortex (V1) of the mammalian brain is equipped with a specifi cally connected net...
Neurons in the primary visual cortex are more or less selective for the orientation of a light bar u...
Prenatal development of the primary visual cortex leads to simple cells with spatially distinct and ...
Orientation and ocular dominance maps in the primary visual cortex of mammals are among the most tho...
<p>Layer one represented layer 2/3 of V1 and contained excitatory and inhibitory neurons. Layer two ...
Based on recent experimental results on the connectivity and plasticity of the visual cortex, a new ...
International audienceA fundamental challenge for the theoretical study of neuronal networks is to m...
Adaptation refers to the phenomenon that sensory neurons are affected not only by their immediate in...
[Abstract] Networks of neurons in the cerebral cortex generate complex outputs that are not simply p...
AbstractCombined optical imaging of ferret primary visual cortex in vivo and scanning laser photosti...
A model is proposed to demonstrate how neurons in the primary visual cortex could self-organize to r...