English

Patch-Mix Transformer for Unsupervised Domain Adaptation: A Game Perspective

Computer Vision and Pattern Recognition 2023-06-07 v2

Abstract

Endeavors have been recently made to leverage the vision transformer (ViT) for the challenging unsupervised domain adaptation (UDA) task. They typically adopt the cross-attention in ViT for direct domain alignment. However, as the performance of cross-attention highly relies on the quality of pseudo labels for targeted samples, it becomes less effective when the domain gap becomes large. We solve this problem from a game theory's perspective with the proposed model dubbed as PMTrans, which bridges source and target domains with an intermediate domain. Specifically, we propose a novel ViT-based module called PatchMix that effectively builds up the intermediate domain, i.e., probability distribution, by learning to sample patches from both domains based on the game-theoretical models. This way, it learns to mix the patches from the source and target domains to maximize the cross entropy (CE), while exploiting two semi-supervised mixup losses in the feature and label spaces to minimize it. As such, we interpret the process of UDA as a min-max CE game with three players, including the feature extractor, classifier, and PatchMix, to find the Nash Equilibria. Moreover, we leverage attention maps from ViT to re-weight the label of each patch by its importance, making it possible to obtain more domain-discriminative feature representations. We conduct extensive experiments on four benchmark datasets, and the results show that PMTrans significantly surpasses the ViT-based and CNN-based SoTA methods by +3.6% on Office-Home, +1.4% on Office-31, and +17.7% on DomainNet, respectively.

Keywords

Cite

@article{arxiv.2303.13434,
  title  = {Patch-Mix Transformer for Unsupervised Domain Adaptation: A Game Perspective},
  author = {Jinjing Zhu and Haotian Bai and Lin Wang},
  journal= {arXiv preprint arXiv:2303.13434},
  year   = {2023}
}

Comments

Accepted by CVPR 2023 (Highlight)

R2 v1 2026-06-28T09:30:27.532Z