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Contactless Blood Oxygen Saturation Estimation from Facial Videos Using Deep Learning

Chun-Hong Cheng, Zhikun Yuen, Shutao Chen, Kwan Long Wong, Jing Wei Chin, Tsz Tai Chan, Richard H. Y. So

2024Bioengineering27 citationsDOIOpen Access PDF

Abstract

Blood oxygen saturation (SpO2) is an essential physiological parameter for evaluating a person’s health. While conventional SpO2 measurement devices like pulse oximeters require skin contact, advanced computer vision technology can enable remote SpO2 monitoring through a regular camera without skin contact. In this paper, we propose novel deep learning models to measure SpO2 remotely from facial videos and evaluate them using a public benchmark database, VIPL-HR. We utilize a spatial–temporal representation to encode SpO2 information recorded by conventional RGB cameras and directly pass it into selected convolutional neural networks to predict SpO2. The best deep learning model achieves 1.274% in mean absolute error and 1.71% in root mean squared error, which exceed the international standard of 4% for an approved pulse oximeter. Our results significantly outperform the conventional analytical Ratio of Ratios model for contactless SpO2 measurement. Results of sensitivity analyses of the influence of spatial–temporal representation color spaces, subject scenarios, acquisition devices, and SpO2 ranges on the model performance are reported with explainability analyses to provide more insights for this emerging research field.

Topics & Concepts

RGB color modelDeep learningConvolutional neural networkComputer scienceArtificial intelligencePulse oximetryMean squared errorBenchmark (surveying)Mean absolute percentage errorMean absolute errorOxygen saturationPattern recognition (psychology)Computer visionArtificial neural networkStatisticsMathematicsMedicineOxygenChemistryOrganic chemistryGeodesyAnesthesiaGeographyNon-Invasive Vital Sign MonitoringOptical Imaging and Spectroscopy TechniquesHealthcare Technology and Patient Monitoring