Measuring Physical Plausibility of 3D Human Poses Using Physics Simulation


Nathan Louis (University of Michigan - Ann Arbor), Mahzad Khoshlessan (University of Michigan - Ann Arbor), Jason J Corso (University of Michigan)
The 35th British Machine Vision Conference
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Abstract

Modeling humans in physical scenes is vital for understanding human-environment interactions for applications involving augmented reality or assessment of human actions from video (e.g. sports or physical rehabilitation). State-of-the-art literature begins with a 3D human pose, from monocular or multiple views, and uses this representation to ground the person within a 3D world space. While standard metrics for accuracy capture joint position errors, they do not consider physical plausibility of the 3D pose. This limitation has motivated researchers to propose other metrics evaluating jitter, floor penetration, and unbalanced postures. Yet, these approaches measure independent instances of errors and are not representative of balance or stability during motion. In this work, we propose measuring physical plausibility from within physics simulation. We introduce two metrics to capture the physical plausibility and stability of predicted 3D poses from any 3D Human Pose Estimation model. Using physics simulation, we discover correlations with existing plausibility metrics and measuring stability during motion. We evaluate and compare the performances of two state-of-the-art methods, a multi-view triangulated baseline, and ground truth 3D markers from the Human3.6m dataset.

Citation

@inproceedings{Louis_2024_BMVC,
author    = {Nathan Louis and Mahzad Khoshlessan and Jason J Corso},
title     = {Measuring Physical Plausibility of 3D Human Poses Using Physics Simulation},
booktitle = {35th British Machine Vision Conference 2024, {BMVC} 2024, Glasgow, UK, November 25-28, 2024},
publisher = {BMVA},
year      = {2024},
url       = {https://papers.bmvc2024.org/0615.pdf}
}


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