Physical Review Research (Jul 2020)

Scale-dependent measure of network centrality from diffusion dynamics

  • Alexis Arnaudon,
  • Robert L. Peach,
  • Mauricio Barahona

DOI
https://doi.org/10.1103/PhysRevResearch.2.033104
Journal volume & issue
Vol. 2, no. 3
p. 033104

Abstract

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Classic measures of graph centrality capture distinct aspects of node importance, from the local (e.g., degree) to the global (e.g., closeness). Here we exploit the connection between diffusion and geometry to introduce a multiscale centrality measure. A node is defined to be central if it breaks the metricity of the diffusion as a consequence of the effective boundaries and inhomogeneities in the graph. Our measure is naturally multiscale, as it is computed relative to graph neighborhoods within the varying time horizon of the diffusion. We find that the centrality of nodes can differ widely at different scales. In particular, our measure correlates with degree (i.e., hubs) at small scales and with closeness (i.e., bridges) at large scales, and also reveals the existence of multicentric structures in complex networks. By examining centrality across scales, our measure thus provides an evaluation of node importance relative to local and global processes on the network.