A model is presented for the early (retinal) stages of temporal processing of light inputs in the visual system. The model consists of a sequence of three adaptation processes, with two instantaneous nonlinearities in between. The three adaptation processes are, in order of processing of the light input: a divisive light adaptation, a subtractive light adaptation, and a contrast gain control. Divisive light adaptation is modeled by two gain controls. The first of these is a fast feedback loop with square-root behavior, the second a slow feedback loop with logarithm-like behavior. This can explain several aspects of the temporal behavior of photoreceptor outputs. Subtractive light adaptation is modeled by a high-pass filter equivalent to a f...
Symmetric flicker modulates about a background light level and effects no change in the time-average...
Little is known about the mechanism that regulates the sensitivity of rod system at its normal opera...
A major problem a visual system faces is how to fit the large intensity variation of natural image s...
A model is presented for the early (retinal) stages of temporal processing of light inputs in the vi...
The range of c. 1012 ambient light levels to which we can be exposed massively exceeds the <103 resp...
AbstractExperiments from the periodic and aperiodic traditions were used to guide the development of...
International audienceAdaptation is at the heart of sensation and nowhere is it more salient than in...
AbstractIn the probed-sinewave paradigm, threshold for detecting a probe is measured at various phas...
As is well known, dark adaption in the human visual system is much slower than is recovery from dark...
As is well known, dark adaption in the human visual system is much slower than is recovery from dark...
How does our temporal vision change as the mean illuminance reduces? We have examined the processing...
We measured human psychophysical detection thresholds for test pulses which are superimposed on spat...
Symmetric flicker modulates about a background light level and effects no change in the time-average...
Symmetric flicker modulates about a background light level and effects no change in the time-average...
Little is known about the mechanism that regulates the sensitivity of rod system at its normal opera...
A major problem a visual system faces is how to fit the large intensity variation of natural image s...
A model is presented for the early (retinal) stages of temporal processing of light inputs in the vi...
The range of c. 1012 ambient light levels to which we can be exposed massively exceeds the <103 resp...
AbstractExperiments from the periodic and aperiodic traditions were used to guide the development of...
International audienceAdaptation is at the heart of sensation and nowhere is it more salient than in...
AbstractIn the probed-sinewave paradigm, threshold for detecting a probe is measured at various phas...
As is well known, dark adaption in the human visual system is much slower than is recovery from dark...
As is well known, dark adaption in the human visual system is much slower than is recovery from dark...
How does our temporal vision change as the mean illuminance reduces? We have examined the processing...
We measured human psychophysical detection thresholds for test pulses which are superimposed on spat...
Symmetric flicker modulates about a background light level and effects no change in the time-average...
Symmetric flicker modulates about a background light level and effects no change in the time-average...
Little is known about the mechanism that regulates the sensitivity of rod system at its normal opera...
A major problem a visual system faces is how to fit the large intensity variation of natural image s...