International audienceVisual representations of faces are extracted shortly after 100 ms in the human brain, leading to an occipito-temporal cortex N170 event-related potential (ERP). To understand the nature of this early visual representation, a full-front adapting face preceded a different or identical target face identity. The target face varied parametrically in head orientation from the adapting face (0–90°, 15° steps). The N170 elicited by the target face increased progressively from 0° up to 30° head orientation, with no further increase until 90°. The N170 decreased for repeated face identities, this effect being stable between 0° and 30° changes of viewpoint, and no effect beyond that angle. These observations suggest that a face ...
Humans can reliably recognize faces across viewpoints. Although suboptimal, their performance is qui...
Human perception of faces is widely believed to rely on automatic processing by a domain-specifi c, ...
AbstractHow fast are visual stimuli categorized as faces by the human brain? Because of their high t...
Visual representations of faces are extracted shortly after 100 ms in the human brain, leading to an...
To investigate which stages in the structural encoding of faces are reflected by the face-specific N...
We investigated the human face specificity by comparing the effects of inversion and contrast revers...
ABSTRACT—Monkey and human cortex contain view-spe-cific face neurons, but it remains unclear whether...
The aim of this study was to determine the extent to which the neural representation of faces in vis...
The N170 is an occipito-temporal visual event-related potential that is larger in response to faces ...
A key to understanding visual cognition is to determine where, when and how brain responses reflect ...
Objectives: An event-related brain potential (ERP) study investigated how different processing stage...
How fast are visual stimuli categorized as faces by the human brain? Because of their high temporal ...
According to current ERP literature, face specific activity is reflected by a negative component ove...
The human brain recognizes faces by means of two main diagnostic sources of information: three-dimen...
This chapter reviews the contribution of electromagnetic measures, mostly event-related potentials (...
Humans can reliably recognize faces across viewpoints. Although suboptimal, their performance is qui...
Human perception of faces is widely believed to rely on automatic processing by a domain-specifi c, ...
AbstractHow fast are visual stimuli categorized as faces by the human brain? Because of their high t...
Visual representations of faces are extracted shortly after 100 ms in the human brain, leading to an...
To investigate which stages in the structural encoding of faces are reflected by the face-specific N...
We investigated the human face specificity by comparing the effects of inversion and contrast revers...
ABSTRACT—Monkey and human cortex contain view-spe-cific face neurons, but it remains unclear whether...
The aim of this study was to determine the extent to which the neural representation of faces in vis...
The N170 is an occipito-temporal visual event-related potential that is larger in response to faces ...
A key to understanding visual cognition is to determine where, when and how brain responses reflect ...
Objectives: An event-related brain potential (ERP) study investigated how different processing stage...
How fast are visual stimuli categorized as faces by the human brain? Because of their high temporal ...
According to current ERP literature, face specific activity is reflected by a negative component ove...
The human brain recognizes faces by means of two main diagnostic sources of information: three-dimen...
This chapter reviews the contribution of electromagnetic measures, mostly event-related potentials (...
Humans can reliably recognize faces across viewpoints. Although suboptimal, their performance is qui...
Human perception of faces is widely believed to rely on automatic processing by a domain-specifi c, ...
AbstractHow fast are visual stimuli categorized as faces by the human brain? Because of their high t...