Variability in neuronal response latency has been typically considered caused by random noise. Previous studies of single cells and large neuronal populations have shown that the temporal variability tends to increase along the visual pathway. Inspired by these previous studies, we hypothesized that functional areas at later stages in the visual pathway of face processing would have larger variability in the response latency. To test this hypothesis, we used magnetoencephalographic data collected when subjects were presented with images of human faces. Faces are known to elicit a sequence of activity from the primary visual cortex to the fusiform gyrus. Our results revealed that the fusiform gyrus showed larger variability in the response l...
Electrophysiological responses to previously seen faces reportedly differ from those to novel faces ...
Faces are processed by a neural system with distributed anatomical components, but the roles of thes...
Human reaction times during sensory-motor tasks vary considerably. To begin to understand how this v...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
Evidence from functional neuroimaging indicates that visual perception of human faces and bodies is ...
<div><p>Different kinds of known faces activate brain areas to dissimilar degrees. However, the tuni...
Different kinds of known faces activate brain areas to dissimilar degrees. However, the tuning to ty...
In a highly dynamic visual environment the human brain needs to rapidly differentiate complex visual...
Evidence from functional neuroimaging indicates that visual perception of human faces and bodies is ...
International audienceTo better understand face recognition, it is necessary to identify not only wh...
Establishing consistent relationships between neural activity and behavior is a challenge in human c...
Item does not contain fulltextCortical activity is highly variable across time, but the origin of th...
To better understand face recognition, it is necessary to identify not only which brain structures a...
Functional magnetic resonance imaging (fMRI) studies have shown that neural activity fluctuates spon...
Abstract Background To segregate luminance-related, face-related and non-specific components involve...
Electrophysiological responses to previously seen faces reportedly differ from those to novel faces ...
Faces are processed by a neural system with distributed anatomical components, but the roles of thes...
Human reaction times during sensory-motor tasks vary considerably. To begin to understand how this v...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
Evidence from functional neuroimaging indicates that visual perception of human faces and bodies is ...
<div><p>Different kinds of known faces activate brain areas to dissimilar degrees. However, the tuni...
Different kinds of known faces activate brain areas to dissimilar degrees. However, the tuning to ty...
In a highly dynamic visual environment the human brain needs to rapidly differentiate complex visual...
Evidence from functional neuroimaging indicates that visual perception of human faces and bodies is ...
International audienceTo better understand face recognition, it is necessary to identify not only wh...
Establishing consistent relationships between neural activity and behavior is a challenge in human c...
Item does not contain fulltextCortical activity is highly variable across time, but the origin of th...
To better understand face recognition, it is necessary to identify not only which brain structures a...
Functional magnetic resonance imaging (fMRI) studies have shown that neural activity fluctuates spon...
Abstract Background To segregate luminance-related, face-related and non-specific components involve...
Electrophysiological responses to previously seen faces reportedly differ from those to novel faces ...
Faces are processed by a neural system with distributed anatomical components, but the roles of thes...
Human reaction times during sensory-motor tasks vary considerably. To begin to understand how this v...