We describe a neuromorphic chip that utilizes transistor heterogeneity, introduced by the fabrication process, to generate orientation maps similar to those imaged in vivo. Our model consists of a recurrent network of excitatory and inhibitory cells in parallel with a push-pull stage. Similar to a previous model the recurrent network displays hotspots of activity that give rise to visual feature maps. Unlike previous work, however, the map for orientation does not depend on the sign of contrast. Instead, sign-independent cells driven by both ON and OFF channels anchor the map, while push-pull interactions give rise to sign-preserving cells. These two groups of orientation-selective cells are similar to complex and simple cells observed in V...
The computational role of the local recurrent network in primary visual cortex is still a matter of ...
Orientation hypercolumns in the visual cortex are delimited by the repeating pinwheel patterns of or...
We present a nonlinear, recurrent neural network model of the primary visual cortex with separate ON...
We describe a neuromorphic chip that utilizes transistor heterogeneity, introduced by the fabricatio...
Neurons in the mammalian primary visual cortex are selective along multiple stimulus dimensions, inc...
We describe a neuromorphic chip with a two-layer excitatory-inhibitory recurrent network of that exh...
This paper describes a neuromorphic implementation of the orientation hypercolumns found in the mamm...
Prenatal development of the primary visual cortex leads to simple cells with spatially distinct and ...
Chicca E, Lichtsteiner P, Delbruck T, Indiveri G, Douglas RJ. Modeling Orientation Selectivity Using...
AbstractNeurons in visual cortex are selective for the orientation of a visual stimulus, while the r...
This paper describes a neuromorphic implementation of the orientation hypercolumns found in the mamm...
The processing of visual data in area 17 of the mammalian cortex is mainly performed by cells with r...
We present the bump chip, a silicon model of the primary visual cortex that proposes a design princi...
The neuronal mechanisms underlying the emergence of orientation selectivity in the primary visual co...
SummaryThe organization of primary visual cortex (V1) into functional maps makes individual cells op...
The computational role of the local recurrent network in primary visual cortex is still a matter of ...
Orientation hypercolumns in the visual cortex are delimited by the repeating pinwheel patterns of or...
We present a nonlinear, recurrent neural network model of the primary visual cortex with separate ON...
We describe a neuromorphic chip that utilizes transistor heterogeneity, introduced by the fabricatio...
Neurons in the mammalian primary visual cortex are selective along multiple stimulus dimensions, inc...
We describe a neuromorphic chip with a two-layer excitatory-inhibitory recurrent network of that exh...
This paper describes a neuromorphic implementation of the orientation hypercolumns found in the mamm...
Prenatal development of the primary visual cortex leads to simple cells with spatially distinct and ...
Chicca E, Lichtsteiner P, Delbruck T, Indiveri G, Douglas RJ. Modeling Orientation Selectivity Using...
AbstractNeurons in visual cortex are selective for the orientation of a visual stimulus, while the r...
This paper describes a neuromorphic implementation of the orientation hypercolumns found in the mamm...
The processing of visual data in area 17 of the mammalian cortex is mainly performed by cells with r...
We present the bump chip, a silicon model of the primary visual cortex that proposes a design princi...
The neuronal mechanisms underlying the emergence of orientation selectivity in the primary visual co...
SummaryThe organization of primary visual cortex (V1) into functional maps makes individual cells op...
The computational role of the local recurrent network in primary visual cortex is still a matter of ...
Orientation hypercolumns in the visual cortex are delimited by the repeating pinwheel patterns of or...
We present a nonlinear, recurrent neural network model of the primary visual cortex with separate ON...