动态网络中演化群体建模的贝叶斯非参数隐空间方法

IF 4.9 2区数学 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Bayesian Analysis Pub Date : 2023-03-01 DOI:10.1214/21-ba1300

Joshua Daniel Loyal, Yuguo Chen

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引用次数: 3

摘要

动态(时变)网络数据中社区的演化是一个重要的研究课题。理解这些动态网络的一种流行方法是将并矢关系嵌入到潜在度量空间中。虽然使用这种方法进行集群的方法适用于动态网络，但它们都假定是静态的社区结构。本文提出了一个动态网络的贝叶斯非参数模型，该模型可以对社区结构不断变化的网络进行建模。我们的模型扩展了现有的潜在空间方法，通过层次Dirichlet过程隐马尔可夫模型显式地建模组的添加、删除、分裂和合并。我们提出的分层Dirichlet过程潜在位置聚类模型(HDP-LPCM)结合了传递性，对数据的个体和群体层面进行建模，并避免了大多数流行方法所需的群体数量的计算成本高昂的选择。我们提供了一种马尔可夫链蒙特卡罗估计算法，并展示了它在冷战时期军事联盟网络和《权力的游戏》电视剧构建的叙事网络中检测不断变化的社区结构的能力。

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A Bayesian Nonparametric Latent Space Approach to Modeling Evolving Communities in Dynamic Networks

The evolution of communities in dynamic (time-varying) network data is a prominent topic of interest. A popular approach to understanding these dynamic networks is to embed the dyadic relations into a latent metric space. While methods for clustering with this approach exist for dynamic networks, they all assume a static community structure. This paper presents a Bayesian nonparametric model for dynamic networks that can model networks with evolving community structures. Our model extends existing latent space approaches by explicitly modeling the additions, deletions, splits, and mergers of groups with a hierarchical Dirichlet process hidden Markov model. Our proposed approach, the hierarchical Dirichlet process latent position cluster model (HDP-LPCM), incorporates transitivity, models both individual and group level aspects of the data, and avoids the computationally expensive selection of the number of groups required by most popular methods. We provide a Markov chain Monte Carlo estimation algorithm and demonstrate its ability to detect evolving community structure in a network of military alliances during the Cold War and a narrative network constructed from the Game of Thrones television series.

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来源期刊

Bayesian Analysis 数学-数学跨学科应用

CiteScore

6.50

自引率

13.60%

发文量

审稿时长

>12 weeks

期刊介绍： Bayesian Analysis is an electronic journal of the International Society for Bayesian Analysis. It seeks to publish a wide range of articles that demonstrate or discuss Bayesian methods in some theoretical or applied context. The journal welcomes submissions involving presentation of new computational and statistical methods; critical reviews and discussions of existing approaches; historical perspectives; description of important scientific or policy application areas; case studies; and methods for experimental design, data collection, data sharing, or data mining. Evaluation of submissions is based on importance of content and effectiveness of communication. Discussion papers are typically chosen by the Editor in Chief, or suggested by an Editor, among the regular submissions. In addition, the Journal encourages individual authors to submit manuscripts for consideration as discussion papers.