Sensors (Apr 2021)

Sensor-Level Wavelet Analysis Reveals EEG Biomarkers of Perceptual Decision-Making

  • Alexander Kuc,
  • Vadim V. Grubov,
  • Vladimir A. Maksimenko,
  • Natalia Shusharina,
  • Alexander N. Pisarchik,
  • Alexander E. Hramov

DOI
https://doi.org/10.3390/s21072461
Journal volume & issue
Vol. 21, no. 7
p. 2461

Abstract

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Perceptual decision-making requires transforming sensory information into decisions. An ambiguity of sensory input affects perceptual decisions inducing specific time-frequency patterns on EEG (electroencephalogram) signals. This paper uses a wavelet-based method to analyze how ambiguity affects EEG features during a perceptual decision-making task. We observe that parietal and temporal beta-band wavelet power monotonically increases throughout the perceptual process. Ambiguity induces high frontal beta-band power at 0.3–0.6 s post-stimulus onset. It may reflect the increasing reliance on the top-down mechanisms to facilitate accumulating decision-relevant sensory features. Finally, this study analyzes the perceptual process using mixed within-trial and within-subject design. First, we found significant percept-related changes in each subject and then test their significance at the group level. Thus, observed beta-band biomarkers are pronounced in single EEG trials and may serve as control commands for brain-computer interface (BCI).

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