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An attack-defense game on interdependent networks

Rui Peng, Di Wu, Mengyao Sun, Shaomin Wu

2020Journal of the Operational Research Society24 citationsDOI

Abstract

This paper analyzes the optimal strategies for an attacker and a defender in an attack-defense game on a network consisting of interdependent subnetworks. The defender moves first and allocates its resource to protect the network nodes. The attacker then moves and allocates its resources to attack the network nodes. The binary decision diagram is employed to obtain all potential states of the network system after attack. Considering each of its opponent’s strategies, the game player tries to maximize its own cumulative prospect value. The backward induction method is employed to obtain the game players’ optimal strategies, respectively. Different resource relationships are analyzed to testify the robustness of the main conclusions and players’ risk attitudes are also investigated. Numerical examples are used to illustrate the analysis.

Topics & Concepts

InterdependenceComputer scienceGame theoryRobustness (evolution)AdversaryComputer securityOperations researchBinary decision diagramResource (disambiguation)Computer networkMicroeconomicsEconomicsEngineeringLawGeneBiochemistryPolitical scienceTheoretical computer scienceChemistryInfrastructure Resilience and Vulnerability AnalysisOpinion Dynamics and Social InfluenceInformation and Cyber Security
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