Mutual Evidential Deep Learning for Semi-supervised Medical Image Segmentation

Existing semi-supervised medical segmentation co-learning frameworks have realized that model performance can be diminished by the biases in model recognition caused by low-quality pseudo-labels. Due to the averaging nature of their pseudo-label integration strategy, they fail to explore the reliabi...

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Published in:	Proceedings (IEEE International Conference on Bioinformatics and Biomedicine) pp. 2010 - 2017
Main Authors:	He, Yuanpeng, Bi, Yali, Li, Lijian, Pun, Chi-Man, Jiao, Wenpin, Jin, Zhi
Format:	Conference Proceeding
Language:	English
Published:	IEEE 03.12.2024
Subjects:	Biomedical imaging Class-aware evidential fusion Data models Deep learning Heterogeneous networks Image segmentation Mutual evidential deep learning Predictive models Reliability Semi-supervised medical segmentation Semisupervised learning Training Uncertainty
ISSN:	2156-1133
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Abstract	Existing semi-supervised medical segmentation co-learning frameworks have realized that model performance can be diminished by the biases in model recognition caused by low-quality pseudo-labels. Due to the averaging nature of their pseudo-label integration strategy, they fail to explore the reliability of pseudo-labels from different sources. In this paper, we propose a mutual evidential deep learning (MEDL) framework that offers a potentially viable solution for pseudo-label generation in semi-supervised learning from two perspectives. First, we introduce networks with different architectures to generate complementary evidence for unlabeled samples and adopt an improved class-aware evidential fusion to guide the confident synthesis of evidential predictions sourced from diverse architectural networks. Second, utilizing the uncertainty in the fused evidence, we design an asymptotic Fisher information-based evidential learning strategy. This strategy enables the model to initially focus on unlabeled samples with more reliable pseudo-labels, gradually shifting attention to samples with lower-quality pseudo-labels while avoiding over-penalization of mislabeled classes in high data uncertainty samples. Additionally, for labeled data, we continue to adopt an uncertainty-driven asymptotic learning strategy, gradually guiding the model to focus on challenging voxels. Extensive experiments on five mainstream datasets have demonstrated that MEDL achieves state-of-the-art performance.
AbstractList	Existing semi-supervised medical segmentation co-learning frameworks have realized that model performance can be diminished by the biases in model recognition caused by low-quality pseudo-labels. Due to the averaging nature of their pseudo-label integration strategy, they fail to explore the reliability of pseudo-labels from different sources. In this paper, we propose a mutual evidential deep learning (MEDL) framework that offers a potentially viable solution for pseudo-label generation in semi-supervised learning from two perspectives. First, we introduce networks with different architectures to generate complementary evidence for unlabeled samples and adopt an improved class-aware evidential fusion to guide the confident synthesis of evidential predictions sourced from diverse architectural networks. Second, utilizing the uncertainty in the fused evidence, we design an asymptotic Fisher information-based evidential learning strategy. This strategy enables the model to initially focus on unlabeled samples with more reliable pseudo-labels, gradually shifting attention to samples with lower-quality pseudo-labels while avoiding over-penalization of mislabeled classes in high data uncertainty samples. Additionally, for labeled data, we continue to adopt an uncertainty-driven asymptotic learning strategy, gradually guiding the model to focus on challenging voxels. Extensive experiments on five mainstream datasets have demonstrated that MEDL achieves state-of-the-art performance.
Author	He, Yuanpeng Li, Lijian Pun, Chi-Man Jiao, Wenpin Bi, Yali Jin, Zhi
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Snippet	Existing semi-supervised medical segmentation co-learning frameworks have realized that model performance can be diminished by the biases in model recognition...
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SubjectTerms	Biomedical imaging Class-aware evidential fusion Data models Deep learning Heterogeneous networks Image segmentation Mutual evidential deep learning Predictive models Reliability Semi-supervised medical segmentation Semisupervised learning Training Uncertainty
Title	Mutual Evidential Deep Learning for Semi-supervised Medical Image Segmentation
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