Title :
Robust Pulse Rate From Chrominance-Based rPPG
Author :
de Haan, Gerard ; Jeanne, Vincent
Author_Institution :
Philips Group Innovation, Eindhoven, Netherlands
Abstract :
Remote photoplethysmography (rPPG) enables contactless monitoring of the blood volume pulse using a regular camera. Recent research focused on improved motion robustness, but the proposed blind source separation techniques (BSS) in RGB color space show limited success. We present an analysis of the motion problem, from which far superior chrominance-based methods emerge. For a population of 117 stationary subjects, we show our methods to perform in 92% good agreement (±1.96σ) with contact PPG, with RMSE and standard deviation both a factor of 2 better than BSS-based methods. In a fitness setting using a simple spectral peak detector, the obtained pulse-rate for modest motion (bike) improves from 79% to 98% correct, and for vigorous motion (stepping) from less than 11% to more than 48% correct. We expect the greatly improved robustness to considerably widen the application scope of the technology.
Keywords :
blood; haemodynamics; mean square error methods; medical image processing; photoplethysmography; remote sensing; statistical analysis; BSS-based method; RGB color space; RMSE; blind source separation technique; blood volume pulse monitoring; camera; chrominance-based rPPG; pulse rate; remote photoplethysmography; spectral peak detector; standard deviation; Blood; Cameras; Color; Image color analysis; Robustness; Signal to noise ratio; Skin; Biomedical monitoring; image analysis; photoplethysmography (PPG); remote sensing; Algorithms; Blood Flow Velocity; Colorimetry; Diagnosis, Computer-Assisted; Heart Rate; Humans; Photography; Photoplethysmography; Reproducibility of Results; Sensitivity and Specificity; Skin Physiological Phenomena;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2013.2266196
