Transfer operators on graphs: spectral clustering and beyond

IF 2.6 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
Stefan Klus, Maia Trower
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引用次数: 0

Abstract

Graphs and networks play an important role in modeling and analyzing complex interconnected systems such as transportation networks, integrated circuits, power grids, citation graphs, and biological and artificial neural networks. Graph clustering algorithms can be used to detect groups of strongly connected vertices and to derive coarse-grained models. We define transfer operators such as the Koopman operator and the Perron–Frobenius operator on graphs, study their spectral properties, introduce Galerkin projections of these operators, and illustrate how reduced representations can be estimated from data. In particular, we show that spectral clustering of undirected graphs can be interpreted in terms of eigenfunctions of the Koopman operator and propose novel clustering algorithms for directed graphs based on generalized transfer operators. We demonstrate the efficacy of the resulting algorithms on several benchmark problems and provide different interpretations of clusters.
图上的转移算子:频谱聚类及其他
图和网络在模拟和分析复杂的互连系统(如交通网络、集成电路、电网、引文图以及生物和人工神经网络)中发挥着重要作用。图聚类算法可用于检测强连接顶点群,并推导出粗粒度模型。我们定义了图上的 Koopman 算子和 Perron-Frobenius 算子等转移算子,研究了它们的频谱特性,引入了这些算子的 Galerkin 投影,并说明了如何从数据中估算简化表示。我们特别指出,无向图的谱聚类可以用 Koopman 算子的特征函数来解释,并提出了基于广义转移算子的有向图新聚类算法。我们在几个基准问题上演示了所产生的算法的有效性,并提供了对聚类的不同解释。
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来源期刊
Journal of Physics Complexity
Journal of Physics Complexity Computer Science-Information Systems
CiteScore
4.30
自引率
11.10%
发文量
45
审稿时长
14 weeks
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