An Intelligent Signal Processing Method for Motional Vital Signs Detection System Based on Deep Learning

Siyun Liu; Qingjie Qi; Huifeng Cheng; Jingwen Zhang; Wenhao Xian; Tianfang Ma; Yue Wang; Yingjie Liu; Dan Li; Jiamei Chai

doi:10.1109/ACCESS.2022.3211976

IEEE Access (Jan 2022)

An Intelligent Signal Processing Method for Motional Vital Signs Detection System Based on Deep Learning

Siyun Liu,
Qingjie Qi,
Huifeng Cheng,
Jingwen Zhang,
Wenhao Xian,
Tianfang Ma,
Yue Wang,
Yingjie Liu,
Dan Li,
Jiamei Chai

Affiliations

Siyun Liu: ORCiD; Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China
Qingjie Qi: ORCiD; Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China
Huifeng Cheng: Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China
Jingwen Zhang: Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China
Wenhao Xian: Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China
Tianfang Ma: Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China
Yue Wang: Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China
Yingjie Liu: Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China
Dan Li: Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China
Jiamei Chai: Emergency Research Institute, Chinese Institute of Coal Science (CICS), Beijing, China

DOI: https://doi.org/10.1109/ACCESS.2022.3211976
Journal volume & issue: Vol. 10
pp. 106463 – 106481

Abstract

Read online

Detection of vital signs for motional human targets in complex environment has always been a major challenge in the field of remote detection, remote healthcare and emergency rescue, because polytropic and multimodal interferences make intelligent signal processing more difficult. In this paper, a systematic intelligent signal processing scheme which contains signal preprocessing, vital signs identification, motion trajectory estimation and respiratory signal and heartbeat signal extraction is established. Based on CNN (Convolutional Neural Networks) model, accurate identification of motional vital signs getting rid of the interference of harmonics and distortion can be realized. Then, the misidentified outliers are eliminated with K-means clustering algorithm. Next, the motion trajectory of human targets can be estimated with Kalman filtering algorithm. Finally, the SVD-EEMD algorithm is proposed for respiratory signal and heartbeat signal extraction of dynamic human targets. The introduction of deep learning algorithms makes the proposed method have good performance of high accuracy, good robustness, strong adaptability and high efficiency, which can be observed in actual detection tasks contrast experiments.

Published in IEEE Access

ISSN: 2169-3536 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6287639

About the journal

Abstract

Keywords