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Indirect influence in social networks as an induced percolation phenomenon

Jiarong Xie, Xiangrong Wang, Ling Feng, Jin-Hua Zhao, Wenyuan Liu, Yamir Moreno, Yanqing Hu

2022Proceedings of the National Academy of Sciences19 citationsDOIOpen Access PDF

Abstract

Percolation theory has been widely used to study phase transitions in network systems. It has also successfully explained various macroscopic spreading phenomena across different fields. Yet, the theoretical frameworks have been focusing on direct interactions among nodes, while recent empirical observations have shown that indirect interactions are common in many network systems like social and ecological networks, among others. By investigating the detailed mechanism of both direct and indirect influence on scientific collaboration networks, here we show that indirect influence can play the dominant role in behavioral influence. To address the lack of theoretical understanding of such indirect influence on the macroscopic behavior of the system, we propose a percolation mechanism of indirect interactions called induced percolation. Surprisingly, our model exhibits a unique anisotropy property. Specifically, directed networks show first-order abrupt transitions as opposed to the second-order continuous transition in the same network structure but with undirected links. A mix of directed and undirected links leads to rich hybrid phase transitions. Furthermore, a unique feature of the nonmonotonic pattern is observed in network connectivities near the critical point. We also present an analytical framework to characterize the proposed induced percolation, paving the way to further understanding network dynamics with indirect interactions.

Topics & Concepts

Percolation (cognitive psychology)Directed percolationStatistical physicsPercolation theoryComputer scienceComplex networkPhase transitionPercolation thresholdContinuum percolation theoryMechanism (biology)Interdependent networksTopology (electrical circuits)PhysicsMathematicsPercolation critical exponentsCritical exponentPsychologyNeuroscienceCondensed matter physicsQuantum mechanicsWorld Wide WebCombinatoricsElectrical resistivity and conductivityComplex Network Analysis TechniquesOpinion Dynamics and Social InfluenceEvolutionary Game Theory and Cooperation