Flash-lag chimeras: the role of perceived alignment in the composite face effect

Khurana, B., Carter, R. M., Watanabe, K. and Nijhawan, R. (2006) Flash-lag chimeras: the role of perceived alignment in the composite face effect. Vision Research, 46 (17). pp. 2757-72. ISSN 0042-6989

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Abstract

Spatial alignment of different face halves results in a configuration that mars the recognition of the identity of either face half (). What would happen to the recognition performance for face halves that were aligned on the retina but were perceived as misaligned, or were misaligned on the retina but were perceived as aligned? We used the 'flash-lag' effect () to address these questions. We created chimeras consisting of a stationary top half-face initially aligned with a moving bottom half-face. Flash-lag chimeras were better recognized than their stationary counterparts. However when flashed face halves were presented physically ahead of moving halves thereby nulling the flash-lag effect, recognition was impaired. This counters the notion that relative movement between the two face halves per se is sufficient to explain better recognition of flash-lag chimeras. Thus, the perceived spatial alignment of face halves (despite retinal misalignment) impairs recognition, while perceived misalignment (despite retinal alignment) does not.

Item Type: Article
Keywords: Face Famous Persons Female Humans Male Motion Perception/ physiology Pattern Recognition, Visual/ physiology Photic Stimulation/methods Psychophysics Reaction Time/physiology Recognition (Psychology)/ physiology
Schools and Departments: School of Psychology > Psychology
Subjects: B Philosophy. Psychology. Religion > BF Psychology
Depositing User: Beena Khurana
Date Deposited: 23 Nov 2006
Last Modified: 07 Mar 2017 04:00
URI: http://sro.sussex.ac.uk/id/eprint/544
Google Scholar:8 Citations

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