风格一致的无监督领域适应医学图像分割。

Lang Chen;Yun Bian;Jianbin Zeng;Qingquan Meng;Weifang Zhu;Fei Shi;Chengwei Shao;Xinjian Chen;Dehui Xiang
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引用次数: 0

摘要

无监督域适应医学图像分割的目的是将未标记的目标域图像与已标记的源域图像进行分割。然而,不同的医学成像模式会导致其图像之间出现较大的域偏移,在这种情况下,一种成像模式下训练有素的模型往往无法分割另一种成像模式下的图像。为了减轻源域和目标域之间的域偏移,本文提出了一种风格一致的无监督域适应图像分割方法。首先,设计了一种局部相位增强风格融合方法,以减轻域偏移并产生局部增强的感兴趣器官。其次,构建了一个相位一致性判别器,以区分源域和目标域的域不变特征的相位一致性,从而增强域不变编码器和样式编码器的分离,并从域不变编码器中去除特定域的特征。第三,提出一种风格一致性估计方法,从不同风格的中间合成目标域图像中获取不一致性图,以测量困难区域,减轻合成目标域图像与真实目标域图像之间的域偏移,提高感兴趣器官的完整性。第四,定义目标域图像的风格一致性熵,通过集中不一致区域进一步提高感兴趣器官的完整性。我们利用内部数据集和公开数据集进行了综合实验。实验结果表明,我们的框架优于最先进的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Style Consistency Unsupervised Domain Adaptation Medical Image Segmentation
Unsupervised domain adaptation medical image segmentation is aimed to segment unlabeled target domain images with labeled source domain images. However, different medical imaging modalities lead to large domain shift between their images, in which well-trained models from one imaging modality often fail to segment images from anothor imaging modality. In this paper, to mitigate domain shift between source domain and target domain, a style consistency unsupervised domain adaptation image segmentation method is proposed. First, a local phase-enhanced style fusion method is designed to mitigate domain shift and produce locally enhanced organs of interest. Second, a phase consistency discriminator is constructed to distinguish the phase consistency of domain-invariant features between source domain and target domain, so as to enhance the disentanglement of the domain-invariant and style encoders and removal of domain-specific features from the domain-invariant encoder. Third, a style consistency estimation method is proposed to obtain inconsistency maps from intermediate synthesized target domain images with different styles to measure the difficult regions, mitigate domain shift between synthesized target domain images and real target domain images, and improve the integrity of interested organs. Fourth, style consistency entropy is defined for target domain images to further improve the integrity of the interested organ by the concentration on the inconsistent regions. Comprehensive experiments have been performed with an in-house dataset and a publicly available dataset. The experimental results have demonstrated the superiority of our framework over state-of-the-art methods.
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