SportsCap: Monocular 3D Human Motion Capture and
Fine-grained Understanding in Challenging Sports Videos
Abstract
Markerless motion capture and understanding of professional non-daily human movements is an important yet unsolved task, which suffers from complex motion patterns and severe self-occlusion, especially for the monocular setting. In this paper, we propose SportsCap -- the first approach for simultaneously capturing 3D human motions and understanding fine-grained actions from monocular challenging sports video input. Our approach utilizes the semantic and temporally structured sub-motion prior in the embedding space for motion capture and understanding in a data-driven multi-task manner. To enable robust capture under complex motion patterns, we propose an effective motion embedding module to recover both the implicit motion embedding and explicit 3D motion details via a corresponding mapping function as well as a sub-motion classifier. Based on such hybrid motion information, we introduce a multi-stream spatial-temporal Graph Convolutional Network(ST-GCN) to predict the fine-grained semantic action attributes, and adopt a semantic attribute mapping block to assemble various correlated action attributes into a high-level action label for the overall detailed understanding of the whole sequence, so as to enable various applications like action assessment or motion scoring. Comprehensive experiments on both public and our proposed datasets show that with a challenging monocular sports video input, our novel approach not only significantly improves the accuracy of 3D human motion capture, but also recovers accurate fine-grained semantic action attributes.
Downloads
Dataset
Results on 3D human Shape Capture
Results on 2D pose estimation and understanding
Visualization on pose embedding spaces
Citation
@article{chen2021sportscap, title={SportsCap: Monocular 3D Human Motion Capture and Fine-Grained Understanding in Challenging Sports Videos}, author={Xin Chen and Anqi Pang and Wei Yang and Yuexin Ma and Lan Xu and Jingyi Yu}, journal={International Journal of Computer Vision}, year={2021}, month={Aug}, url={https://doi.org/10.1007/s11263-021-01486-4} }