用于大规模网络中社群检测的分布式伪似然法

IF 4 3区计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS ACM Transactions on Knowledge Discovery from Data Pub Date : 2024-04-16 DOI:10.1145/3657300

Jiayi Deng, Danyang Huang, Bo Zhang

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引用次数: 0

摘要

本文提出了一种分布式伪似然法（DPL），可以方便地识别大规模网络的群落结构。具体来说，我们首先提出了一种分块分割法，将大规模网络数据划分为若干子网络，并将其分配给多个工作人员。为简单起见，我们假设经典的随机块模型。然后，通过迭代实现 DPL 算法，对局部伪似然函数之和进行分布式优化。每次迭代时，工作者都会更新其本地社区标签并与主站通信。然后，主服务器将组合估计器广播给每个工作者，以进行新的迭代步骤。基于分布式系统，DPL 大大降低了传统伪似然法使用单机的计算复杂度。此外，为了确保统计精度，我们从理论上讨论了对工人样本量的要求。此外，我们还将 DPL 方法扩展到估计度校正随机块模型。通过大量的数值研究和实际数据分析，证明了所提出的分布式算法的优越性能。

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Distributed Pseudo-Likelihood Method for Community Detection in Large-Scale Networks

This paper proposes a distributed pseudo-likelihood method (DPL) to conveniently identify the community structure of large-scale networks. Specifically, we first propose a block-wise splitting method to divide large-scale network data into several subnetworks and distribute them among multiple workers. For simplicity, we assume the classical stochastic block model. Then, the DPL algorithm is iteratively implemented for the distributed optimization of the sum of the local pseudo-likelihood functions. At each iteration, the worker updates its local community labels and communicates with the master. The master then broadcasts the combined estimator to each worker for the new iterative steps. Based on the distributed system, DPL significantly reduces the computational complexity of the traditional pseudo-likelihood method using a single machine. Furthermore, to ensure statistical accuracy, we theoretically discuss the requirements of the worker sample size. Moreover, we extend the DPL method to estimate degree-corrected stochastic block models. The superior performance of the proposed distributed algorithm is demonstrated through extensive numerical studies and real data analysis.

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来源期刊

ACM Transactions on Knowledge Discovery from Data COMPUTER SCIENCE, INFORMATION SYSTEMS-COMPUTER SCIENCE, SOFTWARE ENGINEERING

CiteScore

6.70

自引率

5.60%

发文量

172

审稿时长

3 months

期刊介绍： TKDD welcomes papers on a full range of research in the knowledge discovery and analysis of diverse forms of data. Such subjects include, but are not limited to: scalable and effective algorithms for data mining and big data analysis, mining brain networks, mining data streams, mining multi-media data, mining high-dimensional data, mining text, Web, and semi-structured data, mining spatial and temporal data, data mining for community generation, social network analysis, and graph structured data, security and privacy issues in data mining, visual, interactive and online data mining, pre-processing and post-processing for data mining, robust and scalable statistical methods, data mining languages, foundations of data mining, KDD framework and process, and novel applications and infrastructures exploiting data mining technology including massively parallel processing and cloud computing platforms. TKDD encourages papers that explore the above subjects in the context of large distributed networks of computers, parallel or multiprocessing computers, or new data devices. TKDD also encourages papers that describe emerging data mining applications that cannot be satisfied by the current data mining technology.