Author
Listed:
- Yi-Xiang Chen
(Department of Electrical Engineering, Ming Chi University of Technology, No. 84, Gongzhuan Rd., Taishan Dist., New Taipei City 243, Taiwan)
- Chin-Kun Tseng
(Department of Electronic Engineering, National Taipei University of Technology, Taipei 106, Taiwan
Division of Cardiology, Tri-Service General Hospital, Songshan Branch, Taipei 105, Taiwan)
- Jung-Tsung Kuo
(Department of Electronic Engineering, National Taipei University of Technology, Taipei 106, Taiwan)
- Chien-Jen Wang
(Department of Electronic Engineering, National Taipei University of Technology, Taipei 106, Taiwan
Center for Traditional Medicine, Taipei Veterans General Hospital, Taipei 112, Taiwan)
- Shu-Hung Chao
(Department of Electronic Engineering, National Taipei University of Technology, Taipei 106, Taiwan)
- Lih-Jen Kau
(Department of Electronic Engineering, National Taipei University of Technology, Taipei 106, Taiwan)
- Yuh-Shyan Hwang
(Department of Electronic Engineering, National Taipei University of Technology, Taipei 106, Taiwan)
- Chun-Ling Lin
(Department of Electrical Engineering, Ming Chi University of Technology, No. 84, Gongzhuan Rd., Taishan Dist., New Taipei City 243, Taiwan)
Abstract
Fatigue is a prevalent subjective sensation, affecting both office workers and a significant global population. In Taiwan alone, over 2.6 million individuals—around 30% of office workers—experience chronic fatigue. However, fatigue transcends workplaces, impacting people worldwide and potentially leading to health issues and accidents. Gaining insight into one’s fatigue status over time empowers effective management and risk reduction associated with other ailments. Utilizing photoplethysmography (PPG) signals brings advantages due to their easy acquisition and physiological insights. This study crafts a specialized preprocessing and peak detection methodology for PPG signals. A novel fatigue index stems from PPG signals, focusing on the dicrotic peak’s position. This index replaces subjective data from the brief fatigue index (BFI)-Taiwan questionnaire and heart rate variability (HRV) indices derived from PPG signals for assessing fatigue levels. Correlation analysis, involving sixteen healthy adults, highlights a robust correlation (R > 0.53) between the new fatigue index and specific BFI questions, gauging subjective fatigue over the last 24 h. Drawing from these insights, the study computes an average of the identified questions to formulate the evaluated fatigue score, utilizing the newfound fatigue index. The implementation of linear regression establishes a robust fatigue assessment system. The results reveal an impressive 91% correlation coefficient between projected fatigue levels and subjective fatigue experiences. This underscores the remarkable accuracy of the proposed fatigue prediction in evaluating subjective fatigue. This study further operationalized the proposed PPG processing, peak detection method, and fatigue index using C# in a computer environment alongside a PPG device, thereby offering real-time fatigue indices to users. Timely reminders are employed to prompt users to take notice when their index exceeds a predefined threshold, fostering greater attention to their physical well-being.
Suggested Citation
Yi-Xiang Chen & Chin-Kun Tseng & Jung-Tsung Kuo & Chien-Jen Wang & Shu-Hung Chao & Lih-Jen Kau & Yuh-Shyan Hwang & Chun-Ling Lin, 2023.
"Fatigue Estimation Using Peak Features from PPG Signals,"
Mathematics, MDPI, vol. 11(16), pages 1-23, August.
Handle:
RePEc:gam:jmathe:v:11:y:2023:i:16:p:3580-:d:1220094
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