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Distributed neural systems for face perception

In Andy Calder, Gillian Rhodes, Mark Johnson & Jim Haxby (eds.), Oxford Handbook of Face Perception. Oxford University Press. pp. 93--110 (2011)

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  1. The distributed human neural system for face perception.Elizabeth A. Hoffman, M. Ida Gobbini & James V. Haxby - 2000 - Trends in Cognitive Sciences 4 (6):223-233.
    Face perception, perhaps the most highly developed visual skill in humans, is mediated by a distributed neural system in humans that is comprised of multiple, bilateral regions. We propose a model for the organization of this system that emphasizes a distinction between the representation of invariant and changeable aspects of faces. The representation of invariant aspects of faces underlies the recognition of individuals, whereas the representation of changeable aspects of faces, such as eye gaze, expression, and lip movement, underlies the (...)
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  • Beyond mind-reading: multi-voxel pattern analysis of fMRI data.Kenneth A. Norman, Sean M. Polyn, Greg J. Detre & James V. Haxby - 2006 - Trends in Cognitive Sciences 10 (9):424-430.
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  • Unconscious facial reactions to emotional facial expressions.U. Dimberg, M. Thunberg & K. Elmehed - 2000 - Psychological Science 11 (1):86-89.
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  • Implicit social cognition: Attitudes, self-esteem, and stereotypes.Anthony G. Greenwald & Mahzarin R. Banaji - 1995 - Psychological Review 102 (1):4-27.
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  • The Simulating Social Mind: The Role of the Mirror Neuron System and Simulation in the Social and Communicative Deficits of Autism Spectrum Disorders.Vilayanur S. Ramachandran - unknown
    The mechanism by which humans perceive others differs greatly from how humans perceive inanimate objects. Unlike inanimate objects, humans have the distinct property of being “like me” in the eyes of the observer. This allows us to use the same systems that process knowledge about self-performed actions, self-conceived thoughts, and self-experienced emotions to understand actions, thoughts, and emotions in others. The authors propose that internal simulation mechanisms, such as the mirror neuron system, are necessary for normal development of recognition, imitation, (...)
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