用顺序先验校正噪声标签:多尺度时间特征亲和学习鲁棒视频分割

Beilei Cui, Minqing Zhang, Mengya Xu, An-Chi Wang, Wu Yuan, Hongliang Ren
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引用次数: 0

摘要

医学图像分割中不可避免地存在噪声标签问题,导致分割性能严重下降。以往针对噪声标签问题的分割方法仅利用单个图像,而忽略了利用图像之间相关性的潜力。特别是在视频分割中,相邻帧包含丰富的上下文信息,有利于识别噪声标签。基于这两个见解,我们提出了一个多尺度时间特征亲和力学习(ms - tal)框架来解决噪声标记的医学视频分割问题。首先,我们认为视频的顺序先验是一个有效的参考,即来自相邻帧的像素级特征对于同一类来说距离较近,否则距离较远。因此,设计了时间特征亲和学习(TFAL),通过评估相邻两帧中像素之间的亲和性来指示可能的噪声标签。我们还注意到,噪声分布在视频、图像和像素级别上表现出相当大的变化。为此,我们引入多尺度监督(MSS),通过对样本的重新加权和细化,从三个不同的角度对网络进行监督。这种设计使网络能够以从粗到细的方式集中在干净的样本上。合成和现实世界标签噪声的实验表明,我们的方法优于最近最先进的鲁棒分割方法。代码可从https://github.com/BeileiCui/MS-TFAL获得。
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Rectifying Noisy Labels with Sequential Prior: Multi-Scale Temporal Feature Affinity Learning for Robust Video Segmentation
Noisy label problems are inevitably in existence within medical image segmentation causing severe performance degradation. Previous segmentation methods for noisy label problems only utilize a single image while the potential of leveraging the correlation between images has been overlooked. Especially for video segmentation, adjacent frames contain rich contextual information beneficial in cognizing noisy labels. Based on two insights, we propose a Multi-Scale Temporal Feature Affinity Learning (MS-TFAL) framework to resolve noisy-labeled medical video segmentation issues. First, we argue the sequential prior of videos is an effective reference, i.e., pixel-level features from adjacent frames are close in distance for the same class and far in distance otherwise. Therefore, Temporal Feature Affinity Learning (TFAL) is devised to indicate possible noisy labels by evaluating the affinity between pixels in two adjacent frames. We also notice that the noise distribution exhibits considerable variations across video, image, and pixel levels. In this way, we introduce Multi-Scale Supervision (MSS) to supervise the network from three different perspectives by re-weighting and refining the samples. This design enables the network to concentrate on clean samples in a coarse-to-fine manner. Experiments with both synthetic and real-world label noise demonstrate that our method outperforms recent state-of-the-art robust segmentation approaches. Code is available at https://github.com/BeileiCui/MS-TFAL.
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