Feasibility analysis of heart rate monitoring of construction workers using a photoplethysmography (PPG) sensor embedded in a wristband-type activity tracker

Feasibility analysis of heart rate monitoring of construction workers using a photoplethysmography (PPG) sensor embedded in a wristband-type activity tracker

With increasing concerns regarding occupational safety and health, managing excessive physical workloads of workers is critical to prevent workers' fatigue, injuries, errors, or accidents at physically demanding workplaces such as construction. In this regard, heart rate (HR) is an effective ph...

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Bibliographic Details
Published in:Automation in construction Vol. 71; pp. 372 - 381
Main Authors: Hwang, Sungjoo, Seo, JoonOh, Jebelli, Houtan, Lee, SangHyun
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2016
Subjects:
Construction worker
Heart rate
Occupational health
Remote sensing
Work physiology
Heart rate
Occupational health
Construction worker
Work physiology
Remote sensing
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Summary:With increasing concerns regarding occupational safety and health, managing excessive physical workloads of workers is critical to prevent workers' fatigue, injuries, errors, or accidents at physically demanding workplaces such as construction. In this regard, heart rate (HR) is an effective physiological indicator of workers' physical demands. Currently, off-the-shelf wearable activity trackers (e.g., wristband-type) can monitor a worker's HR with its embedded photoplethysmography (PPG) sensor. However, PPG signals can be highly affected by signal noises resulted from user's movements, and thus the exact HR extraction from a wristband-type PPG may not be sufficiently accurate during intensive construction tasks. In this paper, we investigate the accuracy of a PPG sensor embedded in a wristband-type tracker to see if it can be used for construction. Through field data collection from seven construction workers, we conduct a comparative HR analysis between a PPG sensor and an electrocardiography (ECG) sensor in a chest strap used as ground truth. The results show that a PPG-based HR sensor in a wristband-type activity tracker has a potential for practicable HR monitoring of construction workers with 4.79% of mean-average-percentage-error (MAPE) and 0.85 of correlation coefficient for whole datasets (4.44%, 4.52%, and 5.33% of MAPEs and 0.89, 0.70, and 0.61 of correlation coefficients during light works with <90bpm of HRs, moderate works with 90–110bpm of HRs, and heavy works with >110bpm of HRs, respectively). Because there is still room for improvement of the accuracy, particularly during heavy works, we also investigate the factors affecting the accuracy of HR monitoring using inequality statistics. From this secondary investigation, we found the major sources of error including noises from motion artifacts. With advanced noise-cancellation techniques, it is expected that that field HR monitoring using wearable activity trackers can be used to evaluate worker's physical demands from diverse construction tasks in a non-intrusive and affordable way. As a result, our work will help manage excessive workloads (e.g., flexing work/rest plans) so that a worker can sustain his/her given tasks during working time in a safer and healthier way. Graphical abstract [Display omitted] •Worker's heart rate (HR) monitoring using a wearable activity tracker is tested.•Affordable HR monitoring can be applied to construction with tolerable accuracy.•The major error source, motion artifacts from noises, is identified.•Field HR monitoring can be useful for worker's physical demand analysis.
ISSN:0926-5805
1872-7891
DOI:10.1016/j.autcon.2016.08.029