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Wearable EEG-Based Brain–Computer Interface for Stress Monitoring

Brian Premchand, Liyuan Liang, Kok Soon Phua, Zhuo Zhang, Chuanchu Wang, Guo Ling, Jennifer Ang, Juliana Koh, Xueyi Yong, Kai Keng Ang

2024NeuroSci15 citationsDOIOpen Access PDF

Abstract

Detecting stress is important for improving human health and potential, because moderate levels of stress may motivate people towards better performance at cognitive tasks, while chronic stress exposure causes impaired performance and health risks. We propose a Brain-Computer Interface (BCI) system to detect stress in the context of high-pressure work environments. The BCI system includes an electroencephalogram (EEG) headband with dry electrodes and an electrocardiogram (ECG) chest belt. We collected EEG and ECG data from 40 participants during two stressful cognitive tasks: the Cognitive Vigilance Task (CVT), and the Multi-Modal Integration Task (MMIT) we designed. We also recorded self-reported stress levels using the Dundee Stress State Questionnaire (DSSQ). The DSSQ results indicated that performing the MMIT led to significant increases in stress, while performing the CVT did not. Subsequently, we trained two different models to classify stress from non-stress states, one using EEG features, and the other using heart rate variability (HRV) features extracted from the ECG. Our EEG-based model achieved an overall accuracy of 81.0% for MMIT and 77.2% for CVT. However, our HRV-based model only achieved 62.1% accuracy for CVT and 56.0% for MMIT. We conclude that EEG is an effective predictor of stress in the context of stressful cognitive tasks. Our proposed BCI system shows promise in evaluating mental stress in high-pressure work environments, particularly when utilizing an EEG-based BCI.

Topics & Concepts

Brain–computer interfaceWearable computerElectroencephalographyHuman–computer interactionComputer scienceInterface (matter)Stress (linguistics)PsychologyEmbedded systemNeuroscienceOperating systemLinguisticsMaximum bubble pressure methodPhilosophyBubbleEEG and Brain-Computer InterfacesHeart Rate Variability and Autonomic ControlEmotion and Mood Recognition
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