Add to ORKGPrevious evidence has shown that the number of L and M cones in retina varies significantly between subjects. However, it is not clear how the variation of L/M ratio changes the behavioral performance of the subject. A model of transformation of data from retina to visual cortex for evaluation of various L/M cones ratios is presented. While L/M cone ratios close to 1 brings the best performance for one of postreceptoral (magnocellular) channels, we showed that the performance in the second channel (parvocells) will improve when the ratio furthers away from 1. Effects of different ratios of S were also explored
Processing and encoding of visual information begins at the first stage of the primate retina. Here,...
AbstractIn the early stages of vision, information is transmitted through distinct physiologically d...
<p><b>A, B:</b> Information rate obtained when decoding with different subsets of ganglion cells (do...
A model of the development of L/M cone ratios in the Old World primate retina is presented. It is su...
The electroretinographic response to L- and M-cone isolating stimuli was measured at different lumin...
Experimental data on the accuracy and frequency of saccades are incorporated into a model of the vis...
AbstractBackground: Different types of retinal ganglion cells convey different messages to the brain...
Sensory neurons have been hypothesized to efficiently encode signals from the natural environment su...
In the early stages of vision, information is transmitted through distinct physiologically defined p...
SummaryIn the classic “What the frog's eye tells the frog's brain,” Lettvin and colleagues [1] showe...
The human spectral luminosity function (Vl) can be modeled as the linear sum of signals from long-wa...
New data on S-OFF ganglion cells (Dacey et al., 2001) reveal anatomical and physiological difference...
ON cone bipolar cells (ON CBCs) are retinal interneurons. They relay visual information from cone ph...
have the same efficiency. Thus, patterns per second sets the coding capacity. We asked we asked, w...
<p>Information per cone as a function of L cone fraction is shown for various scaling exponents, chr...
Processing and encoding of visual information begins at the first stage of the primate retina. Here,...
AbstractIn the early stages of vision, information is transmitted through distinct physiologically d...
<p><b>A, B:</b> Information rate obtained when decoding with different subsets of ganglion cells (do...
A model of the development of L/M cone ratios in the Old World primate retina is presented. It is su...
The electroretinographic response to L- and M-cone isolating stimuli was measured at different lumin...
Experimental data on the accuracy and frequency of saccades are incorporated into a model of the vis...
AbstractBackground: Different types of retinal ganglion cells convey different messages to the brain...
Sensory neurons have been hypothesized to efficiently encode signals from the natural environment su...
In the early stages of vision, information is transmitted through distinct physiologically defined p...
SummaryIn the classic “What the frog's eye tells the frog's brain,” Lettvin and colleagues [1] showe...
The human spectral luminosity function (Vl) can be modeled as the linear sum of signals from long-wa...
New data on S-OFF ganglion cells (Dacey et al., 2001) reveal anatomical and physiological difference...
ON cone bipolar cells (ON CBCs) are retinal interneurons. They relay visual information from cone ph...
have the same efficiency. Thus, patterns per second sets the coding capacity. We asked we asked, w...
<p>Information per cone as a function of L cone fraction is shown for various scaling exponents, chr...
Processing and encoding of visual information begins at the first stage of the primate retina. Here,...
AbstractIn the early stages of vision, information is transmitted through distinct physiologically d...
<p><b>A, B:</b> Information rate obtained when decoding with different subsets of ganglion cells (do...