Unsupervised Video Domain Adaptation for Action Recognition: A Disentanglement Perspective
Document Type
Conference Proceeding
Publication Title
Advances in Neural Information Processing Systems
Abstract
Unsupervised video domain adaptation is a practical yet challenging task.In this work, for the first time, we tackle it from a disentanglement view.Our key idea is to handle the spatial and temporal domain divergence separately through disentanglement.Specifically, we consider the generation of cross-domain videos from two sets of latent factors, one encoding the static information and another encoding the dynamic information.A Transfer Sequential VAE (TranSVAE) framework is then developed to model such generation.To better serve for adaptation, we propose several objectives to constrain the latent factors.With these constraints, the spatial divergence can be readily removed by disentangling the static domain-specific information out, and the temporal divergence is further reduced from both frame- and video-levels through adversarial learning.Extensive experiments on the UCF-HMDB, Jester, and Epic-Kitchens datasets verify the effectiveness and superiority of TranSVAE compared with several state-of-the-art approaches.
Publication Date
1-1-2023
Recommended Citation
P. Wei et al., "Unsupervised Video Domain Adaptation for Action Recognition: A Disentanglement Perspective," Advances in Neural Information Processing Systems, vol. 36, Jan 2023.