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Main Authors: Zhang, Ruoyu, Fang, Ruijie, Hosseini, Elahe, Fang, Chongzhou, Miao, Ning, Homayoun, Houman
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.06114
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author Zhang, Ruoyu
Fang, Ruijie
Hosseini, Elahe
Fang, Chongzhou
Miao, Ning
Homayoun, Houman
author_facet Zhang, Ruoyu
Fang, Ruijie
Hosseini, Elahe
Fang, Chongzhou
Miao, Ning
Homayoun, Houman
contents This paper presents a novel Electrodermal Activity (EDA) signal acquisition system, designed to address the challenges of stress monitoring in contemporary society, where stress affects one in four individuals. Our system focuses on enhancing the accuracy and efficiency of EDA measurements, a reliable indicator of stress. Traditional EDA monitoring solutions often grapple with trade-offs between sensor placement, cost, and power consumption, leading to compromised data accuracy. Our innovative design incorporates an adaptive gain mechanism, catering to the broad dynamic range and high-resolution needs of EDA data analysis. The performance of our system was extensively tested through simulations and a custom Printed Circuit Board (PCB), achieving an error rate below 1\% and maintaining power consumption at a mere 700$μ$A under a 3.7V power supply. This research contributes significantly to the field of wearable health technology, offering a robust and efficient solution for long-term stress monitoring.
format Preprint
id arxiv_https___arxiv_org_abs_2409_06114
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Advanced Energy-Efficient System for Precision Electrodermal Activity Monitoring in Stress Detection
Zhang, Ruoyu
Fang, Ruijie
Hosseini, Elahe
Fang, Chongzhou
Miao, Ning
Homayoun, Houman
Systems and Control
This paper presents a novel Electrodermal Activity (EDA) signal acquisition system, designed to address the challenges of stress monitoring in contemporary society, where stress affects one in four individuals. Our system focuses on enhancing the accuracy and efficiency of EDA measurements, a reliable indicator of stress. Traditional EDA monitoring solutions often grapple with trade-offs between sensor placement, cost, and power consumption, leading to compromised data accuracy. Our innovative design incorporates an adaptive gain mechanism, catering to the broad dynamic range and high-resolution needs of EDA data analysis. The performance of our system was extensively tested through simulations and a custom Printed Circuit Board (PCB), achieving an error rate below 1\% and maintaining power consumption at a mere 700$μ$A under a 3.7V power supply. This research contributes significantly to the field of wearable health technology, offering a robust and efficient solution for long-term stress monitoring.
title Advanced Energy-Efficient System for Precision Electrodermal Activity Monitoring in Stress Detection
topic Systems and Control
url https://arxiv.org/abs/2409.06114