Add to ORKGAn influential theory of visual processing asserts that retinal center-surround receptive fields remove spatial correlations in the visual world, producing ganglion cell spike trains that are less redundant than the corresponding image pixels. For bright, high-contrast images, this decorrelation would enhance coding efficiency in optic nerve fibers of limited capacity. We tested the central prediction of the theory and found that the spike trains of retinal ganglion cells were indeed decorrelated compared with the visual input. However, most of the decorrelation was accomplished not by the receptive fields, but by nonlinear processing in the retina. We found that a steep response threshold enhanced efficient coding by noisy spike trains and...
SummaryWe have explored the manner in which the population of retinal ganglion cells collectively re...
Sensory neurons have been hypothesized to efficiently encode signals from the natural environment su...
Visual information reaches the brain by way of a fine cable, the optic nerve. The million or so axon...
An influential theory of visual processing asserts that retinal center-surround receptive fields rem...
Computational models founded on the prevailing paradigm of retinal processing, while able to replica...
A physiologically plausible neural net, simulating ganglion cell signals in the primate retina was s...
Natural images follow statistics inherited by the structure of our physical (visual) environment. In...
Natural images follow statistics inherited by the structure of our physical (visual) environment. In...
Natural vision is a highly dynamic process. Frequent body, head, and eye movements constantly bring ...
Redundancies and correlations in the responses of sensory neurons may seem to waste neural resources...
<div><p>Redundancies and correlations in the responses of sensory neurons may seem to waste neural r...
a large number of retinal ganglion cells, one should be able to construct a decoding algorithm to di...
AbstractTo account for the spatial and temporal response properties of the retina, a number of studi...
A central goal in sensory neuroscience is to understand the neuronal signal processing involved in t...
Natural vision is a highly dynamic process. Frequent body, head, and eye movements constantly bring ...
SummaryWe have explored the manner in which the population of retinal ganglion cells collectively re...
Sensory neurons have been hypothesized to efficiently encode signals from the natural environment su...
Visual information reaches the brain by way of a fine cable, the optic nerve. The million or so axon...
An influential theory of visual processing asserts that retinal center-surround receptive fields rem...
Computational models founded on the prevailing paradigm of retinal processing, while able to replica...
A physiologically plausible neural net, simulating ganglion cell signals in the primate retina was s...
Natural images follow statistics inherited by the structure of our physical (visual) environment. In...
Natural images follow statistics inherited by the structure of our physical (visual) environment. In...
Natural vision is a highly dynamic process. Frequent body, head, and eye movements constantly bring ...
Redundancies and correlations in the responses of sensory neurons may seem to waste neural resources...
<div><p>Redundancies and correlations in the responses of sensory neurons may seem to waste neural r...
a large number of retinal ganglion cells, one should be able to construct a decoding algorithm to di...
AbstractTo account for the spatial and temporal response properties of the retina, a number of studi...
A central goal in sensory neuroscience is to understand the neuronal signal processing involved in t...
Natural vision is a highly dynamic process. Frequent body, head, and eye movements constantly bring ...
SummaryWe have explored the manner in which the population of retinal ganglion cells collectively re...
Sensory neurons have been hypothesized to efficiently encode signals from the natural environment su...
Visual information reaches the brain by way of a fine cable, the optic nerve. The million or so axon...