Learning from Synthetic Human Group Activities

Che-Jui Chang, Danrui Li, Deep Patel, Parth Goel, Honglu Zhou, Seonghyeon Moon, Samuel S. Sohn, Sejong Yoon, Vladimir Pavlovic, Mubbasir Kapadia; Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR), 2024, pp. 21922-21932

The study of complex human interactions and group activities has become a focal point in human-centric computer vision. However progress in related tasks is often hindered by the challenges of obtaining large-scale labeled datasets from real-world scenarios. To address the limitation we introduce M3Act a synthetic data generator for multi-view multi-group multi-person human atomic actions and group activities. Powered by Unity Engine M3Act features multiple semantic groups highly diverse and photorealistic images and a comprehensive set of annotations which facilitates the learning of human-centered tasks across single-person multi-person and multi-group conditions. We demonstrate the advantages of M3Act across three core experiments. The results suggest our synthetic dataset can significantly improve the performance of several downstream methods and replace real-world datasets to reduce cost. Notably M3Act improves the state-of-the-art MOTRv2 on DanceTrack dataset leading to a hop on the leaderboard from 10th to 2nd place. Moreover M3Act opens new research for controllable 3D group activity generation. We define multiple metrics and propose a competitive baseline for the novel task. Our code and data are available at our project page: http://cjerry1243.github.io/M3Act.