Our ability to recognize objects despite large changes in position, size, and context is achieved through computations that are thought to increase both the shape selectivity and the tolerance (“invariance”) of the visual representation at successive stages of the ventral pathway [visual cortical areas V1, V2, and V4 and inferior temporal cortex (IT)]. However, these ideas have proven difficult to test. Here, we consider how well population activity patterns at two stages of the ventral stream (V4 and IT) discriminate between, and generalize across, different images. We found that both V4 and IT encode natural images with similar fidelity, whereas the IT population is much more sensitive to controlled, statistical scrambling of those images...
SummaryWe can recognize objects in complex images in a fraction of a second [1–3]. Neuronal response...
Selective visual attention enables organisms to enhance the representation of behaviorally relevant ...
The images projected onto the retina can vary widely for a single object. Despite these transformati...
Our ability to recognize objects despite large changes in position, size, and context is achieved th...
Object recognition requires both selectivity among different objects and tolerance to vastly differe...
Biological visual systems have the remarkable ability to recognize objects despite confounding facto...
SummaryWe easily recognize objects and faces across a myriad of retinal images produced by each obje...
Primates can easily identify visual objects over large changes in retinal position--a property commo...
Visual object identification requires both selectivity for specific visual features that are importa...
Anterior inferotemporal cortex (ITa) plays a key role in visual object recognition. Recognition is t...
Neuroimaging studies have revealed strong selectivity for object categories in high-level regions of...
SummaryNatural vision often involves recognizing objects from partial information. Recognition of ob...
We can recognize objects in complex images in a fraction of a second. Neuronal responses in macaque ...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
SummaryWe can recognize objects in complex images in a fraction of a second [1–3]. Neuronal response...
Selective visual attention enables organisms to enhance the representation of behaviorally relevant ...
The images projected onto the retina can vary widely for a single object. Despite these transformati...
Our ability to recognize objects despite large changes in position, size, and context is achieved th...
Object recognition requires both selectivity among different objects and tolerance to vastly differe...
Biological visual systems have the remarkable ability to recognize objects despite confounding facto...
SummaryWe easily recognize objects and faces across a myriad of retinal images produced by each obje...
Primates can easily identify visual objects over large changes in retinal position--a property commo...
Visual object identification requires both selectivity for specific visual features that are importa...
Anterior inferotemporal cortex (ITa) plays a key role in visual object recognition. Recognition is t...
Neuroimaging studies have revealed strong selectivity for object categories in high-level regions of...
SummaryNatural vision often involves recognizing objects from partial information. Recognition of ob...
We can recognize objects in complex images in a fraction of a second. Neuronal responses in macaque ...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
Understanding the complex brain computations leading to object recognition requires quantitatively c...
SummaryWe can recognize objects in complex images in a fraction of a second [1–3]. Neuronal response...
Selective visual attention enables organisms to enhance the representation of behaviorally relevant ...
The images projected onto the retina can vary widely for a single object. Despite these transformati...