Publications

Selected Publication

Unknown-Aware Domain Adversarial Learning for Open-Set Domain Adaptation
Author
JoonHo Jang, Byeonghu Na, Dong Hyeok Shin, Mingi Ji, Kyungwoo Song, and Il-Chul Moon
Year
2022
Conference Name
Neural Information Processing Systems (NeurIPS 2022)
Presentation Date
Nov 28- Dec 9
City
New Orleans
Country
USA
File
UADAL_main_ver4.1.pdf (2.2M) 15time download DATE : 2024-02-01 22:37:15
File
UADAL_appendix_ver4.pdf (3.8M) 14time download DATE : 2024-02-01 22:37:15

JoonHo Jang, Byeonghu Na, Dong Hyeok Shin, Mingi Ji, Kyungwoo Song, and Il-Chul Moon, Unknown-Aware Domain Adversarial Learning for Open-Set Domain Adaptation, Neural Information Processing Systems (NeurIPS 2022), New Orleans, USA, Nov 28- Dec 9, 2022 


Abstract

Open-Set Domain Adaptation (OSDA) assumes that a target domain contains unknown classes, which are not discovered in a source domain. Existing domain adversarial learning methods are not suitable for OSDA because distribution matching with unknown classes leads to negative transfer. Previous OSDA methods have focused on matching the source and the target distribution by only utilizing known classes. However, this known-only matching may fail to learn the target-unknown feature space. Therefore, we propose Unknown-Aware Domain Adversarial Learning (UADAL), which aligns the source and the target-known distribution while simultaneously segregating the target-unknown distribution in the feature alignment procedure. We provide theoretical analyses on the optimized state of the proposed unknown-aware feature alignment, so we can guarantee both alignment and segregation theoretically. Empirically, we evaluate UADAL on the benchmark datasets, which shows that UADAL outperforms other methods with better feature alignments by reporting state-of-the-art performances. 


@article{jang2022unknown, 

title={Unknown-aware domain adversarial learning for open-set domain adaptation}, 

author={Jang, JoonHo and Na, Byeonghu and Shin, Dong Hyeok and Ji, Mingi and Song, Kyungwoo and Moon, Il-Chul}, 

journal={Advances in Neural Information Processing Systems}, 

volume={35}, 

pages={16755--16767}, 

year={2022} 

} 


Source Website:

https://proceedings.neurips.cc/paper_files/paper/2022/file/6a934325ec64639ba83b492b9c317085-Paper-Conference.pdf