The orientation selectivity of face identification

V. Goffaux*, J.A. Greenwood

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Recent work demonstrates that human face identification is most efficient when based on horizontal, rather than vertical, image structure. Because it is unclear how this specialization for upright (compared to inverted) face processing emerges in the visual system, the present study aimed to systematically characterize the orientation sensitivity profile for face identification. With upright faces, identification performance in a delayed match-to-sample task was highest for horizontally filtered images and declined sharply with oblique and vertically filtered images. Performance was well described by a Gaussian function with a bandwidth around 25 degrees. Face inversion reshaped this sensitivity profile dramatically, with a downward shift of the entire tuning curve as well as a reduction in the amplitude of the horizontal peak and a doubling in bandwidth. The use of naturalistic outer contours (vs. a common outline mask) was also found to reshape this sensitivity profile by increasing sensitivity to oblique information in the near-horizontal range. Altogether, although face identification is sharply tuned to horizontal angles, both inversion and outline masking can profoundly reshape this orientation sensitivity profile. This combination of image-and observer-driven effects provides an insight into the functional relationship between orientation-selective processes within primary and high-level stages of the human brain.
Original languageEnglish
Article number34204
Number of pages11
JournalScientific Reports
Volume6
DOIs
Publication statusPublished - 28 Sept 2016

Keywords

  • FUNCTIONAL ARCHITECTURE
  • EMOTION RECOGNITION
  • VERTICAL RELATIONS
  • RECEPTIVE-FIELDS
  • UNFAMILIAR FACES
  • PERCEPTION
  • INVERSION
  • INFORMATION
  • FEATURES
  • SENSITIVITY

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