Applied Sciences (May 2018)

On the Robustness of No-Feedback Interdependent Networks

  • Junde Wang,
  • Songyang Lao,
  • Shengjun Huang,
  • Liang Bai,
  • Lvlin Hou

DOI
https://doi.org/10.3390/app8050835
Journal volume & issue
Vol. 8, no. 5
p. 835

Abstract

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The continuous operation of modern society is dominated by interdependent networks, such as energy networks, communication networks, and traffic networks. As a result, the robustness of interdependent networks has become increasingly important in recent years. On the basis of past research, a no-feedback interdependent networks model is introduced. Compared with previous work, this model is more consistent with the characteristics of real interdependent systems. In addition, two types of failure modes, unilateral failure and bilateral failure, are defined. For each failure mode, the influence of coupling strength and dependency strength on the robustness of no-feedback interdependent networks was analyzed and discussed in relation to various giant component sizes. The simulation results indicated that the robustness of the no-feedback interdependent networks was inversely proportional to coupling strength and dependency strength, and the effect of coupling strength and dependency strength on the robustness was equivalent. These conclusions are beneficial for helping researchers and engineers to build more robust interdependent systems.

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