Existence Is Chaos: Enhancing 3D Human Motion Prediction with Uncertainty Consideration
Authors: Wang, Z., Zhou, Y., Zhang, N., Yang, X. and Xiao, J.
Journal: Proceedings of the AAAI Conference on Artificial Intelligence
Volume: 38
Issue: 6
Pages: 5841-5849
eISSN: 2374-3468
ISSN: 2159-5399
DOI: 10.1609/aaai.v38i6.28397
Abstract:Human motion prediction is consisting in forecasting future body poses from historically observed sequences. It is a longstanding challenge due to motion’s complex dynamics and uncertainty. Existing methods focus on building up complicated neural networks to model the motion dynamics. The predicted results are required to be strictly similar to the training samples with L2 loss in current training pipeline. However, little attention has been paid to the uncertainty property which is crucial to the prediction task. We argue that the recorded motion in training data could be an observation of possible future, rather than a predetermined result. In addition, existing works calculate the predicted error on each future frame equally during training, while recent work indicated that different frames could play different roles. In this work, a novel computationally efficient encoder-decoder model with uncertainty consideration is proposed, which could learn proper characteristics for future frames by a dynamic function. Experimental results on benchmark datasets demonstrate that our uncertainty consideration approach has obvious advantages both in quantity and quality. Moreover, the proposed method could produce motion sequences with much better quality that avoids the intractable shaking artefacts. We believe our work could provide a novel perspective to consider the uncertainty quality for the general motion prediction task and encourage the studies in this field. The code will be available in https://github.com/Motionpre/Adaptive-Salient-Loss-SAGGB.
Source: Scopus