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NAS-HR: Neural architecture search for heart rate estimation from face videos

Hao Lü, Hu Han

2021Virtual Reality & Intelligent Hardware31 citationsDOIOpen Access PDF

Abstract

In anticipation of its great potential application to natural human-computer interaction and health monitoring, heart-rate (HR) estimation based on remote photoplethysmography has recently attracted increasing research attention. Whereas the recent deep-learning-based HR estimation methods have achieved promising performance, their computational costs remain high, particularly in mobile-computing scenarios. We propose a neural architecture search approach for HR estimation to automatically search a lightweight network that can achieve even higher accuracy than a complex network while reducing the computational cost. First, we define the regions of interests based on face landmarks and then extract the raw temporal pulse signals from the R, G, and B channels in each ROI. Then, pulse-related signals are extracted using a plane-orthogonal-to-skin algorithm, which are combined with the R and G channel signals to create a spatial-temporal map. Finally, a differentiable architecture search approach is used for the network-structure search. Compared with the state-of-the-art methods on the public-domain VIPL-HR and PURE databases, our method achieves better HR estimation performance in terms of several evaluation metrics while requiring a much lower computational cost1.

Topics & Concepts

Computer scienceArtificial intelligenceArtificial neural networkFace (sociological concept)Anticipation (artificial intelligence)PhotoplethysmogramNetwork architecturePattern recognition (psychology)Computer visionComputer securitySocial scienceSociologyFilter (signal processing)Non-Invasive Vital Sign MonitoringHeart Rate Variability and Autonomic ControlECG Monitoring and Analysis
NAS-HR: Neural architecture search for heart rate estimation from face videos | Litcius