Face Processing Systems: From Neurons to Real-World Social Perception

Winrich Freiwald; Bradley Duchaine; Galit Yovel

doi:10.1146/annurev-neuro-070815-013934

Face Processing Systems: From Neurons to Real-World Social Perception

Winrich Freiwald, Bradley Duchaine, Galit Yovel

School of Psychological Sciences

Research output: Contribution to journal › Article › peer-review

128 Scopus citations

Abstract

Primate face processing depends on a distributed network of interlinked face-selective areas composed of face-selective neurons. In both humans and macaques, the network is divided into a ventral stream and a dorsal stream, and the functional similarities of the areas in humans and macaques indicate they are homologous. Neural correlates for face detection, holistic processing, face space, and other key properties of human face processing have been identified at the single neuron level, and studies providing causal evidence have established firmly that face-selective brain areas are central to face processing. These mechanisms give rise to our highly accurate familiar face recognition but also to our error-prone performance with unfamiliar faces. This limitation of the face system has important implications for consequential situations such as eyewitness identification and policing.

Original language	English
Pages (from-to)	325-346
Number of pages	22
Journal	Annual Review of Neuroscience
Volume	39
DOIs	https://doi.org/10.1146/annurev-neuro-070815-013934
State	Published - 8 Jul 2016

Funding

Funders	Funder number
National Eye Institute	R01EY021594

Keywords

Face recognition
Functional brain organization
Neural mechanisms of behavior
Social brain function

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10.1146/annurev-neuro-070815-013934

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abstract = "Primate face processing depends on a distributed network of interlinked face-selective areas composed of face-selective neurons. In both humans and macaques, the network is divided into a ventral stream and a dorsal stream, and the functional similarities of the areas in humans and macaques indicate they are homologous. Neural correlates for face detection, holistic processing, face space, and other key properties of human face processing have been identified at the single neuron level, and studies providing causal evidence have established firmly that face-selective brain areas are central to face processing. These mechanisms give rise to our highly accurate familiar face recognition but also to our error-prone performance with unfamiliar faces. This limitation of the face system has important implications for consequential situations such as eyewitness identification and policing.",

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Face Processing Systems: From Neurons to Real-World Social Perception

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