Nature Communications (Apr 2023)

Diffusion capacity of single and interconnected networks

  • Tiago A. Schieber,
  • Laura C. Carpi,
  • Panos M. Pardalos,
  • Cristina Masoller,
  • Albert Díaz-Guilera,
  • Martín G. Ravetti

DOI
https://doi.org/10.1038/s41467-023-37323-0
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 9

Abstract

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Abstract Understanding diffusive processes in networks is a significant challenge in complexity science. Networks possess a diffusive potential that depends on their topological configuration, but diffusion also relies on the process and initial conditions. This article presents Diffusion Capacity, a concept that measures a node’s potential to diffuse information based on a distance distribution that considers both geodesic and weighted shortest paths and dynamical features of the diffusion process. Diffusion Capacity thoroughly describes the role of individual nodes during a diffusion process and can identify structural modifications that may improve diffusion mechanisms. The article defines Diffusion Capacity for interconnected networks and introduces Relative Gain, which compares the performance of a node in a single structure versus an interconnected one. The method applies to a global climate network constructed from surface air temperature data, revealing a significant change in diffusion capacity around the year 2000, suggesting a loss of the planet’s diffusion capacity that could contribute to the emergence of more frequent climatic events.