Exploring the use of skeletal tracking for cheaper motion graphs and on-set decision making in Free-Viewpoint Video production
Drew MacQuarrie & Anthony Steed. 2020.
Proceedings of the 17th ACM SIGGRAPH European Conference on Visual Media Production
In free-viewpoint video (FVV), the motion and surface appearance of a real-world performance is captured as an animated mesh. While this technology can produce high-fidelity recreations of actors, the required 3D reconstruction step has substantial processing demands. This means FVV experiences are currently expensive to produce, and the processing delay means on-set decisions are hampered by a lack of feedback. This work explores the possibility of using RGB-camera-based skeletal tracking to reduce the amount of content that must be 3D reconstructed, as well as aiding on-set decision making. One particularly relevant application is in the construction of Motion Graphs, where state-of-the-art techniques require large amounts of content to be 3D reconstructed before a graph can be built, resulting in large amounts of wasted processing effort. Here, we propose the use of skeletons to assess which clips of FVV content to process, resulting in substantial cost savings with a limited impact on performance accuracy. Additionally, we explore how this technique could be utilised on set to reduce the possibility of requiring expensive reshoots.
Citation
MacQuarrie, A., & Steed, A. (2020). Exploring the use of skeletal tracking for cheaper motion graphs and on-set decision making in free-viewpoint video production. Proceedings of the 17th ACM SIGGRAPH European Conference on Visual Media Production (pp. 1–10).
BibTeX
@inproceedings{macquarrie2020exploring, title={Exploring the use of skeletal tracking for cheaper motion graphs and on-set decision making in Free-Viewpoint Video production}, author={MacQuarrie, Andrew and Steed, Anthony}, booktitle={Proceedings of the 17th ACM SIGGRAPH European Conference on Visual Media Production}, pages={1--10}, year={2020} }