Prolonged stimulation by temporally modulated sinusoidal gratings causes a decrease in the contrast sensitivity and response of neurons in the visual cortex. We have studied the dynamic aspects of this contrast gain control mechanism, and how its temporal properties affect the determination of neural contrast response functions. In addition, we have considered the possibility that a single mechanism is sufficient to explain monocular and binocular properties of contrast gain control. We find that neural contrast response functions are highly susceptible to the measurement procedure itself so that the data obtained in some studies seriously underestimate the slope of the function and overestimate the threshold. Therefore, careful selection o...
The binocular summation of chromatic contrast was investigated under a variety of stimulus condition...
Ocular dominance has been extensively studied, often with the goal to understand neuroplasticity, ...
A fundamental problem for any visual system with binocular overlap is the combination of information...
Binocular rivalry is scientifically attractive because it allows the study of an entirely subjective...
In the early visual system, a contrast gain control mechanism sets the gain of responses based on th...
The fine task of stereoscopic depth discrimination in human subjects requires a functional binocular...
The human visual system combines contrast information from the two eyes to produce a single cyclopea...
AbstractBinocular rivalry elevates contrast increment thresholds for the detection of a transient st...
Although human observers can perceive depth from stereograms with considerable contrast difference b...
Recent neurophysiological experiments have revealed that the linear and nonlinear kernels of the tra...
The human ability to detect modulation of binocular disparity over time is poor compared with detect...
We assessed summation of contrast across eyes and area at detection threshold ( C t). Stimuli were s...
How do V1 cells respond to, adapt to, and combine signals from the two eyes? We tested a simple func...
AbstractThe binocular summation of chromatic contrast was investigated under a variety of stimulus c...
The human ability to detect modulation of binocular disparity over time is poor compared with detect...
The binocular summation of chromatic contrast was investigated under a variety of stimulus condition...
Ocular dominance has been extensively studied, often with the goal to understand neuroplasticity, ...
A fundamental problem for any visual system with binocular overlap is the combination of information...
Binocular rivalry is scientifically attractive because it allows the study of an entirely subjective...
In the early visual system, a contrast gain control mechanism sets the gain of responses based on th...
The fine task of stereoscopic depth discrimination in human subjects requires a functional binocular...
The human visual system combines contrast information from the two eyes to produce a single cyclopea...
AbstractBinocular rivalry elevates contrast increment thresholds for the detection of a transient st...
Although human observers can perceive depth from stereograms with considerable contrast difference b...
Recent neurophysiological experiments have revealed that the linear and nonlinear kernels of the tra...
The human ability to detect modulation of binocular disparity over time is poor compared with detect...
We assessed summation of contrast across eyes and area at detection threshold ( C t). Stimuli were s...
How do V1 cells respond to, adapt to, and combine signals from the two eyes? We tested a simple func...
AbstractThe binocular summation of chromatic contrast was investigated under a variety of stimulus c...
The human ability to detect modulation of binocular disparity over time is poor compared with detect...
The binocular summation of chromatic contrast was investigated under a variety of stimulus condition...
Ocular dominance has been extensively studied, often with the goal to understand neuroplasticity, ...
A fundamental problem for any visual system with binocular overlap is the combination of information...