Multi-Dimensional Feature Combination Method for Continuous Blood Pressure Measurement Based on Wrist PPG Sensor

• Published in: IEEE journal of biomedical and health informatics Vol. 26; no. 8; pp. 3708 - 3719
• Main Authors: Yao, Pan, Xue, Ning, Yin, Siyuan, You, Changhua, Guo, Yusen, Shi, Yi, Liu, Tiezhu, Yao, Lei, Zhou, Jun, Sun, Jianhai, Dong, Cheng, Liu, Chunxiu, Zhao, Ming
• Format: Journal Article
• Language: English
• Published: United States IEEE 01.08.2022; The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
• Subjects: Adaptive algorithms; Algorithms; Artificial neural networks; Bioinformatics; Biomedical measurement; Blood pressure; Demographics; Feature extraction; feature fusion; Hypertension; Monitoring; Neural networks; photoplethysmogram; Pressure measurement; Rehabilitation; Signal processing algorithms; wellness management; Wrist
• ISSN: 2168-2194; 2168-2208; 2168-2208
• DOI: 10.1109/JBHI.2022.3167059

The cuff-less blood pressure (BP) monitoring method based on photoplethysmo- gram (PPG) makes it possible for long-term BP monitoring to prevent and treat cardiovascular and cerebrovascular events. In this paper, a portable BP prediction system based on feature combination and artificial neural network (ANN) is implemented. The robustness of the model is improved from three aspects. Firstly, an adaptive peak extraction algorithm was used to improve the accuracy of peaks and troughs detection. Secondly, multi-dimensional features were extracted and fused, including three groups of PPG-based features and one group of demographics-based features. Finally, a two-layer feedforward artificial neural networks algorithm was used for regression. Thirty-three subjects distributed in the three BP groups were recruited. The proposed method passed the European Society of Hypertension International Protocol revision 2010 (ESP-IP2). Experimental results show that the proposed method exhibits good accuracy for a diverse population with an estimation error of −0.07 ± 4.47 mmHg for SBP and 0.00 ± 3.61 mmHg for DBP. Moreover, the model tracked the BP of two subjects for half a month, laying the foundation work for daily BP monitoring. This work will contribute to the long-term wellness management and rehabilitation process, enabling timely detection and improvement of the user's physical health.