Numerous psychophysical experiments found that humans preferably rely on a narrow band of spatial frequencies for recognition of face identity. A recently conducted theoretical study by the author suggests that this frequency preference reflects an adaptation of the brain’s face processing machinery to this specific stimulus class (i.e., faces). The purpose of the present study is to examine this property in greater detail and to specifically elucidate the implication of internal face features (i.e., eyes, mouth, and nose). To this end, I parameterized Gabor filters to match the spatial receptive field of contrast sensitive neurons in the primary visual cortex (simple and complex cells). Filter responses to a large number of face images wer...
Behavioral research indicates that successful face individuation is associated with sensitivity to s...
Face perception is a ubiquitous perceptual task that most people easily perform many times a day, be...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
Numerous psychophysical experiments found that humans preferably rely on a narrow band of spatial fr...
The aim of this research is to investigate the extent to which selective attention to spatial freque...
AbstractPrior work using a matching task between images that were complementary in spatial frequency...
The perception and recognition of familiar faces depends critically on an analysis of the internal f...
When processing a face stimulus, the human visual system tends to strongly integrate its constituent...
A pivotal issue in the field of cognitive neuroscience of face perception has centered on the extrac...
A number of human brain areas showing a larger response to faces than to objects from different cate...
Faces are salient social stimuli whose features attract a stereotypical pattern of fixations. The im...
International audienceFace perception is based on the processing and integration of multiple spatial...
There is strong evidence that face processing is localized in the brain. The double dissociation bet...
A great challenge to the field of visual neuroscience is to understand how faces are encoded and rep...
A whole network of brain areas showing larger response to faces than other visual stimuli has been i...
Behavioral research indicates that successful face individuation is associated with sensitivity to s...
Face perception is a ubiquitous perceptual task that most people easily perform many times a day, be...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
Numerous psychophysical experiments found that humans preferably rely on a narrow band of spatial fr...
The aim of this research is to investigate the extent to which selective attention to spatial freque...
AbstractPrior work using a matching task between images that were complementary in spatial frequency...
The perception and recognition of familiar faces depends critically on an analysis of the internal f...
When processing a face stimulus, the human visual system tends to strongly integrate its constituent...
A pivotal issue in the field of cognitive neuroscience of face perception has centered on the extrac...
A number of human brain areas showing a larger response to faces than to objects from different cate...
Faces are salient social stimuli whose features attract a stereotypical pattern of fixations. The im...
International audienceFace perception is based on the processing and integration of multiple spatial...
There is strong evidence that face processing is localized in the brain. The double dissociation bet...
A great challenge to the field of visual neuroscience is to understand how faces are encoded and rep...
A whole network of brain areas showing larger response to faces than other visual stimuli has been i...
Behavioral research indicates that successful face individuation is associated with sensitivity to s...
Face perception is a ubiquitous perceptual task that most people easily perform many times a day, be...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
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