Abstract
Controllability of complex networks has been a hot topic in recent years. Real networks regarded as interdependent networks are always coupled together by multiple networks. The cascading process of interdependent networks including interdependent failure and overload failure will destroy the robustness of controllability for the whole network. Therefore, the optimization of the robustness of interdependent network controllability is of great importance in the research area of complex networks. In this paper, based on the model of interdependent networks constructed first, we determine the cascading process under different proportions of node attacks. Then, the structural controllability of interdependent networks is measured by the minimum driver nodes. Furthermore, we propose a parameter which can be obtained by the structure and minimum driver set of interdependent networks under different proportions of node attacks and analyze the robustness for interdependent network controllability. Finally, we optimize the robustness of interdependent network controllability by redundant design including node backup and redundancy edge backup and improve the redundant design by proposing different strategies according to their cost. Comparative strategies of redundant design are conducted to find the best strategy. Results shows that node backup and redundancy edge backup can indeed decrease those nodes suffering from failure and improve the robustness of controllability. Considering the cost of redundant design, we should choose BBS (betweenness-based strategy) or DBS (degree based strategy) for node backup and HDF(high degree first) for redundancy edge backup. Above all, our proposed strategies are feasible and effective at improving the robustness of interdependent network controllability.
Highlights
With the increasingly wide and deep research into complex networks, such as traffic networks, energy networks, power networks and social networks, complex networks have drawn more and more attention in recent years
This paper has studied seven strategies, which are random selected (RSB), low frequency of interdependent failures first (LFIF), high frequency of interdependent failures first (HFIF), across low and high frequency of interdependent failures (AFIF), high degree first (HDF), low degree first (LDF) and across high and low degree (ADF)
To verify the feasibility and effect of our proposed strategy on the optimization of the robustness of interdependent network controllability, we conduct a series of comparative experiments
Summary
With the increasingly wide and deep research into complex networks, such as traffic networks, energy networks, power networks and social networks, complex networks have drawn more and more attention in recent years. The first question is to ensure whether the complex networks are controllable or not.
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