[Precise measurement of human heart rate based on multi-channel radar data fusion].

Hongrui Guo, Huimin Cao, Keqi Yang, Zhushanying Zhang
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Abstract

To achieve non-contact measurement of human heart rate and improve its accuracy, this paper proposes a method for measuring human heart rate based on multi-channel radar data fusion. The radar data were firstly extracted by human body position identification, phase extraction and unwinding, phase difference, band-pass filtering optimized by power spectrum entropy, and fast independent component analysis for each channel data. After overlaying and fusing the four-channel data, the heartbeat signal was separated using frost-optimized variational modal decomposition. Finally, a chirp Z-transform was introduced for heart rate estimation. After validation with 40 sets of data, the average root mean square error of the proposed method was 2.35 beats per minute, with an average error rate of 2.39%, a Pearson correlation coefficient of 0.97, a confidence interval of [-4.78, 4.78] beats per minute, and a consistency error of -0.04. The experimental results show that the proposed measurement method performs well in terms of accuracy, correlation, and consistency, enabling precise measurement of human heart rate.

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[基于多通道雷达数据融合的人体心率精确测量]。
为了实现非接触式测量人体心率并提高测量精度,本文提出了一种基于多通道雷达数据融合的人体心率测量方法。首先对雷达数据进行人体位置识别、相位提取和解卷、相位差提取、功率谱熵优化带通滤波以及各信道数据的快速独立分量分析。在对四通道数据进行叠加和融合后,使用霜冻优化变模分解法分离心跳信号。最后,引入啁啾 Z 变换进行心率估计。经过 40 组数据的验证,所提方法的平均均方根误差为每分钟 2.35 次,平均误差率为 2.39%,皮尔逊相关系数为 0.97,置信区间为每分钟 [-4.78, 4.78] 次,一致性误差为 -0.04。实验结果表明,所提出的测量方法在准确性、相关性和一致性方面表现良好,能够精确测量人体心率。
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来源期刊
生物医学工程学杂志
生物医学工程学杂志 Medicine-Medicine (all)
CiteScore
0.80
自引率
0.00%
发文量
4868
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