ILSGAN: Independent Layer Synthesis for Unsupervised Foreground-Background Segmentation

Zou, Qiran; Yu, Yang; Cheung, Wing Yin; Liu, Chang; Ji, Xiangyang

doi:10.1609/aaai.v37i9.26358

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Cited by 4 publications

References 30 publications

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Thresholding-accelerated convolutional neural network for aeroengine turbine blade segmentation

Zheng,

Tang,

Sun

2024

Expert Systems with Applications

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Thresholding-accelerated convolutional neural network for aeroengine turbine blade segmentation

Zheng,

Tang,

Sun

2024

Expert Systems with Applications

View full text Add to dashboard Cite

BallGAN: 3D-aware Image Synthesis with a Spherical Background

Shin,

Seo,

Bae

et al. 2023

2023 IEEE/CVF International Conference on Computer Vision (ICCV)

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Unsupervised Camouflaged Object Segmentation as Domain Adaptation

Zhang,

2023

2023 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW)

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Deep learning for unsupervised image segmentation remains challenging due to the absence of human labels. The common idea is to train a segmentation head, with the supervision of pixel-wise pseudo-labels generated based on the representation of self-supervised backbones. By doing so, the model performance depends much on the distance between the distribution of target datasets, and the one of backbones ' pre-training dataset (e.g., ImageNet). In this work, we investigate a new task, namely unsupervised camouflaged object segmentation (UCOS), where the target objects own a common rarely-seen attribute, i.e., camouflage. Unsurprisingly, we find that the state-of-the-art unsupervised models struggle in adapting UCOS, due to the domain gap between the properties of generic and camouflaged objects. To this end, we formulate the UCOS as a source-free unsupervised domain adaptation task (UCOS-DA), where both source labels and target labels are absent during the whole model training process. Specifically, we define a source model consisting of self-supervised vision transformers pre-trained on ImageNet. On the other hand, the target domain includes a simple linear layer (i.e., our target model) and unlabeled camouflaged objects. We then design a pipeline for foreground-background-contrastive selfadversarial domain adaptation, to achieve robust UCOS. As a result, our baseline model achieves superior segmentation performance when compared with competing unsupervised models on the UCOS benchmark, with the training set which's scale is only one tenth of the supervised COS counterpart. The UCOS benchmark and our baseline model are now publicly available 1 .

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ILSGAN: Independent Layer Synthesis for Unsupervised Foreground-Background Segmentation

Cited by 4 publications

References 30 publications

Thresholding-accelerated convolutional neural network for aeroengine turbine blade segmentation

Thresholding-accelerated convolutional neural network for aeroengine turbine blade segmentation

BallGAN: 3D-aware Image Synthesis with a Spherical Background

Unsupervised Camouflaged Object Segmentation as Domain Adaptation

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