Bayesian network structure learning based on discrete artificial jellyfish search: Leveraging scoring and graphical properties

IF 8.2 1区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Swarm and Evolutionary Computation Pub Date : 2024-11-26 DOI:10.1016/j.swevo.2024.101781

Xuchen Yan, Xiaoguang Gao, Zidong Wang, Qianglong Wang, Xiaohan Liu

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引用次数: 0

Abstract

It is challenging to obtain a credible Bayesian network (BN) from data to represent uncertain knowledge. Current swarm intelligence optimization methods lack targeted improvements based on domain-specific knowledge, which limits the learning accuracy and convergence speed. To address this gap, we propose a novel discrete artificial jellyfish search method for structure learning that leverages the scoring and graphical properties of BNs. Inspired by scoring functions and equivalence classes, a directional crossover operator is designed to efficiently narrow the crossover range. Additionally, a bidirectional search operator uses score increment guidance during mutations. By incorporating adjacency matrix series, global loop finding and deleting operators are applied to identify and eliminate all the minimalist loops simultaneously. They can avoid omitting the optimal solution. The experimental results show that the proposed algorithm outperforms the existing state-of-the-art algorithms in the scoring and convergence speed, which achieves an effective integration of group intelligence and structure learning.

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基于离散人工水母搜索的贝叶斯网络结构学习：利用评分和图形特性

从数据中获取可信的贝叶斯网络（BN）来表示不确定的知识是一项挑战。目前的蜂群智能优化方法缺乏基于特定领域知识的针对性改进，从而限制了学习精度和收敛速度。为了弥补这一不足，我们提出了一种新颖的离散人工水母搜索结构学习方法，该方法利用了贝叶斯网络的评分和图形特性。受评分函数和等价类的启发，我们设计了一种定向交叉算子，以有效缩小交叉范围。此外，双向搜索算子在突变过程中使用得分增量指导。通过结合邻接矩阵序列，全局循环查找和删除算子可同时识别并消除所有最小循环。它们可以避免遗漏最优解。实验结果表明，所提出的算法在得分和收敛速度上都优于现有的先进算法，实现了群体智能和结构学习的有效结合。

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来源期刊

Swarm and Evolutionary Computation COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCEC-COMPUTER SCIENCE, THEORY & METHODS

CiteScore

16.00

自引率

12.00%

发文量

169

期刊介绍： Swarm and Evolutionary Computation is a pioneering peer-reviewed journal focused on the latest research and advancements in nature-inspired intelligent computation using swarm and evolutionary algorithms. It covers theoretical, experimental, and practical aspects of these paradigms and their hybrids, promoting interdisciplinary research. The journal prioritizes the publication of high-quality, original articles that push the boundaries of evolutionary computation and swarm intelligence. Additionally, it welcomes survey papers on current topics and novel applications. Topics of interest include but are not limited to: Genetic Algorithms, and Genetic Programming, Evolution Strategies, and Evolutionary Programming, Differential Evolution, Artificial Immune Systems, Particle Swarms, Ant Colony, Bacterial Foraging, Artificial Bees, Fireflies Algorithm, Harmony Search, Artificial Life, Digital Organisms, Estimation of Distribution Algorithms, Stochastic Diffusion Search, Quantum Computing, Nano Computing, Membrane Computing, Human-centric Computing, Hybridization of Algorithms, Memetic Computing, Autonomic Computing, Self-organizing systems, Combinatorial, Discrete, Binary, Constrained, Multi-objective, Multi-modal, Dynamic, and Large-scale Optimization.