SummaryDue to fixational eye movements, the image on the retina is always in motion, even when one views a stationary scene. When an object moves within the scene, the corresponding patch of retina experiences a different motion trajectory than the surrounding region. Certain retinal ganglion cells respond selectively to this condition, when the motion in the cell's receptive field center is different from that in the surround. Here we show that this response is strongest at the very onset of differential motion, followed by gradual adaptation with a time course of several seconds. Different subregions of a ganglion cell's receptive field can adapt independently. The circuitry responsible for differential motion adaptation lies in the inner...
Certain ganglion cells in the retina respond sensitively to differential motion between the receptiv...
AbstractThe visual system adapts to the magnitude of intensity fluctuations, and this process begins...
AbstractThe retina adapts to average light intensity but also to the range of light intensities (con...
Due to fixational eye movements, the image on the retina is always in motion, even when one views a ...
SummaryDue to fixational eye movements, the image on the retina is always in motion, even when one v...
An important task in vision is to detect objects moving within a stationary scene. During normal vie...
One of the visual system’s many tasks is to be able to distinguish objects from the background. The ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/65522/1/jphysiol.2008.156638.pd
To make up for delays in visual processing, retinal circuitry effectively predicts that a moving obj...
AbstractSimultaneously adapting to retinal motion and non-collinear pursuit eye movement produces a ...
Neural and sensory systems adapt to prolonged stimulation to allow signaling across broader input ra...
SummaryVisual neurons, from retina to cortex, adapt slowly to stimulus contrast. Following a switch ...
Simultaneously adapting to retinal motion and non-collinear pursuit eye movement produces a motion a...
Previous studies have shown that motion onset is very effective at capturing attention and is more s...
Sensory systems continually adjust the way stimuli are processed. What are the circuit mechanisms un...
Certain ganglion cells in the retina respond sensitively to differential motion between the receptiv...
AbstractThe visual system adapts to the magnitude of intensity fluctuations, and this process begins...
AbstractThe retina adapts to average light intensity but also to the range of light intensities (con...
Due to fixational eye movements, the image on the retina is always in motion, even when one views a ...
SummaryDue to fixational eye movements, the image on the retina is always in motion, even when one v...
An important task in vision is to detect objects moving within a stationary scene. During normal vie...
One of the visual system’s many tasks is to be able to distinguish objects from the background. The ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/65522/1/jphysiol.2008.156638.pd
To make up for delays in visual processing, retinal circuitry effectively predicts that a moving obj...
AbstractSimultaneously adapting to retinal motion and non-collinear pursuit eye movement produces a ...
Neural and sensory systems adapt to prolonged stimulation to allow signaling across broader input ra...
SummaryVisual neurons, from retina to cortex, adapt slowly to stimulus contrast. Following a switch ...
Simultaneously adapting to retinal motion and non-collinear pursuit eye movement produces a motion a...
Previous studies have shown that motion onset is very effective at capturing attention and is more s...
Sensory systems continually adjust the way stimuli are processed. What are the circuit mechanisms un...
Certain ganglion cells in the retina respond sensitively to differential motion between the receptiv...
AbstractThe visual system adapts to the magnitude of intensity fluctuations, and this process begins...
AbstractThe retina adapts to average light intensity but also to the range of light intensities (con...