Abstract
Recent developments in computer science and digital image processing have enabled the extraction of an individual’s heart pulsations from pixel changes in recorded video images of human skin surfaces. This method is termed remote photoplethysmography (rPPG) and can be achieved with consumer-level cameras (e.g., a webcam or mobile camera). The goal of the present publication is two-fold. First, we aim to organize future rPPG software developments in a tractable and nontechnical manner, such that the public gains access to a basic open-source rPPG code, comes to understand its utility, and can follow its most recent progressions. The second goal is to investigate rPPG’s accuracy in detecting heart rates from the skin surfaces of several body parts after physical exercise and under ambient lighting conditions with a consumer-level camera. We report that rPPG is highly accurate when the camera is aimed at facial skin tissue, but that the heart rate recordings from wrist regions are less reliable, and recordings from the calves are unreliable. Facial rPPG remained accurate despite the high heart rates after exercise. The proposed research procedures and the experimental findings provide guidelines for future studies on rPPG.
Highlights
Recent developments in computer science and digital image processing have enabled the extraction of an individual’s heart pulsations from pixel changes in recorded video images of human skin surfaces
Pulse oximetry and remote photoplethysmography (rPPG) heart’s beating rate (HR) measurements per exercise and body part condition We first performed a sanity check to ensure that the exercise instructions resulted in significant differences in heart rates across exercise conditions, as measured with the reference pulse oximeter
The heart rates averaged across recording durations (Fig. 4d) differed significantly across the exercise conditions [F(2, 20) = 259.41, p < .001]
Summary
Recent developments in computer science and digital image processing have enabled the extraction of an individual’s heart pulsations from pixel changes in recorded video images of human skin surfaces This method is termed remote photoplethysmography (rPPG) and can be achieved with consumer-level cameras (e.g., a webcam or mobile camera). Progressions in the field of image processing have led to the development of algorithms that enable the extraction of the timing of heart beats from distant camera recordings of an individual’s skin This novel method is termed remote photoplethysmography (rPPG). Because these two factors affect light scatter and absorption, changes in infrared luminance levels—targeted at capillary beds relatively close to the skin’s surface—can be used to infer how many heart beats were present within a certain time window
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