Box-Adapt: Domain-Adaptive Medical Image Segmentation using Bounding BoxSupervision
This addresses the high annotation costs in medical imaging for practitioners, though it is incremental as it builds on existing domain adaptation techniques.
The paper tackles the problem of expensive fine-grained mask annotation in medical image segmentation by proposing a weakly supervised domain adaptation method called Box-Adapt, which uses bounding box supervision in the target domain and achieves performance comparable to fully supervised methods in liver segmentation tasks.
Deep learning has achieved remarkable success in medicalimage segmentation, but it usually requires a large numberof images labeled with fine-grained segmentation masks, andthe annotation of these masks can be very expensive andtime-consuming. Therefore, recent methods try to use un-supervised domain adaptation (UDA) methods to borrow in-formation from labeled data from other datasets (source do-mains) to a new dataset (target domain). However, due tothe absence of labels in the target domain, the performance ofUDA methods is much worse than that of the fully supervisedmethod. In this paper, we propose a weakly supervised do-main adaptation setting, in which we can partially label newdatasets with bounding boxes, which are easier and cheaperto obtain than segmentation masks. Accordingly, we proposea new weakly-supervised domain adaptation method calledBox-Adapt, which fully explores the fine-grained segmenta-tion mask in the source domain and the weak bounding boxin the target domain. Our Box-Adapt is a two-stage methodthat first performs joint training on the source and target do-mains, and then conducts self-training with the pseudo-labelsof the target domain. We demonstrate the effectiveness of ourmethod in the liver segmentation task. Weakly supervised do-main adaptation