M. Ida Gobbini scite author profile

The functional architecture of the object vision pathway in the human brain was investigated using functional magnetic resonance imaging to measure patterns of response in ventral temporal cortex while subjects viewed faces, cats, five categories of man-made objects, and nonsense pictures. A distinct pattern of response was found for each stimulus category. The distinctiveness of the response to a given category was not due simply to the regions that responded maximally to that category, because the category being viewed also could be identified on the basis of the pattern of response when those regions were excluded from the analysis. Patterns of response that discriminated among all categories were found even within cortical regions that responded maximally to only one category. These results indicate that the representations of faces and objects in ventral temporal cortex are widely distributed and overlapping.

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Human neural systems for face recognition and social communication

Haxby

Hoffman

Gobbini

2002

Biological Psychiatry

1,137

824

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A Common, High-Dimensional Model of the Representational Space in Human Ventral Temporal Cortex

Haxby

Guntupalli

Connolly

et al. 2011

Neuron

609

772

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Summary We present a high-dimensional model of the representational space in human ventral temporal (VT) cortex in which dimensions are response-tuning functions that are common across individuals and patterns of response are modeled as weighted sums of basis patterns associated with these response-tunings. We map response pattern vectors, measured with fMRI, from individual subjects’ voxel spaces into this common model space using a new method, ‘hyperalignment’. Hyperalignment parameters based on responses during one experiment – movie-viewing – identified 35 common response-tuning functions that captured fine-grained distinctions among a wide range of stimuli in the movie and in two category perception experiments. Between-subject classification (BSC, multivariate pattern classification based on other subjects’ data) of response pattern vectors in common model space greatly exceeded BSC of anatomically-aligned responses and matched within-subject classification. Results indicate that population codes for complex visual stimuli in VT cortex are based on response-tuning functions that are common across individuals.

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M. Ida Gobbini

The distributed human neural system for face perception

Distributed and Overlapping Representations of Faces and Objects in Ventral Temporal Cortex

Human neural systems for face recognition and social communication

A Common, High-Dimensional Model of the Representational Space in Human Ventral Temporal Cortex

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