Unsupervised profiling of meditation-induced autonomic responses using electrodermal and heart rate variability features

Unsupervised profiling of meditation-induced autonomic responses using electrodermal and heart rate variability features

Background and Motivation: Meditation practices influence the autonomic nervous system (ANS), as reflected in electrodermal activity (EDA) and heart rate variability (HRV), though individual responses vary. This study aimed to explore whether unsupervised clustering can uncover distinct physiologica...

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Main Authors: Jana Bahrova, Martin Augustynek, Tereza Hrncirova, Eliska Szalbotova, Lukas Tomaszek, Martin Malcik, Jan Kubicek
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:Results in Engineering
Subjects:
Electrodermal activity (EDA)
Heart rate variability (HRV)
Relaxation with regular breathing pattern
Meditation
Emotion
Biosignal
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123025025502
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author Jana Bahrova
Martin Augustynek
Tereza Hrncirova
Eliska Szalbotova
Lukas Tomaszek
Martin Malcik
Jan Kubicek
author_facet Jana Bahrova
Martin Augustynek
Tereza Hrncirova
Eliska Szalbotova
Lukas Tomaszek
Martin Malcik
Jan Kubicek
author_sort Jana Bahrova
collection DOAJ
description Background and Motivation: Meditation practices influence the autonomic nervous system (ANS), as reflected in electrodermal activity (EDA) and heart rate variability (HRV), though individual responses vary. This study aimed to explore whether unsupervised clustering can uncover distinct physiological patterns during guided meditation, aiding personalized assessment and biofeedback development. Materials and Methods: EDA and HRV were recorded from 14 healthy participants (8 men, 6 women) during guided meditation. Signals were preprocessed via filtering, normalization, and segmentation into 3-minute windows. Extracted features included tonic and phasic EDA components, skin conductance responses (SCRs), and HRV metrics (e.g., RMSSD, SDNN). Fuzzy C-means clustering was applied to identify physiological response subgroups. The optimal number of clusters was determined using the Davies–Bouldin index and silhouette scores. Results: Unsupervised FCM clustering was used to explore physiological responses to meditation. Although clustering yielded four participant-level and five measurement-level groups, post hoc interpretation revealed three overarching response profiles—arousal, balance, and relaxation—based on common feature trends. These interpreted profiles synthesize the clustering results into more accessible representations of individual autonomic variability. Discussion: The clusters reflect heterogeneous ANS responses to meditation, suggesting it does not induce a uniform physiological state. Unsupervised learning offers an objective approach to profiling individual responses, supporting personalized meditation and biofeedback. Conclusion: Fuzzy clustering revealed distinct autonomic patterns during meditation, demonstrating potential for personalized neurotechnology and informing tailored mindfulness interventions based on physiological feedback.
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publishDate 2025-09-01
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spelling doaj-art-e2f382f2c6d14a85a824b8f13e1a34d12025-08-20T03:58:00ZengElsevierResults in Engineering2590-12302025-09-012710648110.1016/j.rineng.2025.106481Unsupervised profiling of meditation-induced autonomic responses using electrodermal and heart rate variability featuresJana Bahrova0Martin Augustynek1Tereza Hrncirova2Eliska Szalbotova3Lukas Tomaszek4Martin Malcik5Jan Kubicek6Department of Cybernetics and Biomedical Engineering, VSB—Technical University of Ostrava, Czech Republic; Corresponding author.Department of Cybernetics and Biomedical Engineering, VSB—Technical University of Ostrava, Czech RepublicDepartment of Cybernetics and Biomedical Engineering, VSB—Technical University of Ostrava, Czech RepublicDepartment of Cybernetics and Biomedical Engineering, VSB—Technical University of Ostrava, Czech RepublicPalacky University Olomouc – Department of Technical Education and Information Technology, Czech RepublicDepartment of Social Sciences, VSB–Technical University of Ostrava, Ostrava, Czech RepublicDepartment of Cybernetics and Biomedical Engineering, VSB—Technical University of Ostrava, Czech RepublicBackground and Motivation: Meditation practices influence the autonomic nervous system (ANS), as reflected in electrodermal activity (EDA) and heart rate variability (HRV), though individual responses vary. This study aimed to explore whether unsupervised clustering can uncover distinct physiological patterns during guided meditation, aiding personalized assessment and biofeedback development. Materials and Methods: EDA and HRV were recorded from 14 healthy participants (8 men, 6 women) during guided meditation. Signals were preprocessed via filtering, normalization, and segmentation into 3-minute windows. Extracted features included tonic and phasic EDA components, skin conductance responses (SCRs), and HRV metrics (e.g., RMSSD, SDNN). Fuzzy C-means clustering was applied to identify physiological response subgroups. The optimal number of clusters was determined using the Davies–Bouldin index and silhouette scores. Results: Unsupervised FCM clustering was used to explore physiological responses to meditation. Although clustering yielded four participant-level and five measurement-level groups, post hoc interpretation revealed three overarching response profiles—arousal, balance, and relaxation—based on common feature trends. These interpreted profiles synthesize the clustering results into more accessible representations of individual autonomic variability. Discussion: The clusters reflect heterogeneous ANS responses to meditation, suggesting it does not induce a uniform physiological state. Unsupervised learning offers an objective approach to profiling individual responses, supporting personalized meditation and biofeedback. Conclusion: Fuzzy clustering revealed distinct autonomic patterns during meditation, demonstrating potential for personalized neurotechnology and informing tailored mindfulness interventions based on physiological feedback.http://www.sciencedirect.com/science/article/pii/S2590123025025502Electrodermal activity (EDA)Heart rate variability (HRV)Relaxation with regular breathing patternMeditationEmotionBiosignal
spellingShingle Jana Bahrova
Martin Augustynek
Tereza Hrncirova
Eliska Szalbotova
Lukas Tomaszek
Martin Malcik
Jan Kubicek
Unsupervised profiling of meditation-induced autonomic responses using electrodermal and heart rate variability features
Results in Engineering
Electrodermal activity (EDA)
Heart rate variability (HRV)
Relaxation with regular breathing pattern
Meditation
Emotion
Biosignal
title Unsupervised profiling of meditation-induced autonomic responses using electrodermal and heart rate variability features
title_full Unsupervised profiling of meditation-induced autonomic responses using electrodermal and heart rate variability features
title_fullStr Unsupervised profiling of meditation-induced autonomic responses using electrodermal and heart rate variability features
title_full_unstemmed Unsupervised profiling of meditation-induced autonomic responses using electrodermal and heart rate variability features
title_short Unsupervised profiling of meditation-induced autonomic responses using electrodermal and heart rate variability features
title_sort unsupervised profiling of meditation induced autonomic responses using electrodermal and heart rate variability features
topic Electrodermal activity (EDA)
Heart rate variability (HRV)
Relaxation with regular breathing pattern
Meditation
Emotion
Biosignal
url http://www.sciencedirect.com/science/article/pii/S2590123025025502
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AT terezahrncirova unsupervisedprofilingofmeditationinducedautonomicresponsesusingelectrodermalandheartratevariabilityfeatures
AT eliskaszalbotova unsupervisedprofilingofmeditationinducedautonomicresponsesusingelectrodermalandheartratevariabilityfeatures
AT lukastomaszek unsupervisedprofilingofmeditationinducedautonomicresponsesusingelectrodermalandheartratevariabilityfeatures
AT martinmalcik unsupervisedprofilingofmeditationinducedautonomicresponsesusingelectrodermalandheartratevariabilityfeatures
AT jankubicek unsupervisedprofilingofmeditationinducedautonomicresponsesusingelectrodermalandheartratevariabilityfeatures

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