The visual information we receive during natural vision changes rapidly and continuously. The visual system must adapt to the spatiotemporal contents of the environment in order to efficiently process the dynamic signals. However, neuronal responses to luminance contrast are usually measured using drifting or stationary gratings presented for a prolonged duration. Since motion in our visual field is continuous, the signals received by the visual system contain an abundance of transient components in the contrast domain. Here using a modified reverse correlation method, we studied the properties of responses of neurons in the cat primary visual cortex to different contrasts of grating stimuli presented statically and transiently for 40 ms, a...
When cat V1/V2 cells are adapted to contrast at their optimal orientation, a reduction in gain and/o...
In the early visual system, a contrast gain control mechanism sets the gain of responses based on th...
Sensory systems continuously adjust their function to match changes in the environment. Such adaptat...
During normal vision, objects moving in the environment, our own body movements and our eye movement...
Sensory neurons encode stimulus intensity in their instantaneous spike rate and adjust the set-point...
The contrast response function (CRF) of many neurons in the primary vi-sual cortex saturates and shi...
The contrast response function (CRF) of many neurons in the primary visual cortex saturates and shif...
Visual adaptation is a critical and ubiquitous mechanism that occurs for any stimulus feature and in...
Neural and sensory systems adapt to prolonged stimulation to allow signaling across broader input ra...
poral coding of contrast in primary visual cortex: when, what, and why. J Neurophysiol 85: 1039–1050...
SummaryIn this study, we characterize the adaptation of neurons in the cat lateral geniculate nucleu...
AbstractContrast adaptation, generated by prolonged viewing of a high contrast spatial pattern, is k...
SummaryThe human visual system can distinguish variations in image contrast over a much larger range...
Neurones in visual cortex show increasing response latency with decreasing stimulus contrast. Neurop...
It is well known that raising mean luminance speeds-up the visual response to temporal change. At hi...
When cat V1/V2 cells are adapted to contrast at their optimal orientation, a reduction in gain and/o...
In the early visual system, a contrast gain control mechanism sets the gain of responses based on th...
Sensory systems continuously adjust their function to match changes in the environment. Such adaptat...
During normal vision, objects moving in the environment, our own body movements and our eye movement...
Sensory neurons encode stimulus intensity in their instantaneous spike rate and adjust the set-point...
The contrast response function (CRF) of many neurons in the primary vi-sual cortex saturates and shi...
The contrast response function (CRF) of many neurons in the primary visual cortex saturates and shif...
Visual adaptation is a critical and ubiquitous mechanism that occurs for any stimulus feature and in...
Neural and sensory systems adapt to prolonged stimulation to allow signaling across broader input ra...
poral coding of contrast in primary visual cortex: when, what, and why. J Neurophysiol 85: 1039–1050...
SummaryIn this study, we characterize the adaptation of neurons in the cat lateral geniculate nucleu...
AbstractContrast adaptation, generated by prolonged viewing of a high contrast spatial pattern, is k...
SummaryThe human visual system can distinguish variations in image contrast over a much larger range...
Neurones in visual cortex show increasing response latency with decreasing stimulus contrast. Neurop...
It is well known that raising mean luminance speeds-up the visual response to temporal change. At hi...
When cat V1/V2 cells are adapted to contrast at their optimal orientation, a reduction in gain and/o...
In the early visual system, a contrast gain control mechanism sets the gain of responses based on th...
Sensory systems continuously adjust their function to match changes in the environment. Such adaptat...