Identifying influential node groups in networks with core-periphery structure

Gyuho Bae, Philip A. Knight, Young-Ho Eom
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Abstract

Identifying influential spreaders is a crucial problem for practical applications in network science. The core-periphery(C-P) structure, common in many real-world networks, comprises a densely interconnected group of nodes(core) and the rest of the sparsely connected nodes subordinated to the core(periphery). Core nodes are expected to be more influential than periphery nodes generally, but recent studies suggest that this is not the case in some networks. In this work, we look for mesostructural conditions that arise when core nodes are significantly more influential than periphery nodes. In particular, we investigate the roles of the internal and external connectivity of cores in their relative influence. We observe that the internal and external connectivity of cores are broadly distributed, and the relative influence of the cores is also broadly distributed in real-world networks. Our key finding is that the internal connectivity of cores is positively correlated with their relative influence, whereas the relative influence increases up to a certain value of the external connectivity and decreases thereafter. Finally, results from the model-generated networks clarify the observations from the real-world networks. Our findings provide a structural condition for influential cores in networks and shed light on why some cores are influential and others are not.
在具有核心-外围结构的网络中识别有影响力的节点群
识别有影响力的传播者是网络科学实际应用中的一个关键问题。核心-外围(C-P)结构在许多现实世界的网络中都很常见,它由一组紧密互联的节点(核心节点)和从属于核心节点(外围节点)的其余稀疏互联节点组成。一般来说,人们认为核心节点比外围节点更有影响力,但最近的研究表明,在某些网络中情况并非如此。在这项工作中,我们寻找当核心节点的影响力明显大于外围节点时出现的中间结构条件。特别是,我们研究了核心节点的内部和外部连通性在其相对影响力中的作用。我们发现,在现实世界的网络中,核心节点的内部和外部连通性分布广泛,核心节点的相对影响力也分布广泛。我们的主要发现是,核心的内部连通性与其相对影响力呈正相关,而相对影响力在外部连通性达到一定值时会增加,之后会减小。最后,模型生成网络的结果澄清了真实世界网络的观察结果。我们的发现为网络中具有影响力的核心提供了结构条件,并揭示了为什么一些核心具有影响力,而另一些则没有。
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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