e., heart rate, SPOdos) by using ambient light. The performance of the system proposed shows good agreement with the result measured by a commercial pulse oximeter sensor. In the system, two CCD, being equidistant from the tested face, are used to capture the same section on the face. So debugging and try this site adjustment is necessary. The adoption of the narrow band-filter allows the device be free from any interference produced by the ambient light of other band. Also, the FWHM of the narrow filters adopted in this paper is 10nm, increasing the tolerance of the system to light source. When the grey value of image captured by CCD is below 50, an approximately stable artificial light source, whose spectral range is wide enough to cover the needed wavelengths of 520nm and 660nm, is needed. In our experiments, a lamp with light diffusion plate is used for supplementing light under inadequate lighting condition.
Another limitation is the elimination of motion artifact. The physiological changes in blood volume due to motion are not well understood and could also not meet the linear relationship . Although the pioneering researchers have proposed many good solutions for the eliminating of the motion artifact [3, 18], the work to eliminate motion artifact for the remote measurements of SPO2 is relatively short and a further work should be done to remove the motion artifacts from iPPG signals to enable the clinical application. Continue reading “The research takes into account the fresh remote accessing from mental guidance (we”