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Power-law distribution of degree–degree distance: A better representation of the scale-free property of complex networks

Bin Zhou, Xiangyi Meng, H. Eugene Stanley

2020Proceedings of the National Academy of Sciences63 citationsDOIOpen Access PDF

Abstract

10, 1017 (2019)], it was claimed that the degree distributions of real-world networks are rarely power law under statistical tests. Here, we attempt to address this issue by defining a fundamental property possessed by each link, the degree-degree distance, the distribution of which also shows signs of being power law by our empirical study. Surprisingly, although full-range statistical tests show that degree distributions are not often power law in real-world networks, we find that in more than half of the cases the degree-degree distance distributions can still be described by power laws. To explain these findings, we introduce a bidirectional preferential selection model where the link configuration is a randomly weighted, two-way selection process. The model does not always produce solid power-law distributions but predicts that the degree-degree distance distribution exhibits stronger power-law behavior than the degree distribution of a finite-size network, especially when the network is dense. We test the strength of our model and its predictive power by examining how real-world networks evolve into an overly dense stage and how the corresponding distributions change. We propose that being scale free is a property of a complex network that should be determined by its underlying mechanism (e.g., preferential attachment) rather than by apparent distribution statistics of finite size. We thus conclude that the degree-degree distance distribution better represents the scale-free property of a complex network.

Topics & Concepts

Degree distributionDegree (music)Scale-free networkPower lawScale (ratio)Preferential attachmentDistribution (mathematics)Property (philosophy)Statistical physicsComplex networkMathematicsRepresentation (politics)StatisticsCombinatoricsLawMathematical analysisPhysicsPolitical scienceQuantum mechanicsPoliticsEpistemologyPhilosophyAcousticsComplex Network Analysis TechniquesOpinion Dynamics and Social InfluenceComplex Systems and Time Series Analysis
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