Litcius/Paper detail

Complementary Pseudo Labels for Unsupervised Domain Adaptation On Person Re-Identification

Hao Feng, Minghao Chen, Jinming Hu, Dong Shen, Haifeng Liu, Deng Cai

2021IEEE Transactions on Image Processing86 citationsDOIOpen Access PDF

Abstract

In recent years, supervised person re-identification (re-ID) models have received increasing studies. However, these models trained on the source domain always suffer dramatic performance drop when tested on an unseen domain. Existing methods are primary to use pseudo labels to alleviate this problem. One of the most successful approaches predicts neighbors of each unlabeled image and then uses them to train the model. Although the predicted neighbors are credible, they always miss some hard positive samples, which may hinder the model from discovering important discriminative information of the unlabeled domain. In this paper, to complement these low recall neighbor pseudo labels, we propose a joint learning framework to learn better feature embeddings via high precision neighbor pseudo labels and high recall group pseudo labels. The group pseudo labels are generated by transitively merging neighbors of different samples into a group to achieve higher recall. However, the merging operation may cause subgroups in the group due to imperfect neighbor predictions. To utilize these group pseudo labels properly, we propose using a similarity-aggregating loss to mitigate the influence of these subgroups by pulling the input sample towards the most similar embeddings. Extensive experiments on three large-scale datasets demonstrate that our method can achieve state-of-the-art performance under the unsupervised domain adaptation re-ID setting.

Topics & Concepts

Discriminative modelComputer scienceArtificial intelligencePattern recognition (psychology)Similarity (geometry)RecallComplement (music)Precision and recallDomain (mathematical analysis)Feature (linguistics)Identification (biology)Machine learningDomain adaptationImage (mathematics)MathematicsClassifier (UML)BiologyMathematical analysisBiochemistryChemistryLinguisticsGeneComplementationPhilosophyBotanyPhenotypeVideo Surveillance and Tracking MethodsFace recognition and analysisHuman Pose and Action Recognition