Being Bayesian about learning Bayesian networks from ordinal data

IF 3.2 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

International Journal of Approximate Reasoning Pub Date : 2024-04-29 DOI:10.1016/j.ijar.2024.109205

Marco Grzegorczyk

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引用次数: 0

Abstract

In this paper we propose a Bayesian approach for inferring Bayesian network (BN) structures from ordinal data. Our approach can be seen as the Bayesian counterpart of a recently proposed frequentist approach, referred to as the ‘ordinal structure expectation maximization’ (OSEM) method. Like for the OSEM method, the key idea is to assume that each ordinal variable originates from a Gaussian variable that can only be observed in discretized form, and that the dependencies in the latent Gaussian space can be modeled by BNs; i.e. by directed acyclic graphs (DAGs). Our Bayesian method combines the ‘structure MCMC sampler’ for DAG posterior sampling, a slightly modified version of the ‘Bayesian metric for Gaussian networks having score equivalence’ (BGe score), the concept of the ‘extended rank likelihood’, and a recently proposed algorithm for posterior sampling the parameters of Gaussian BNs. In simulation studies we compare the new Bayesian approach and the OSEM method in terms of the network reconstruction accuracy. The empirical results show that the new Bayesian approach leads to significantly improved network reconstruction accuracies.

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从序数数据中学习贝叶斯网络的贝叶斯方法

本文提出了一种从序数数据推断贝叶斯网络（BN）结构的贝叶斯方法。我们的方法可以看作是最近提出的一种频繁主义方法的贝叶斯对应方法，即 "序数结构期望最大化"（OSEM）方法。与 OSEM 方法一样，我们的关键思路是假设每个序变量都来自于一个高斯变量，而这个高斯变量只能以离散的形式被观测到，并且潜在高斯空间中的依赖关系可以用 BN（即有向无环图（DAG））来建模。我们的贝叶斯方法结合了用于 DAG 后验采样的 "结构 MCMC 采样器"、稍作修改的 "具有分数等价性的高斯网络贝叶斯度量"（BGe score）版本、"扩展秩似然法 "概念以及最近提出的用于高斯 BN 参数后验采样的算法。在模拟研究中，我们比较了新贝叶斯方法和 OSEM 方法的网络重建精度。实证结果表明，新贝叶斯方法显著提高了网络重建精度。

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

International Journal of Approximate Reasoning 工程技术-计算机：人工智能

CiteScore

6.90

自引率

12.80%

发文量

170

审稿时长

67 days

期刊介绍： The International Journal of Approximate Reasoning is intended to serve as a forum for the treatment of imprecision and uncertainty in Artificial and Computational Intelligence, covering both the foundations of uncertainty theories, and the design of intelligent systems for scientific and engineering applications. It publishes high-quality research papers describing theoretical developments or innovative applications, as well as review articles on topics of general interest. Relevant topics include, but are not limited to, probabilistic reasoning and Bayesian networks, imprecise probabilities, random sets, belief functions (Dempster-Shafer theory), possibility theory, fuzzy sets, rough sets, decision theory, non-additive measures and integrals, qualitative reasoning about uncertainty, comparative probability orderings, game-theoretic probability, default reasoning, nonstandard logics, argumentation systems, inconsistency tolerant reasoning, elicitation techniques, philosophical foundations and psychological models of uncertain reasoning. Domains of application for uncertain reasoning systems include risk analysis and assessment, information retrieval and database design, information fusion, machine learning, data and web mining, computer vision, image and signal processing, intelligent data analysis, statistics, multi-agent systems, etc.