Coarse-to-Fine(r) Automatic Familiar Face Recognition in the Human Brain

Xiaoqian Yan, Valérie Goffaux, Bruno Rossion*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

At what level of spatial resolution can the human brain recognize a familiar face in a crowd of strangers? Does it depend on whether one approaches or rather moves back from the crowd? To answer these questions, 16 observers viewed different unsegmented images of unfamiliar faces alternating at 6 Hz, with spatial frequency (SF) content progressively increasing (i.e., coarse-to-fine) or decreasing (fine-to-coarse) in different sequences. Variable natural images of celebrity faces every sixth stimulus generated an objective neural index of single-glanced automatic familiar face recognition (FFR) at 1 Hz in participants' electroencephalogram (EEG). For blurry images increasing in spatial resolution, the neural FFR response over occipitotemporal regions emerged abruptly with additional cues at about 6.3-8.7 cycles/head width, immediately reaching amplitude saturation. When the same images progressively decreased in resolution, the FFR response disappeared already below 12 cycles/head width, thus providing no support for a predictive coding hypothesis. Overall, these observations indicate that rapid automatic recognition of heterogenous natural views of familiar faces is achieved from coarser visual inputs than generally thought, and support a coarse-to-fine FFR dynamics in the human brain.

Original languageEnglish
Pages (from-to)1560-1573
Number of pages14
JournalCerebral Cortex
Volume32
Issue number8
Early online date9 Sept 2021
DOIs
Publication statusPublished - 5 Apr 2022

Keywords

  • CATEGORIZATION
  • COARSE
  • EEG
  • FEATURAL DISCRIMINATIONS
  • IMAGE-ENHANCEMENT
  • INFORMATION
  • PASS
  • PERCEPTION
  • SPATIAL-FREQUENCY THRESHOLDS
  • VISION
  • VISUAL-ACUITY
  • coarse-to-fine
  • familiar face recognition
  • frequency-tagging
  • spatial frequency

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