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Teacher-Student Architecture for Mixed Supervised Lung Tumor Segmentation

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arxiv 2112.11541 v1 pith:7YH7DPMV submitted 2021-12-21 eess.IV cs.CVcs.LG

Teacher-Student Architecture for Mixed Supervised Lung Tumor Segmentation

classification eess.IV cs.CVcs.LG
keywords datasegmentationteacher-studenttumorlabeledamountsannotationautomatic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Purpose: Automating tasks such as lung tumor localization and segmentation in radiological images can free valuable time for radiologists and other clinical personnel. Convolutional neural networks may be suited for such tasks, but require substantial amounts of labeled data to train. Obtaining labeled data is a challenge, especially in the medical domain. Methods: This paper investigates the use of a teacher-student design to utilize datasets with different types of supervision to train an automatic model performing pulmonary tumor segmentation on computed tomography images. The framework consists of two models: the student that performs end-to-end automatic tumor segmentation and the teacher that supplies the student additional pseudo-annotated data during training. Results: Using only a small proportion of semantically labeled data and a large number of bounding box annotated data, we achieved competitive performance using a teacher-student design. Models trained on larger amounts of semantic annotations did not perform better than those trained on teacher-annotated data. Conclusions: Our results demonstrate the potential of utilizing teacher-student designs to reduce the annotation load, as less supervised annotation schemes may be performed, without any real degradation in segmentation accuracy.

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