Orientation-conditioned Facial Texture Mapping for Video-based Facial Remote Photoplethysmography Estimation

CVPRW 2024 - International Workshop on Computer Vision for Physiological Measurement (CVPM 2024)

1Australian National University, Canberra, Australia 2Data61, Commonwealth and Scientific Industrial Research Organization, Canberra, Australia 3University of Turku, Turku, Finland

Abstract

Camera-based remote photoplethysmography (rPPG) enables contactless measurement of important physiological signals such as pulse rate (PR). However, dynamic and unconstrained subject motion introduces significant variability into the facial appearance in video, confounding the ability of video-based methods to accurately extract the rPPG signal. In this study, we leverage the 3D facial surface to construct a novel orientation-conditioned facial texture video representation which improves the motion robustness of existing video-based facial rPPG estimation methods. Our proposed method achieves a significant 18.2% performance improvement in cross-dataset testing on MMPD over our baseline using the PhysNet model trained on PURE, highlighting the efficacy and generalization benefits of our designed video representation. We demonstrate significant performance improvements of up to 29.6% in all tested motion scenarios in cross-dataset testing on MMPD, even in the presence of dynamic and unconstrained subject motion, emphasizing the benefits of disentangling motion through modeling the 3D facial surface for motion robust facial rPPG estimation. We validate the efficacy of our design decisions and the impact of different video processing steps through an ablation study. Our findings illustrate the potential strengths of exploiting the 3D facial surface as a general strategy for addressing dynamic and unconstrained subject motion in videos. The code is available at https://samcantrill.github.io/orientation-uv-rppg/.

BibTeX

@article{cantrill2024orientationuvrppg,
  author    = {Cantrill, Sam and Ahmedt-Aristizabal, David and Petersson, Lars and Suominen, Hanna and Armin, Mohammad Ali},
  title     = {Orientation-conditioned Facial Texture Mapping for Video-based Facial Remote
    Photoplethysmography Estimation},
  journal   = {CVPRW},
  year      = {2024},
}