Estimation of Breathing Frequency and Heart Rate by Biometric UWB Radar

Ultra-wideband (UWB) radars which are mainly focused on contactless detection of breath, heartbeat and other biological signals are generally referred to as biometric radars. It is expecting that these radars will find a whole range of applications from the medical field, through supporting emergency situation solution, up to monitoring people in their dwelling (e.g. ambient assisted living programs). Motivated by promising applications of biometric radars, we will focus in this paper on contactless measurement of breathing frequency and heart rate of static persons by UWB radar. At first, the algorithm for the estimation of the breathing frequency of a person will be outlined. Then, the main emphasis will be placed on the development of an efficient approach for the heart rate estimation. The proposed solution will include radar signal processing procedure for static person ranging, methods for improvement of low-level echo of target-to-clutter and noise ratio (exponential averaging, low-pass filter, Savitzky-Golay filter and single delay line canceller), and finally the heart rate estimation itself (peak-to-average power ratio, Welch periodogram). The good performance of the proposed algorithms will be illustrated by experimental results.

[1]  P. Withington,et al.  Enhancing homeland security with advanced UWB sensors , 2003 .

[2]  Enrico M. Staderini An UWB Radar Based Stealthy ‘Lie Detector’ , 2003 .

[3]  Yang Zhang,et al.  Detection and Identification of Multiple Stationary Human Targets Via Bio-Radar Based on the Cross-Correlation Method , 2016, Sensors.

[4]  Marko Helbig,et al.  Remote vital sign detection for rescue, security, and medical care by ultra-wideband pseudo-noise radar , 2014, Ad Hoc Networks.

[5]  Jürgen Sachs,et al.  Handbook of Ultra-Wideband Short-Range Sensing: Theory, Sensors, Applications , 2012 .

[6]  Sung Ho Cho,et al.  Vital sign monitoring of a non-stationary human through IR-UWB radar , 2014, 2014 4th IEEE International Conference on Network Infrastructure and Digital Content.

[7]  Bassem Mahafza,et al.  Radar Signal Analysis and Processing Using MATLAB , 2008 .

[8]  Antonio Lázaro,et al.  Techniques for Clutter Suppression in the Presence of Body Movements during the Detection of Respiratory Activity through UWB Radars , 2014, Sensors.

[9]  Maria Svecova,et al.  Multiple Person Localization Based on Their Vital Sign Detection Using UWB Sensor , 2017 .

[10]  Sergey Ivashov,et al.  Bioradiolocation: Methods and Applications , 2013 .

[11]  Pietro Siciliano,et al.  A Radar-Based Smart Sensor for Unobtrusive Elderly Monitoring in Ambient Assisted Living Applications , 2017, Biosensors.

[12]  J. Sachs,et al.  On the Range Precision of UWB Radar Sensors , 2010, 11-th INTERNATIONAL RADAR SYMPOSIUM.

[13]  I.A. Vasilyev,et al.  Through wall sensing of human breathing and heart beating by monochromatic radar , 2004, Proceedings of the Tenth International Conference on Grounds Penetrating Radar, 2004. GPR 2004..

[14]  Sung Ho Cho,et al.  A Detailed Algorithm for Vital Sign Monitoring of a Stationary/Non-Stationary Human through IR-UWB Radar , 2017, Sensors.

[15]  Paola Russo,et al.  Non-Invasive UWB Sensing of Astronauts' Breathing Activity , 2014, Sensors.

[16]  Dusan Kocur,et al.  A joint localization and breathing rate estimation of static persons using UWB radar , 2017, 2017 IEEE International Conference on Systems, Man, and Cybernetics (SMC).

[17]  Tian Jin,et al.  Short-Range Vital Signs Sensing Based on EEMD and CWT Using IR-UWB Radar , 2016 .

[18]  David Girbau,et al.  ANALYSIS OF VITAL SIGNS MONITORING USING AN IR-UWB RADAR , 2010 .