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Complex networks with complex weights

Lucas Böttcher, Mason A. Porter

2024Physical review. E32 citationsDOI

Abstract

In many studies, it is common to use binary (i.e., unweighted) edges to examine networks of entities that are either adjacent or not adjacent. Researchers have generalized such binary networks to incorporate edge weights, which allow one to encode node-node interactions with heterogeneous intensities or frequencies (e.g., in transportation networks, supply chains, and social networks). Most such studies have considered real-valued weights, despite the fact that networks with complex weights arise in fields as diverse as quantum information, quantum chemistry, electrodynamics, rheology, and machine learning. Many of the standard network-science approaches in the study of classical systems rely on the real-valued nature of edge weights, so it is necessary to generalize them if one seeks to use them to analyze networks with complex edge weights. In this paper, we examine how standard network-analysis methods fail to capture structural features of networks with complex edge weights. We then generalize several network measures to the complex domain and show that random-walk centralities provide a useful approach to examine node importances in networks with complex weights.

Topics & Concepts

Complex networkNode (physics)Complex systemComputer scienceEnhanced Data Rates for GSM EvolutionTheoretical computer scienceENCODEBinary numberDomain (mathematical analysis)Artificial intelligenceMathematicsPhysicsArithmeticWorld Wide WebQuantum mechanicsBiochemistryChemistryGeneMathematical analysisComplex Network Analysis TechniquesOpinion Dynamics and Social InfluenceFunctional Brain Connectivity Studies
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