Cardiac Signature Detection and Study Using Contactless Technology: Millimeter-Wave FMCW Radar

Mélanie Brulc;Thibaut Deleruyelle;Alain Loussert;Pierre Laurent;Rémi Grisot;Jean-Paul Caruana
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Abstract

The work presented in this article aims to detect the cardiac movement of a person in a noninvasive way and correlate it with a reference signal in the medical field: the electrocardiogram. To achieve this goal, a measurement campaign was carried out on 20 consenting individuals. On the one hand, the mechanical signal, the movement of the subject’s chest induced by the heartbeat, is recorded via an FMCW radar, and on the other hand, the electrical signal of the heart is recorded via an ECG acquisition board. Signal processing functions and different filtering will allow the correlation of the radar and ECG signals. This study is conducted on apnea recordings in order to remove the impact of breathing on the movement of the chest. When the subject holds his or her breath, the two important phases of cardiac movement via radar capture can be detected: 1) the systole and 2) the diastole. The delay between the mechanical signal of the heart and the electrical signal of the heart, already explained by medicine, is well noted. The accuracy of motion detection provided by the radar allowed us to highlight the reproducibility of the chest movements detected during a capture. Their correlation with ECG data validates the proposed hypotheses.
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心脏特征检测与非接触技术研究:毫米波FMCW雷达
本文提出的工作旨在以一种非侵入性的方式检测一个人的心脏运动,并将其与医学领域的参考信号:心电图相关联。为了实现这一目标,对20名同意的个人进行了一项测量活动。一方面,通过FMCW雷达记录由心跳引起的受试者胸部运动的机械信号,另一方面,通过ECG采集板记录心脏电信号。信号处理功能和不同的滤波将使雷达和心电信号相互关联。为了消除呼吸对胸部运动的影响,本研究对呼吸暂停记录进行了研究。当受试者屏住呼吸时,可以通过雷达捕捉到心脏运动的两个重要阶段:收缩期和舒张期。心脏的机械信号和心脏的电信号之间的延迟已经被医学解释了,这一点很好地说明了。雷达提供的运动检测的准确性使我们能够强调在捕获过程中检测到的胸部运动的可重复性。它们与ECG数据的相关性验证了所提出的假设。
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