When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as their temporal filtering characteristics. The latter has classically been described by contrast-induced gain changes that depend on temporal frequency. Here, we explored a new perspective on contrast-induced changes in temporal filtering by using spike-triggered covariance analysis to extract multiple parallel temporal filters for individual ganglion cells. Based on multielectrode-array recordings from ganglion cells in the isolated salamander retina, we found that contrast adaptation of temporal filtering can largely be captured by contrast-invariant sets of filters with contrast-dependent weights. Moreover, differences among the ganglion c...
To transmit information efficiently in a changing environment, the retina adapts to visual contrast ...
The visual system adapts to the magnitude of intensity fluctuations, and this process begins in the ...
Retinal ganglion cells adapt their responses to the amplitude of fluctuations around the mean light ...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
<div><p>When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
We investigated how the light-evoked input and output signals of salamander retinal ganglion cells a...
The retina adapts to the temporal contrast of the light inputs. One component of contrast adaptation...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
AbstractThe visual system adapts to the magnitude of intensity fluctuations, and this process begins...
To transmit information efficiently in a changing environment, the retina adapts to visual contrast ...
The visual system adapts to the magnitude of intensity fluctuations, and this process begins in the ...
Retinal ganglion cells adapt their responses to the amplitude of fluctuations around the mean light ...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
<div><p>When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
We investigated how the light-evoked input and output signals of salamander retinal ganglion cells a...
The retina adapts to the temporal contrast of the light inputs. One component of contrast adaptation...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
AbstractThe visual system adapts to the magnitude of intensity fluctuations, and this process begins...
To transmit information efficiently in a changing environment, the retina adapts to visual contrast ...
The visual system adapts to the magnitude of intensity fluctuations, and this process begins in the ...
Retinal ganglion cells adapt their responses to the amplitude of fluctuations around the mean light ...