When observers must discriminate a weak sensory signal in noise, early sensory areas seem to reflect the instantaneous strength of the sensory signal. In contrast, high-level parietal and prefrontal areas appear to integrate these signals over time with activity peaking at the time of the observer’s decision. Here, we used functional magnetic resonance imaging to investigate how the brain forms perceptual decisions about complex visual forms in a chal-lenging task, requiring the discrimination of ambiguous 2-tone Mooney faces and visually similar nonface images. Face-selective areas in the ventral visual cortex showed greater activity when subjects reported perceiving a face as compared with a nonface, even on error trials. More important, ...
Perceptual decision-making entails the transformation of graded sensory signals into categorical jud...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
In a dynamically changing environment, we are constantly required to flexibly react to stimuli. It i...
AbstractAnatomic structures have been linked to the mnemonic component of working memory, but the ne...
The way in which input noise perturbs the behavior of a system depends on the internal processing st...
In the present study, we tested the hypothesis that brain activation would reflect perceptual choice...
Single and multi-unit recordings in primates have identified spatially localized neuronal activity c...
The way in which input noise perturbs the behavior of a system depends on the internal processing st...
To form perceptual decisions in our multisensory environment, the brain needs to integrate sensory i...
According to sequential sampling models, perceptual decision-making is based on accumulation of nois...
Perceptual judgments are frequently made during uncertain situations. Previous human brain imaging s...
Perceptual judgments are frequently made during uncertain situations. Previous human brain imaging s...
The left dorsolateral prefrontal cortex (ldlPFC) has been highlighted as a key actor in human percep...
Decision making can be conceptualized as the culmination of an integrative process in which evidence...
Perceptual discriminations can be strongly biased by the expected reward for a correct decision but ...
Perceptual decision-making entails the transformation of graded sensory signals into categorical jud...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
In a dynamically changing environment, we are constantly required to flexibly react to stimuli. It i...
AbstractAnatomic structures have been linked to the mnemonic component of working memory, but the ne...
The way in which input noise perturbs the behavior of a system depends on the internal processing st...
In the present study, we tested the hypothesis that brain activation would reflect perceptual choice...
Single and multi-unit recordings in primates have identified spatially localized neuronal activity c...
The way in which input noise perturbs the behavior of a system depends on the internal processing st...
To form perceptual decisions in our multisensory environment, the brain needs to integrate sensory i...
According to sequential sampling models, perceptual decision-making is based on accumulation of nois...
Perceptual judgments are frequently made during uncertain situations. Previous human brain imaging s...
Perceptual judgments are frequently made during uncertain situations. Previous human brain imaging s...
The left dorsolateral prefrontal cortex (ldlPFC) has been highlighted as a key actor in human percep...
Decision making can be conceptualized as the culmination of an integrative process in which evidence...
Perceptual discriminations can be strongly biased by the expected reward for a correct decision but ...
Perceptual decision-making entails the transformation of graded sensory signals into categorical jud...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
In a dynamically changing environment, we are constantly required to flexibly react to stimuli. It i...