SUD: Supervision by Denoising for Medical Image Segmentation
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Training a fully convolutional network for semantic segmentation typically requires a large, labeled dataset with little label noise if good generalization is to be guaranteed. For many segmentation problems, however, data with pixel- or voxel-level labeling accuracy are scarce due to the cost of manual labeling. This problem is exacerbated in domains where manual annotation is difficult, resulting in large amounts of variability in the labeling even across domain experts. Therefore, training segmentation networks to generalize better by learning from both labeled and unlabeled images (called semi-supervised learning) is problem of both practical and theoretical interest. However, traditional semi-supervised learning methods for segmentation often necessitate hand-crafting a differentiable regularizer specific to a given segmentation problem, which can be extremely time-consuming. In this work, we propose "supervision by denoising" (SUD), a framework that enables us to supervise segmentation models using their denoised output as targets. SUD unifies temporal ensembling and spatial denoising techniques under a spatio-temporal denoising framework and alternates denoising and network weight update in an optimization framework for semi-supervision. We validate SUD on three tasks-kidney and tumor (3D), and brain (3D) segmentation, and cortical parcellation (2D)-demonstrating a significant improvement in the Dice overlap and the Hausdorff distance of segmentations over supervised-only and temporal ensemble baselines.
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