Frontiers in Medical Engineering (Oct 2024)

Identifying neurophysiological correlates of stress

  • Dingyi Pei,
  • Shravika Tirumala,
  • Kyaw T. Tun,
  • Akshara Ajendla,
  • Ramana Vinjamuri

DOI
https://doi.org/10.3389/fmede.2024.1434753
Journal volume & issue
Vol. 2

Abstract

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Stress has been recognized as a pivotal indicator which can lead to severe mental disorders. Persistent exposure to stress will increase the risk for various physical and mental health problems. Early and reliable detection of stress-related status is critical for promoting wellbeing and developing effective interventions. This study attempted multi-type and multi-level stress detection by fusing features extracted from multiple physiological signals including electroencephalography (EEG) and peripheral physiological signals. Eleven healthy individuals participated in validated stress-inducing protocols designed to induce social and mental stress and discriminant multi-level and multi-type stress. A range of machine learning methods were applied and evaluated on physiological signals of various durations. An average accuracy of 98.1% and 97.8% was achieved in identifying stress type and stress level respectively, using 4-s neurophysiological signals. These findings have promising implications for enhancing the precision and practicality of real-time stress monitoring applications.

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