AbstractThe spatial receptive fields of simple cells in mammalian striate cortex have been reasonably well described physiologically and can be characterized as being localized, oriented, and bandpass, comparable with the basis functions of wavelet transforms. Previously, we have shown that these receptive field properties may be accounted for in terms of a strategy for producing a sparse distribution of output activity in response to natural images. Here, in addition to describing this work in a more expansive fashion, we examine the neurobiological implications of sparse coding. Of particular interest is the case when the code is overcomplete—i.e., when the number of code elements is greater than the effective dimensionality of the input ...
Growing evidence indicates that only a sparse subset from a pool of sensory neurons is active for th...
Following earlier studies which showed that a sparse coding principle may explain the receptive fiel...
Despite progress in understanding the organization and function of neural sensory systems, fundament...
AbstractThe spatial receptive fields of simple cells in mammalian striate cortex have been reasonabl...
Olshausen and Field (1996) developed a simple cell receptive field model for natural scene processin...
AbstractThe classical receptive fields of simple cells in the visual cortex have been shown to emerg...
The sparse coding hypothesis has enjoyed much success in predicting response properties of simple ce...
An emerging paradigm analyses in what respect the properties of the nervous system reflect propertie...
<div><p>Extensive electrophysiology studies have shown that many V1 simple cells have nonlinear resp...
A combination of experimental and theoretical studies have postulated converging evidence for the hy...
International audienceGrowing evidence indicates that only a sparse subset from a pool of sensory ne...
Mammalian brains consist of billions of neurons, each capable of independent electrical activity. In...
Theoretical studies suggest that primary visual cortex (area V1) uses a sparse code to efÞciently re...
The human visual system, at the primary cortex, has receptive fields that are spatially localized, o...
Increasing evidence supports the hypothesis that the visual system employs a sparse code to represen...
Growing evidence indicates that only a sparse subset from a pool of sensory neurons is active for th...
Following earlier studies which showed that a sparse coding principle may explain the receptive fiel...
Despite progress in understanding the organization and function of neural sensory systems, fundament...
AbstractThe spatial receptive fields of simple cells in mammalian striate cortex have been reasonabl...
Olshausen and Field (1996) developed a simple cell receptive field model for natural scene processin...
AbstractThe classical receptive fields of simple cells in the visual cortex have been shown to emerg...
The sparse coding hypothesis has enjoyed much success in predicting response properties of simple ce...
An emerging paradigm analyses in what respect the properties of the nervous system reflect propertie...
<div><p>Extensive electrophysiology studies have shown that many V1 simple cells have nonlinear resp...
A combination of experimental and theoretical studies have postulated converging evidence for the hy...
International audienceGrowing evidence indicates that only a sparse subset from a pool of sensory ne...
Mammalian brains consist of billions of neurons, each capable of independent electrical activity. In...
Theoretical studies suggest that primary visual cortex (area V1) uses a sparse code to efÞciently re...
The human visual system, at the primary cortex, has receptive fields that are spatially localized, o...
Increasing evidence supports the hypothesis that the visual system employs a sparse code to represen...
Growing evidence indicates that only a sparse subset from a pool of sensory neurons is active for th...
Following earlier studies which showed that a sparse coding principle may explain the receptive fiel...
Despite progress in understanding the organization and function of neural sensory systems, fundament...