利用图的膨胀动态拉普拉奇对随时间变化的网络进行频谱聚类

arXiv - MATH - Dynamical Systems Pub Date : 2024-09-18 DOI:arxiv-2409.11984

Gary Froyland, Manu Kalia, Peter Koltai

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引用次数: 0

摘要

复杂的时变网络是各种时空现象的重要模型。网络的功能在很大程度上取决于它们的连通性，然而确定时变网络中的群落的可靠技术却仍然难以捉摸。我们将流形上连续时间动力学中成功的谱技术应用到图环境中，以填补这一空白。我们为图提出了一个{it inflated dynamic Laplacian}（充气动态拉普拉奇），并发展了一种光谱理论来支持相应的算法实现。我们基于膨胀动态拉普拉奇的特征向量和对这些特征向量进行专门的稀疏特征基础逼近（SEBA）后处理，为多路复用和非多路复用网络开发了谱聚类方法。我们证明了我们的方法可以超越应用于时空和逐层的莱顿算法，我们还分析了美国参议院的投票数据（参议员随着国会的发展来来去去），以量化时间中不断增加的极化。

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Spectral clustering of time-evolving networks using the inflated dynamic Laplacian for graphs

Complex time-varying networks are prominent models for a wide variety of spatiotemporal phenomena. The functioning of networks depends crucially on their connectivity, yet reliable techniques for determining communities in spacetime networks remain elusive. We adapt successful spectral techniques from continuous-time dynamics on manifolds to the graph setting to fill this gap. We formulate an {\it inflated dynamic Laplacian} for graphs and develop a spectral theory to underpin the corresponding algorithmic realisations. We develop spectral clustering approaches for both multiplex and non-multiplex networks, based on the eigenvectors of the inflated dynamic Laplacian and specialised Sparse EigenBasis Approximation (SEBA) post-processing of these eigenvectors. We demonstrate that our approach can outperform the Leiden algorithm applied both in spacetime and layer-by-layer, and we analyse voting data from the US senate (where senators come and go as congresses evolve) to quantify increasing polarisation in time.

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arXiv - MATH - Dynamical Systems

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