Many studies have uncovered evidence that visual cortex contains specialized regions involved in processing faces but not other object classes. Recent electrophysiology studies of cells in several of these specialized regions revealed that at least some of these regions are organized in a hierarchical manner with viewpoint-specific cells projecting to downstream viewpoint-invariant identity-specific cells (Freiwald and Tsao 2010). A separate computational line of reasoning leads to the claim that some transformations of visual inputs that preserve viewed object identity are class-specific. In particular, the 2D images evoked by a face undergoing a 3D rotation are not produced by the same image transformation (2D) that would produce the imag...
Understanding how the brain represents the identity of complex objects is a central challenge of vis...
ABSTRACT—Monkey and human cortex contain view-spe-cific face neurons, but it remains unclear whether...
We report on preliminary results of an anatomically-inspired deep learning model of the visual syste...
In a recent paper, Freiwald and Tsao (2010) found evidence that the responses of cells in the macaqu...
The primate brain contains a hierarchy of visual areas, dubbed the ventral stream, which rapidly com...
© 2017 Elsevier Ltd The primate brain contains a hierarchy of visual areas, dubbed the ventral strea...
In monkeys, a number of different neocortical as well as limbic structures have cell populations tha...
Is visual cortex made up of general-purpose information processing machinery, or does it consist of ...
Primates can recognize faces across a range of viewing conditions. Representations of individual ide...
Understanding how the human visual system recognizes objects is one of the key challenges in neurosc...
The macaque brain contains a set of regions that show stronger fMRI activation to faces than other c...
Faces are among the most informative stimuli we ever perceive: Even a split-second glimpse of a pers...
The inferior temporal cortex (IT) of monkeys is thought to play an essential role in visual object...
Understanding how the brain represents the identity of complex objects is a central challenge of vis...
Cognitive-psychological and neuropsychological studies suggest that the human brain processes facial...
Understanding how the brain represents the identity of complex objects is a central challenge of vis...
ABSTRACT—Monkey and human cortex contain view-spe-cific face neurons, but it remains unclear whether...
We report on preliminary results of an anatomically-inspired deep learning model of the visual syste...
In a recent paper, Freiwald and Tsao (2010) found evidence that the responses of cells in the macaqu...
The primate brain contains a hierarchy of visual areas, dubbed the ventral stream, which rapidly com...
© 2017 Elsevier Ltd The primate brain contains a hierarchy of visual areas, dubbed the ventral strea...
In monkeys, a number of different neocortical as well as limbic structures have cell populations tha...
Is visual cortex made up of general-purpose information processing machinery, or does it consist of ...
Primates can recognize faces across a range of viewing conditions. Representations of individual ide...
Understanding how the human visual system recognizes objects is one of the key challenges in neurosc...
The macaque brain contains a set of regions that show stronger fMRI activation to faces than other c...
Faces are among the most informative stimuli we ever perceive: Even a split-second glimpse of a pers...
The inferior temporal cortex (IT) of monkeys is thought to play an essential role in visual object...
Understanding how the brain represents the identity of complex objects is a central challenge of vis...
Cognitive-psychological and neuropsychological studies suggest that the human brain processes facial...
Understanding how the brain represents the identity of complex objects is a central challenge of vis...
ABSTRACT—Monkey and human cortex contain view-spe-cific face neurons, but it remains unclear whether...
We report on preliminary results of an anatomically-inspired deep learning model of the visual syste...