Random graph models for dynamic networks

July 26, 2016 Β· Declared Dead Β· πŸ› European Physical Journal B : Condensed Matter Physics

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Authors Xiao Zhang, Cristopher Moore, M. E. J. Newman arXiv ID 1607.07570 Category cs.SI: Social & Info Networks Cross-listed physics.soc-ph Citations 135 Venue European Physical Journal B : Condensed Matter Physics Last Checked 4 months ago
Abstract
We propose generalizations of a number of standard network models, including the classic random graph, the configuration model, and the stochastic block model, to the case of time-varying networks. We assume that the presence and absence of edges are governed by continuous-time Markov processes with rate parameters that can depend on properties of the nodes. In addition to computing equilibrium properties of these models, we demonstrate their use in data analysis and statistical inference, giving efficient algorithms for fitting them to observed network data. This allows us, for instance, to estimate the time constants of network evolution or infer community structure from temporal network data using cues embedded both in the probabilities over time that node pairs are connected by edges and in the characteristic dynamics of edge appearance and disappearance. We illustrate our methods with a selection of applications, both to computer-generated test networks and real-world examples.
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