Co-evidential fusion with information volume for semi-supervised medical image segmentation

IF 7.5 1区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Pattern Recognition Pub Date : 2025-04-10 DOI:10.1016/j.patcog.2025.111639

Yuanpeng He , Lijian Li , Tianxiang Zhan , Chi-Man Pun , Wenpin Jiao , Zhi Jin

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引用次数: 0

Abstract

Although existing semi-supervised image segmentation methods have achieved good performance, they cannot effectively utilize multiple sources of voxel-level uncertainty for targeted learning. Therefore, we propose two main improvements. First, we introduce a novel pignistic co-evidential fusion strategy using generalized evidential deep learning, extended by traditional D–S evidence theory, to obtain a more precise uncertainty measure for each voxel in medical samples. This assists the model in learning mixed labeled information and establishing semantic associations between labeled and unlabeled data. Second, we introduce the concept of information volume of mass function (IVUM) to evaluate the constructed evidence, implementing two evidential learning schemes. One optimizes evidential deep learning by combining the information volume of the mass function with original uncertainty measures. The other integrates the learning pattern based on the co-evidential fusion strategy, using IVUM to design a new optimization objective. Experiments on four datasets demonstrate the competitive performance of our method.

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基于信息量的联合证据融合半监督医学图像分割

虽然现有的半监督图像分割方法已经取得了很好的效果，但它们不能有效地利用体素级不确定性的多个来源进行目标学习。因此，我们提出两个主要改进。首先，在传统的D-S证据理论的基础上，采用广义证据深度学习引入了一种新的pignistic联合证据融合策略，以获得医学样本中每个体素的更精确的不确定性度量。这有助于模型学习混合标记信息，并在标记和未标记数据之间建立语义关联。其次，引入信息量质量函数（information volume of mass function， IVUM）的概念对构建的证据进行评价，实现了两种证据学习方案。一种方法通过将质量函数的信息量与原始不确定性测度相结合来优化证据深度学习。另一种是基于协证据融合策略整合学习模式，利用IVUM设计新的优化目标。在四个数据集上的实验证明了我们的方法具有竞争力的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Pattern Recognition 工程技术-工程：电子与电气

CiteScore

14.40

自引率

16.20%

发文量

683

审稿时长

5.6 months

期刊介绍： The field of Pattern Recognition is both mature and rapidly evolving, playing a crucial role in various related fields such as computer vision, image processing, text analysis, and neural networks. It closely intersects with machine learning and is being applied in emerging areas like biometrics, bioinformatics, multimedia data analysis, and data science. The journal Pattern Recognition, established half a century ago during the early days of computer science, has since grown significantly in scope and influence.