A Stability- and Aggregation-Based Method for Heart Rate Estimation Using Photoplethysmographic Signals During Physical Activity

A Stability- and Aggregation-Based Method for Heart Rate Estimation Using Photoplethysmographic Signals During Physical Activity

In recent years, the use of photoplethysmography (PPG)-based heart rate detection has gained considerable attention as a cost-effective alternative to conventional electrocardiography (ECG) for applications in healthcare and fitness tracking. Although deep learning methods have shown promise in hear...

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Bibliographic Details
Main Authors: Sabrina C. Crepaldi, Jiabin Wang, Fumiya Matsumoto, Hiroki Takeuchi, Tatsuhiko Watanabe, Yoshiharu Yamamoto
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Sensors
Subjects:
heart rate
PPG
smart ring
active heart rate
dataset
Online Access:https://www.mdpi.com/1424-8220/25/14/4315
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Summary:In recent years, the use of photoplethysmography (PPG)-based heart rate detection has gained considerable attention as a cost-effective alternative to conventional electrocardiography (ECG) for applications in healthcare and fitness tracking. Although deep learning methods have shown promise in heart rate estimation and motion artifact removal from PPG signals recorded during physical activity, their computational requirements and need for extensive training data make them less practical for real-world conditions when ground truth data is unavailable for calibration. This study presents a one-size-fits-all approach for heart rate estimation during physical activity that employs aggregation-based techniques to track heart rate and minimize the effects of motion artifacts, without relying on complex machine learning or deep learning techniques. We evaluate our method on four publicly available datasets—<i>PPG-DaLiA</i>, <i>WESAD</i>, <i>IEEE_Training</i>, and <i>IEEE_Test</i>, all recorded using wrist-worn devices—along with a new dataset, <i>UTOKYO</i>, which includes PPG and accelerometer data collected from a smart ring. The proposed method outperforms the CNN ensemble model for the <i>PPG-DaLiA</i> dataset and the <i>IEEE_Test</i> dataset and reduces the mean absolute error (MAE) by 1.45 bpm and 5.71 bpm, respectively, demonstrating that effective signal processing techniques can match the performance of more complex deep learning models without requiring extensive computational resources or dataset-specific tuning.
ISSN:1424-8220

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