Face perception depends on a dynamic interplay of a "holistic" Interactive Feature Processing (IFP) and a Local Feature Processing (LFP) style. However, it is unclear whether features are processed locally before they are integrated into a holistic percept (Fine-to-Coarse strategy), or whether local feature processing occurs only after a holistic percept is established (Coarse-to-Fine strategy). The present Event-Related Potentials study investigates whether IFP precedes LFP (Coarse-to-Fine) or vice versa (Fine-to-Coarse). Participants matched target features within face pairs (here the eye region), in which distracter features (nose and mouth) called for the same or a different response (congruent and incongruent, respectively). Psychophys...
Several recurrent models of vision propose that low and high levels of the ventral visual hierarchy ...
Primary vision segregates information along 2 main dimensions: orientation and spatial frequency (SF...
Coarse-to-fine models propose that primary (V1) and high-level visual regions interact over the cour...
Face perception depends on a dynamic interplay of a "holistic" Interactive Feature Processing (IFP) ...
Face perception depends on a dynamic interplay of a "holistic" Interactive Feature Processing (IFP) ...
peer reviewedRecent evidence suggests that the Fusiform Face Area (FFA) is not exclusively dedicated...
Recent evidence suggests that the Fusiform Face Area (FFA) is not exclusively dedicated to the inter...
Recent evidence suggests that the Fusiform Face Area (FFA) is not exclusively dedicated to the inter...
Face perception is thought to result from the dynamic interplay between holistic and featural modes ...
When processing a face stimulus, the human visual system tends to strongly integrate its constituent...
AbstractFace perception is thought to result from the dynamic interplay between holistic and featura...
peer reviewedPrimary vision segregates information along 2 main dimensions: orientation and spatial ...
Primary vision segregates information along 2 main dimensions: orientation and spatial frequency (SF...
There is evidence that the cognitive system processes human faces faster and more precisely than oth...
Several recurrent models of vision propose that low and high levels of the ventral visual hierarchy ...
Primary vision segregates information along 2 main dimensions: orientation and spatial frequency (SF...
Coarse-to-fine models propose that primary (V1) and high-level visual regions interact over the cour...
Face perception depends on a dynamic interplay of a "holistic" Interactive Feature Processing (IFP) ...
Face perception depends on a dynamic interplay of a "holistic" Interactive Feature Processing (IFP) ...
peer reviewedRecent evidence suggests that the Fusiform Face Area (FFA) is not exclusively dedicated...
Recent evidence suggests that the Fusiform Face Area (FFA) is not exclusively dedicated to the inter...
Recent evidence suggests that the Fusiform Face Area (FFA) is not exclusively dedicated to the inter...
Face perception is thought to result from the dynamic interplay between holistic and featural modes ...
When processing a face stimulus, the human visual system tends to strongly integrate its constituent...
AbstractFace perception is thought to result from the dynamic interplay between holistic and featura...
peer reviewedPrimary vision segregates information along 2 main dimensions: orientation and spatial ...
Primary vision segregates information along 2 main dimensions: orientation and spatial frequency (SF...
There is evidence that the cognitive system processes human faces faster and more precisely than oth...
Several recurrent models of vision propose that low and high levels of the ventral visual hierarchy ...
Primary vision segregates information along 2 main dimensions: orientation and spatial frequency (SF...
Coarse-to-fine models propose that primary (V1) and high-level visual regions interact over the cour...