医学图像分割回顾:U-Net 的成功

Reza Azad;Ehsan Khodapanah Aghdam;Amelie Rauland;Yiwei Jia;Atlas Haddadi Avval;Afshin Bozorgpour;Sanaz Karimijafarbigloo;Joseph Paul Cohen;Ehsan Adeli;Dorit Merhof
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引用次数: 0

摘要

自动医学影像分割是医学领域的一个重要课题,也是计算机辅助诊断范例中的一个重要组成部分。U-Net 因其灵活性、优化的模块化设计以及在所有医学图像模式中的成功应用而成为最广泛的图像分割架构。多年来,U-Net 模型受到了学术界和工业界研究人员的极大关注,他们对其进行了扩展,以应对医疗任务所造成的规模和复杂性。这些扩展通常涉及增强 U-Net 的主干、瓶颈或跳接连接,或包括表征学习,或将其与 Transformer 架构相结合,甚至是解决分割图的概率预测问题。有了以前提出的不同 U-Net 变体的汇编,机器学习研究人员就能更容易地确定相关的研究问题,并了解挑战该模型的生物任务所面临的挑战。在这项工作中,我们讨论了 U-Net 模型的实际方面,并将每个变体模型整理成一个分类法。此外,为了衡量这些策略在临床应用中的性能,我们建议在知名数据集上对一些独特的著名设计进行公平评估。此外,我们还提供了一个包含训练有素模型的综合实施库。此外,为了方便未来的研究,我们创建了一个 U-Net 论文在线列表,其中包含可能的正式实施方案。所有信息都收集在 GitHub 存储库 https://github.com/NITR098/Awesome-U-Net 中。
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Medical Image Segmentation Review: The Success of U-Net
Automatic medical image segmentation is a crucial topic in the medical domain and successively a critical counterpart in the computer-aided diagnosis paradigm. U-Net is the most widespread image segmentation architecture due to its flexibility, optimized modular design, and success in all medical image modalities. Over the years, the U-Net model has received tremendous attention from academic and industrial researchers who have extended it to address the scale and complexity created by medical tasks. These extensions are commonly related to enhancing the U-Net's backbone, bottleneck, or skip connections, or including representation learning, or combining it with a Transformer architecture, or even addressing probabilistic prediction of the segmentation map. Having a compendium of different previously proposed U-Net variants makes it easier for machine learning researchers to identify relevant research questions and understand the challenges of the biological tasks that challenge the model. In this work, we discuss the practical aspects of the U-Net model and organize each variant model into a taxonomy. Moreover, to measure the performance of these strategies in a clinical application, we propose fair evaluations of some unique and famous designs on well-known datasets. Furthermore, we provide a comprehensive implementation library with trained models. In addition, for ease of future studies, we created an online list of U-Net papers with their possible official implementation.
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