Overcoming negative weighting in uncertainty-based methods: a multi-uncertainty clustering method for evidence fusion

Overcoming negative weighting in uncertainty-based methods: a multi-uncertainty clustering method for evidence fusion

Abstract In recent years, Dempster-Shafer evidence theory has been widely applied in multi-source information fusion. To address the unreasonable results under highly conflicting evidence, many methods have been proposed, particularly uncertainty-based weighting methods. However, these methods exhib...

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Bibliographic Details
Main Authors: Zhike Qiu, Yuhao Qin, Zichong Chen, Luping Zeng, Rui Cai
Format: Article
Language:English
Published: Springer 2025-07-01
Series:Complex & Intelligent Systems
Subjects:
Dempster-Shafer evidence theory
Uncertainty measures
Conflict management
K-means algorithm
Evidence combination
Online Access:https://doi.org/10.1007/s40747-025-01999-2
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Summary:Abstract In recent years, Dempster-Shafer evidence theory has been widely applied in multi-source information fusion. To address the unreasonable results under highly conflicting evidence, many methods have been proposed, particularly uncertainty-based weighting methods. However, these methods exhibit a negative weighting phenomenon in certain scenarios, where abnormal evidence is assigned higher weight than normal evidence. This paper proposes a multi-uncertainty clustering method by systematically analyzing the limitations of uncertainty-based weighting methods. We employ Spearman correlation coefficients to select appropriate uncertainty measures. These selected measures are calculated for evidence sources and then input into an improved K-Means algorithm for evidence clustering. For each formed evidence cluster, average evidence is generated to enhance the expression of intra-cluster common features. The support degree of different categories is then quantified based on cluster size. Furthermore, this research designs a composite weight that combines cluster weight with similarity weight, providing a comprehensive evaluation of evidence reliability from both macro-level category differences and micro-level similarity dimensions. Experimental results demonstrate that the proposed method not only resolves the negative weighting problem in existing uncertainty-based weighting methods but also effectively handles highly conflicting evidence, showing advantages in pattern recognition and other application scenarios.
ISSN:2199-4536
2198-6053

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