1. The horizontal tuning of face perception relies on the processing of intermediate and high spatial frequencies
- Author
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Alexander Robert Wade, FRANCESCO LACQUANITI, Nikos Gorgoraptis, Melvyn Goodale, Elizabeth Zavitz, Michael Collins, Ryota Kanai, Jiro Gyoba, Maarten Van der Smagt, Doug Crawford, Wilson Geisler, Barbara La Scaleia, Scott Read, Valerie Goffaux, David Somers, Bas Rokers, Christine Schiltz, Masud Husain, Hinze Hogendoorn, Casper Erkelens, UCL - SSH/IPSY - Psychological Sciences Research Institute, UCL - SSS/IONS - Institute of NeuroScience, UCL - SSS/IONS/COSY - Systems & cognitive Neuroscience, Cognitive Neuroscience, and RS: FPN CN 1
- Subjects
Adult ,Male ,INVERTED FACES ,Adolescent ,Horizontal and vertical ,INFORMATION ,Facial recognition system ,orientation ,Young Adult ,Form perception ,Face perception ,Humans ,Computer vision ,VISUAL-CORTEX ,Sensory cue ,Communication ,IDENTIFICATION ,business.industry ,Orientation (computer vision) ,RECOGNITION ,spatial frequency ,Sensory Systems ,Form Perception ,Ophthalmology ,VISION ,Pattern Recognition, Visual ,Face ,Space Perception ,Face (geometry) ,UPRIGHT ,inversion effect ,face perception ,Female ,Spatial frequency ,Artificial intelligence ,UPSIDE-DOWN FACES ,Cues ,Psychology ,business ,INVERSION LEADS ,Photic Stimulation - Abstract
It was recently shown that expert face perception relies on the extraction of horizontally oriented visual cues. Picture-plane inversion was found to eliminate horizontal, suggesting that this tuning contributes to the specificity of face processing. The present experiments sought to determine the spatial frequency (SF) scales supporting the horizontal tuning of face perception. Participants were instructed to match upright and inverted faces that were filtered both in the frequency and orientation domains. Faces in a pair contained horizontal or vertical ranges of information in low, middle, or high SF (LSF, MSF, or HSF). Our findings confirm that upright (but not inverted) face perception is tuned to horizontal orientation. Horizontal tuning was the most robust in the MSF range, next in the HSF range, and absent in the LSF range. Moreover, face inversion selectively disrupted the ability to process horizontal information in MSF and HSF ranges. This finding was replicated even when task difficulty was equated across orientation and SF at upright orientation. Our findings suggest that upright face perception is tuned to horizontally oriented face information carried by intermediate and high SF bands. They further indicate that inversion alters the sampling of face information both in the orientation and SF domains.
- Published
- 2011