Human contrast discrimination performance is limited by transduction nonlinearities and variability of the neural representation (noise). Whereas the nonlinearities have been well-characterised, there is less agreement about the specifics of internal noise. Psychophysical models assume that it impacts late in sensory processing, whereas neuroimaging and intracranial electrophysiology studies suggest that the noise is much earlier. We investigated whether perceptually-relevant internal noise arises in early visual areas or later decision making areas. We recorded EEG and MEG during a two-interval-forced-choice contrast discrimination task and used multivariate pattern analysis to decode target/non-target and selected/non-selected intervals f...
Behavioral and brain responses to identical stimuli can vary with experimental and task parameters, ...
Neural systems are inherently noisy, and this noise can affect our perception from moment to moment....
The ability to distinguish one visual stimulus from another slightly different one depends on the va...
Perceptual decision making is prone to errors, especially near threshold. Physiological, behavioural...
Perceptual decision making is prone to errors, especially near threshold. Physiological, behavioural...
Perceptual decision making is prone to errors, especially near threshold. Physiological, behavioural...
AbstractA psychophysical method is proposed to separate the contrast dependence of internal response...
AbstractPsychophysical contrast increment thresholds were compared with neuronal responses, inferred...
The way in which input noise perturbs the behavior of a system depends on the internal processing st...
The way in which input noise perturbs the behavior of a system depends on the internal processing st...
Internal noise is a fundamental limiting property on visual processing. Internal noise has previousl...
Behavioral and brain responses to identical stimuli can vary with experimental and task parameters, ...
In order to respond reliably to specific features of their environment, sensory neurons need to inte...
Despite the ease with which we perceive, it is not clear how the distribution of light across the vi...
In forced-choice detection, incorrect responses are routinely ascribed to internal noise, because ex...
Behavioral and brain responses to identical stimuli can vary with experimental and task parameters, ...
Neural systems are inherently noisy, and this noise can affect our perception from moment to moment....
The ability to distinguish one visual stimulus from another slightly different one depends on the va...
Perceptual decision making is prone to errors, especially near threshold. Physiological, behavioural...
Perceptual decision making is prone to errors, especially near threshold. Physiological, behavioural...
Perceptual decision making is prone to errors, especially near threshold. Physiological, behavioural...
AbstractA psychophysical method is proposed to separate the contrast dependence of internal response...
AbstractPsychophysical contrast increment thresholds were compared with neuronal responses, inferred...
The way in which input noise perturbs the behavior of a system depends on the internal processing st...
The way in which input noise perturbs the behavior of a system depends on the internal processing st...
Internal noise is a fundamental limiting property on visual processing. Internal noise has previousl...
Behavioral and brain responses to identical stimuli can vary with experimental and task parameters, ...
In order to respond reliably to specific features of their environment, sensory neurons need to inte...
Despite the ease with which we perceive, it is not clear how the distribution of light across the vi...
In forced-choice detection, incorrect responses are routinely ascribed to internal noise, because ex...
Behavioral and brain responses to identical stimuli can vary with experimental and task parameters, ...
Neural systems are inherently noisy, and this noise can affect our perception from moment to moment....
The ability to distinguish one visual stimulus from another slightly different one depends on the va...