Upgraded W-Net with Attention Gates and its Application in Unsupervised 3D Liver Segmentation

International Conference on Pattern Recognition Applications and Methods Pub Date : 2020-11-20 DOI:10.5220/0010221504880494

Dhanunjaya Mitta, S. Chatterjee, O. Speck, A. Nürnberger

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引用次数: 5

Abstract

Segmentation of biomedical images can assist radiologists to make a better diagnosis and take decisions faster by helping in the detection of abnormalities, such as tumors. Manual or semi-automated segmentation, however, can be a time-consuming task. Most deep learning based automated segmentation methods are supervised and rely on manually segmented ground-truth. A possible solution for the problem would be an unsupervised deep learning based approach for automated segmentation, which this research work tries to address. We use a W-Net architecture and modified it, such that it can be applied to 3D volumes. In addition, to suppress noise in the segmentation we added attention gates to the skip connections. The loss for the segmentation output was calculated using soft N-Cuts and for the reconstruction output using SSIM. Conditional Random Fields were used as a post-processing step to fine-tune the results. The proposed method has shown promising results, with a dice coefficient of 0.88 for the liver segmentation compared against manual segmentation.

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基于注意门的改进W-Net及其在无监督三维肝脏分割中的应用

生物医学图像的分割可以帮助放射科医生做出更好的诊断，并通过帮助检测异常(如肿瘤)来更快地做出决定。然而，手动或半自动的分割可能是一项耗时的任务。大多数基于深度学习的自动分割方法都是有监督的，并且依赖于手动分割的真值。该问题的一个可能解决方案是基于无监督深度学习的自动分割方法，这是本研究工作试图解决的问题。我们使用W-Net架构并对其进行了修改，使其可以应用于3D体块。此外，为了抑制分割中的噪声，我们在跳跃连接中添加了注意门。使用软N-Cuts计算分割输出的损失，使用SSIM计算重建输出的损失。条件随机场被用作后处理步骤微调结果。该方法取得了良好的效果，与人工分割相比，肝脏分割的骰子系数为0.88。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Conference on Pattern Recognition Applications and Methods

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