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Wireless ear EEG to monitor drowsiness

Ryan Kaveh, Carolyn Schwendeman, Leslie Pu, Ana Claudia Arias, Rikky Muller

2024Nature Communications63 citationsDOIOpen Access PDF

Abstract

Neural wearables can enable life-saving drowsiness and health monitoring for pilots and drivers. While existing in-cabin sensors may provide alerts, wearables can enable monitoring across more environments. Current neural wearables are promising but most require wet-electrodes and bulky electronics. This work showcases in-ear, dry-electrode earpieces used to monitor drowsiness with compact hardware. The employed system integrates additive-manufacturing for dry, user-generic earpieces, existing wireless electronics, and offline classification algorithms. Thirty-five hours of electrophysiological data were recorded across nine subjects performing drowsiness-inducing tasks. Three classifier models were trained with user-specific, leave-one-trial-out, and leave-one-user-out splits. The support-vector-machine classifier achieved an accuracy of 93.2% while evaluating users it has seen before and 93.3% when evaluating a never-before-seen user. These results demonstrate wireless, dry, user-generic earpieces used to classify drowsiness with comparable accuracies to existing state-of-the-art, wet electrode in-ear and scalp systems. Further, this work illustrates the feasibility of population-trained classification in future electrophysiological applications.

Topics & Concepts

Wearable computerComputer scienceClassifier (UML)WirelessWearable technologyElectronicsElectroencephalographyPopulationHuman–computer interactionArtificial intelligenceReal-time computingEmbedded systemMedicineTelecommunicationsEngineeringElectrical engineeringPsychiatryEnvironmental healthEEG and Brain-Computer InterfacesGaze Tracking and Assistive TechnologyNon-Invasive Vital Sign Monitoring
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