Optimal allocation of node capacity in cascade-robustness networks

Zhen Chen; Jun Zhang; Wen Bo Du; Oriol Lordan; Jiangjun Tang

doi:10.1371/journal.pone.0141360

Optimal allocation of node capacity in cascade-robustness networks

Zhen Chen
, Jun Zhang
, Wen Bo Du
, Oriol Lordan
, Jiangjun Tang

School of Electronic and Information Engineering

Beihang University
Beijing Key Laboratory for Network-based Cooperative Air Traffic Management
University of New South Wales
Polytechnic University of Catalonia

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

The robustness of large scale critical infrastructures, which can be modeled as complex networks, is of great significance. One of the most important means to enhance robustness is to optimize the allocation of resources. Traditional allocation of resources is mainly based on the topology information, which is neither realistic nor systematic. In this paper, we try to build a framework for searching for the most favorable pattern of node capacity allocation to reduce the vulnerability to cascading failures at a low cost. A nonlinear and multi-objective optimization model is proposed and tackled using a particle swarm optimization algorithm (PSO). It is found that the network becomes more robust and economical when less capacity is left on the heavily loaded nodes and the optimized network performs better resisting noise. Our work is helpful in designing a robust economical network.

Original language	English
Article number	e0141360
Journal	PLOS ONE
Volume	10
Issue number	10
DOIs	https://doi.org/10.1371/journal.pone.0141360
State	Published - 23 Oct 2015

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abstract = "The robustness of large scale critical infrastructures, which can be modeled as complex networks, is of great significance. One of the most important means to enhance robustness is to optimize the allocation of resources. Traditional allocation of resources is mainly based on the topology information, which is neither realistic nor systematic. In this paper, we try to build a framework for searching for the most favorable pattern of node capacity allocation to reduce the vulnerability to cascading failures at a low cost. A nonlinear and multi-objective optimization model is proposed and tackled using a particle swarm optimization algorithm (PSO). It is found that the network becomes more robust and economical when less capacity is left on the heavily loaded nodes and the optimized network performs better resisting noise. Our work is helpful in designing a robust economical network.",

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AB - The robustness of large scale critical infrastructures, which can be modeled as complex networks, is of great significance. One of the most important means to enhance robustness is to optimize the allocation of resources. Traditional allocation of resources is mainly based on the topology information, which is neither realistic nor systematic. In this paper, we try to build a framework for searching for the most favorable pattern of node capacity allocation to reduce the vulnerability to cascading failures at a low cost. A nonlinear and multi-objective optimization model is proposed and tackled using a particle swarm optimization algorithm (PSO). It is found that the network becomes more robust and economical when less capacity is left on the heavily loaded nodes and the optimized network performs better resisting noise. Our work is helpful in designing a robust economical network.

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Optimal allocation of node capacity in cascade-robustness networks

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