论文信息 - Distinction between Human and Animal in Respiratory Monitoring Based on IR-UWB Radar

Distinction between Human and Animal in Respiratory Monitoring Based on IR-UWB Radar

Radar as a critical remote sensing tool for non-contact monitoring of vital signals has been widely used in many scenarios, such as sleep monitoring and heart rate measurement in daily homes. In indoor non-contact monitoring by radar, the interference of pets raised in the home is an important issue that has been neglected in the past. Many pet-like animals have similar respiratory frequencies to humans, and they are easily mistaken for human targets in non-contact monitoring, which can lead to a lack of health monitoring data and even trigger an alarm due to the higher heart rate of the animals. In this paper, we proposed a novel method based on respiratory and heart rate energy ratios (RHER) to distinguish humans from animals. The echo signal received by the radar, after background removal and direct-current (DC) component suppression, is decoded by Variational Mode Decomposition (VMD) to obtain the VIMFs determined by human respiratory and heart rate ranges. Then the RHER is calculated using the variational Intrinsic Mode Functions (VIMFs) that obtained in the previous step, and the target category is judged by the RHER index. The experimental results show that the proposed approach can effectively distinguish between human and rabbit, and between human and dog.

[1] Hao Ling,et al. Microdoppler signature simulation of computer animated human and animal motions , 2008, 2008 IEEE Antennas and Propagation Society International Symposium.

[2] Aly E. Fathy,et al. Noncontact Multiple Heartbeats Detection and Subject Localization Using UWB Impulse Doppler Radar , 2015, IEEE Microwave and Wireless Components Letters.

[3] Tor Sverre Lande,et al. A 118-mW Pulse-Based Radar SoC in 55-nm CMOS for Non-Contact Human Vital Signs Detection , 2017, IEEE Journal of Solid-State Circuits.

[4] Xiaohua Zhu,et al. Microwave Sensing and Sleep: Noncontact Sleep-Monitoring Technology With Microwave Biomedical Radar , 2019, IEEE Microwave Magazine.

[5] Zhao Li,et al. Using Wavelet Entropy to Distinguish Between Humans and Dogs Detected by UWB Radar , 2013 .

[6] Changzhi Li,et al. A Review on Recent Progress of Portable Short-Range Noncontact Microwave Radar Systems , 2017, IEEE Transactions on Microwave Theory and Techniques.

[7] Hao Lv,et al. Bioradar Technology: Recent Research and Advancements , 2019, IEEE Microwave Magazine.

[8] Po-Lei Lee,et al. Detection of Breathing and Heart Rates in UWB Radar Sensor Data Using FVPIEF-Based Two-Layer EEMD , 2019, IEEE Sensors Journal.

[9] Dominique Zosso,et al. Variational Mode Decomposition , 2014, IEEE Transactions on Signal Processing.