Sliced Wasserstein Discrepancy for Unsupervised Domain Adaptation
About
In this work, we connect two distinct concepts for unsupervised domain adaptation: feature distribution alignment between domains by utilizing the task-specific decision boundary and the Wasserstein metric. Our proposed sliced Wasserstein discrepancy (SWD) is designed to capture the natural notion of dissimilarity between the outputs of task-specific classifiers. It provides a geometrically meaningful guidance to detect target samples that are far from the support of the source and enables efficient distribution alignment in an end-to-end trainable fashion. In the experiments, we validate the effectiveness and genericness of our method on digit and sign recognition, image classification, semantic segmentation, and object detection.
Chen-Yu Lee, Tanmay Batra, Mohammad Haris Baig, Daniel Ulbricht• 2019
Related benchmarks
| Task | Dataset | Result | Rank | |
|---|---|---|---|---|
| Semantic segmentation | Cityscapes GTA5 to Cityscapes adaptation (val) | mIoU (Overall)44.5 | 352 | |
| Image Classification | DomainNet | Accuracy (ClipArt)44.2 | 206 | |
| Semantic segmentation | SYNTHIA to Cityscapes | Road IoU82.4 | 159 | |
| Unsupervised Domain Adaptation | DomainNet | Average Accuracy30.3 | 142 | |
| Action Segmentation | 50Salads | Edit Distance71.6 | 114 | |
| Semantic segmentation | Cityscapes adaptation from Synthia 1.0 (val) | Person IoU47.4 | 114 | |
| Object Classification | VisDA synthetic-to-real 2017 | Mean Accuracy76.4 | 108 | |
| Temporal action segmentation | Breakfast | -- | 102 | |
| Domain Adaptation | VisDA 2017 (test) | Mean Class Accuracy76.4 | 98 | |
| Unsupervised Domain Adaptation | VisDA unsupervised domain adaptation 2017 | Mean Accuracy76.4 | 98 |
Showing 10 of 38 rows