Communication Dans Un Congrès Année : 2025

Credal discrete classifier

Résumé

This paper presents a novel extension of the discrete Bayesian classifier (DBC) into a set-valued classification framework grounded in imprecise probability theory. The standard DBC framework, which relies on partitioning the input space into profiles and estimating class-conditional probabilities, may not be very robust to distribution changes or imperfections in observed data. In the hope to mitigate such issues, we introduce the Credal Discrete Classifier (CDC), an imprecise-probabilistic extension of the traditional Bayesian approach. By representing uncertainties in the estimated probabilities through belief functions, CDC offers interval-valued risks and set-valued decisions, thereby enhancing robustness. Experimental results on several benchmark datasets demonstrate that CDC effectively balances accuracy and determinacy by allowing for set-valued predictions in uncertain contexts, often outperforming or matching traditional precise classifiers.

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hal-05363499 , version 1 (13-11-2025)

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  • HAL Id : hal-05363499 , version 1

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Wenlong Chen, Cyprien Gilet, Benjamin Quost, Sébastien Destercke. Credal discrete classifier. 14th International Symposium on Imprecise Probabilities: Theories and Applications (ISIPTA 2025), Jul 2025, Bielefeld (Germany), Germany. ⟨hal-05363499⟩
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