Anton-David Almasan, Sergey Shvydun, Ingo Scholtes, Piet Van Mieghem
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Generating Temporal Contact Graphs Using Random Walkers
We study human mobility networks through timeseries of contacts between
individuals. Our proposed Random Walkers Induced temporal Graph (RWIG) model
generates temporal graph sequences based on independent random walkers that
traverse an underlying graph in discrete time steps. Co-location of walkers at
a given node and time defines an individual-level contact. RWIG is shown to be
a realistic model for temporal human contact graphs, which may place RWIG on a
same footing as the Erdos-Renyi (ER) and Barabasi-Albert (BA) models for fixed
graphs. Moreover, RWIG is analytically feasible: we derive closed form
solutions for the probability distribution of contact graphs.
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