Learning Target-Domain-Specific Classifier for Partial Domain Adaptation

Ren, Chuan-Xian; Ge, Pengfei; Yang, Peiyi; Yan, Shuicheng

doi:10.1109/tnnls.2020.2995648

Cited by 35 publications

(8 citation statements)

References 37 publications

(80 reference statements)

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“…In particular, there are totally 25 classes (the first 25 in the alphabetical order) out of 65 classes in the target domain for Office-Home, while the first 6 classes in the alphabetical order out of 12 classes are included in the target domain for VISDA-C. Results of our methods and previous state-of-the-art PDA methods [105], [106], [107], [108] are shown in Table 7. As explained in Section 3.6, β = 0 is utilized in all of our methods here.…”

Section: Results Of Object Recognition Beyond Vanilla Udamentioning

confidence: 99%

“…For vanilla unsupervised DA in digit recognition, we compare SHOT with ADDA [5], ADR [56], CDAN [42], CyCADA [8], CAT [96], SWD [97] and STAR [98]; for object recognition, we compare ours with DANN [24], DAN [4], SAFN [82], BSP [99], MDD [100], TransNorm [55], DSBN [25], BNM [101] and GVB-GD [102]. For partial-set DA tasks, we compare ours with IWAN [103], SAN [89], ETN [104], DRCN [105], RTNet adv [106], BA 3 US [107], and TSCDA [108]. For multi-source UDA, we compare ours with DCTN [109], MCD [6], WBN [110], M 3 SDA-β [18], CMSS [111], and CMSS [111].…”

Section: Setupmentioning

confidence: 99%

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Source Data-absent Unsupervised Domain Adaptation through Hypothesis Transfer and Labeling Transfer

Liang

Wang

et al. 2021

IEEE Trans. Pattern Anal. Mach. Intell.

194

250

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Unsupervised domain adaptation (UDA) aims to transfer knowledge from a related but different well-labeled source domain to a new unlabeled target domain. Most existing UDA methods require access to the source data, and thus are not applicable when the data are confidential and not shareable due to privacy concerns. This paper aims to tackle a realistic setting with only a classification model available trained over, instead of accessing to, the source data. To effectively utilize the source model for adaptation, we propose a novel approach called Source HypOthesis Transfer (SHOT), which learns the feature extraction module for the target domain by fitting the target data features to the frozen source classification module (representing classification hypothesis). Specifically, SHOT exploits both information maximization and self-supervised learning for the feature extraction module learning to ensure the target features are implicitly aligned with the features of unseen source data via the same hypothesis. Furthermore, we propose a new labeling transfer strategy, which separates the target data into two splits based on the confidence of predictions (labeling information), and then employ semi-supervised learning to improve the accuracy of less-confident predictions in the target domain. We denote labeling transfer as SHOT++ if the predictions are obtained by SHOT. Extensive experiments on both digit classification and object recognition tasks show that SHOT and SHOT++ achieve results surpassing or comparable to the state-of-the-arts, demonstrating the effectiveness of our approaches for various visual domain adaptation problems. Code will be available at https://github.com/tim-learn/SHOT-plus.

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Section: Results Of Object Recognition Beyond Vanilla Udamentioning

confidence: 99%

Section: Setupmentioning

confidence: 99%

Source Data-absent Unsupervised Domain Adaptation through Hypothesis Transfer and Labeling Transfer

Liang

Wang

et al. 2021

IEEE Trans. Pattern Anal. Mach. Intell.

194

250

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show abstract

“…DA methods aim to find a latent space for source and target domains, so that the discrimination information in the source domain can be efficiently transferred to the recognition task in the target domain [22]- [25]. Generally, DA methods can be divided into three categories: unsupervised DA methods, weakly-supervised DA methods, and semi-supervised DA methods.…”

Section: B Domain Adaptation Methodsmentioning

confidence: 99%

Cross-Site Severity Assessment of COVID-19 From CT Images via Domain Adaptation

Liu

et al. 2022

IEEE Trans. Med. Imaging

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Early and accurate severity assessment of Coronavirus disease 2019 (COVID-19) based on computed tomography (CT) images offers a great help to the estimation of intensive care unit event and the clinical decision of treatment planning. To augment the labeled data and improve the generalization ability of the classification model, it is necessary to aggregate data from multiple sites. This task faces several challenges including class imbalance between mild and severe infections, domain distribution discrepancy between sites, and presence of heterogeneous features. In this paper, we propose a novel domain adaptation (DA) method with two components to address these problems. The first component is a stochastic classbalanced boosting sampling strategy that overcomes the imbalanced learning problem and improves the classification performance on poorly-predicted classes. The second component is a representation learning that guarantees three properties: 1) domain-transferability by prototype triplet loss, 2) discriminant by conditional maximum mean discrepancy loss, and 3) completeness by multi-view reconstruction loss. Particularly, we propose a domain translator and align the heterogeneous data to the estimated class prototypes (i.e., class centers) in a hyper-sphere manifold. Experiments on cross-site severity assessment of COVID-

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“…In practice, visual discrepancies among the clinical datasets could be large [39,40,41,42]. For example, DRIVE dataset contains 33 images without any sign of diabetic retinopathy and 7 images with signs of mild early diabetic retinopathy.…”

Section: Evaluation On Cross-datasetsmentioning

confidence: 99%

SPNet: A novel deep neural network for retinal vessel segmentation based on shared decoder and pyramid-like loss

Xu¹,

Ren²

2022

Preprint

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Segmentation of retinal vessel images is critical to the diagnosis of retinopathy. Recently, convolutional neural networks have shown significant ability to extract the blood vessel structure. However, it remains challenging to refined segmentation for the capillaries and the edges of retinal vessels due to thickness inconsistencies and blurry boundaries. In this paper, we propose a novel deep neural network for retinal vessel segmentation based on shared decoder and pyramid-like loss (SPNet) to address the above problems. Specifically, we introduce a decoder-sharing mechanism to capture multi-scale semantic information, where feature maps at diverse scales are decoded through a sequence of weight-sharing decoder modules. Also, to strengthen characterization on the capillaries and the edges of blood vessels, we define a residual pyramid architecture which decomposes the spatial information in the decoding phase. A pyramid-like loss function is designed to compensate possible segmentation errors progressively. Experimental results on public benchmarks show that the proposed method outperforms the backbone network and the state-of-the-art methods, especially in the regions of the capillaries and the vessel contours. In addition, performances on cross-datasets verify that SPNet shows stronger generalization ability.

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Learning Target-Domain-Specific Classifier for Partial Domain Adaptation

Cited by 35 publications

References 37 publications

Source Data-absent Unsupervised Domain Adaptation through Hypothesis Transfer and Labeling Transfer

Source Data-absent Unsupervised Domain Adaptation through Hypothesis Transfer and Labeling Transfer

Cross-Site Severity Assessment of COVID-19 From CT Images via Domain Adaptation

SPNet: A novel deep neural network for retinal vessel segmentation based on shared decoder and pyramid-like loss

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