Abstract
Many previous studies have shown that the remote photoplethysmography (rPPG) can measure the Heart Rate (HR) signal with very high accuracy. The remote measurement of the Pulse Rate Variability (PRV) signal is also possible, but this is much more complicated because it is then necessary to detect the peaks on the temporal rPPG signal, which is usually quite noisy and has a lower temporal resolution than PPG signals obtained by contact equipment. Since the PRV signal is vital for various applications such as remote recognition of stress and emotion, the improvement of PRV measurement by rPPG is a critical task. Contact based PRV measurement has already been investigated, but the research on remotely measured PRV is very limited. In this paper, we propose to use the Periodic Variance Maximization (PVM) method to extract the rPPG signal and event-related Two-Window algorithm to improve the peak detection for PRV measurement. We have made several contributions. Firstly, we show that the newly proposed PVM method and Two-Window algorithm can be used for PRV measurement in the non-contact scenario. Secondly, we propose a method to adaptively determine the parameters of the Two-Window method. Thirdly, we compare the algorithm with other attempts for improving the non-contact PRV measurement such as the Slope Sum Function (SSF) method and the Local Maximum method. We calculated several features and compared the accuracy based on the ground truth provided by contact equipment. Our experiments showed that this algorithm performed the best of all the algorithms.
Highlights
The contact photoplethysmography (PPG) devices used by hospitals and research labs are small photoelectric sensors that measure the blood volume pulse (BVP) through fingers or ears by detecting the change of light intensity which passes through the tissue
The ground truth of the BVP signal and peak locations were given by the contact sensor, so the precision of the peak detection and Pulse Rate Variability (PRV) measurement can be assessed by the errors between the remote photoplethysmography (rPPG)
Biomedical researchers have shown that the Heart Rate Variability (HRV) and Pulse Rate
Summary
The contact photoplethysmography (PPG) devices used by hospitals and research labs are small photoelectric sensors that measure the blood volume pulse (BVP) through fingers or ears by detecting the change of light intensity which passes through the tissue. This technique is widely used in medical applications for its benefits of being low cost and high convenience compared with an electrocardiogram (ECG). The variation in the light intensity reflected by the human face can be used to measure BVP, which in turn can be used to estimate physiological parameters such as Heart Rate (HR) and Pulse Rate Variability (PRV).
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