English

Robustness on distributed coupling networks with multiple dependent links from finite functional components

Physics and Society 2023-11-01 v2 Mathematical Physics math.MP

Abstract

The rapid advancement of technology underscores the critical importance of robustness in complex network systems. This paper presents a framework for investigating the structural robustness of interconnected network models. This paper presents a framework for investigating the structural robustness of interconnected network models. In this context, we define functional nodes within interconnected networks as those belonging to clusters of size greater than or equal to ss in the local network, while maintaining at least MM significant dependency links. This model presents precise analytical expressions for the cascading failure process, the proportion of functional nodes in the stable state, and a methodology for calculating the critical threshold. The findings reveal an abrupt phase transition behavior in the system following the initial failure. Additionally, we observe that the system necessitates higher internal connection densities to avert collapse, especially when more effective support links are required. These results are validated through simulations using both Poisson and power-law network models, which align closely with the theoretical outcomes. The method proposed in this study can assist decision-makers in designing more resilient reality-dependent systems and formulating optimal protection strategies.

Keywords

Cite

@article{arxiv.2310.19469,
  title  = {Robustness on distributed coupling networks with multiple dependent links from finite functional components},
  author = {Dong Gaogao and Sun Nannan and Wang Fan},
  journal= {arXiv preprint arXiv:2310.19469},
  year   = {2023}
}
R2 v1 2026-06-28T13:05:47.799Z