Mauricio Orbes-Arteaga, Thomas Varsavsky, Carole H Sudre, Zach Eaton-Rosen, Lewis J Haddow, Lauge Sørensen, Mads Nielsen, Akshay Pai, Sébastien Ourselin, Marc Modat, Parashkev Nachev, M Jorge Cardoso
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引用次数: 0
摘要
在医学图像上训练的监督学习算法往往无法在采集参数发生变化时进行泛化。最近在领域适应方面的研究解决了这一难题,成功地利用了源领域中的标记数据,在无标记的目标领域中表现出色。受近期半监督学习工作的启发,我们推出了一种新方法,可从一个源域适应 n 个目标域(只要有涵盖所有域的配对数据)。我们的多域适应方法利用一致性损失与对抗学习相结合。我们以 MICCAI 2017 挑战赛数据为源域和两个目标域,提供了脑磁共振成像中白质病变高强度分割的结果。所提出的方法明显优于其他域自适应基线。
Multi-domain Adaptation in Brain MRI Through Paired Consistency and Adversarial Learning.
Supervised learning algorithms trained on medical images will often fail to generalize across changes in acquisition parameters. Recent work in domain adaptation addresses this challenge and successfully leverages labeled data in a source domain to perform well on an unlabeled target domain. Inspired by recent work in semi-supervised learning we introduce a novel method to adapt from one source domain to n target domains (as long as there is paired data covering all domains). Our multi-domain adaptation method utilises a consistency loss combined with adversarial learning. We provide results on white matter lesion hyperintensity segmentation from brain MRIs using the MICCAI 2017 challenge data as the source domain and two target domains. The proposed method significantly outperforms other domain adaptation baselines.
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