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A game theoretical method for cost-benefit analysis of malware dissemination prevention

Spyridopoulos, Theodoros ORCID: https://orcid.org/0000-0001-7575-9909, Maraslis, Konstantinos, Mylonas, Alexios, Tryfonas, Theo and Oikonomou, George 2015. A game theoretical method for cost-benefit analysis of malware dissemination prevention. Information Security Journal 24 (4-6) , pp. 164-176. 10.1080/19393555.2015.1092186

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Abstract

Literature in malware proliferation focuses on modeling and analyzing its spread dynamics. Epidemiology models, which are inspired by the characteristics of biological disease spread in human populations, have been used against this threat to analyze the way malware spreads in a network. This work presents a modified version of the commonly used epidemiology models Susceptible Infected Recovered (SIR) and Susceptible Infected Susceptible (SIS), which incorporates the ability to capture the relationships between nodes within a network, along with their effect on malware dissemination process. Drawing upon a model that illustrates the network’s behavior based on the attacker’s and the defender’s choices, we use game theory to compute optimal strategies for the defender to minimize the effect of malware spread, at the same time minimizing the security cost. We consider three defense mechanisms: patch, removal, and patch and removal, which correspond to the defender’s strategy and use probabilistically with a certain rate. The attacker chooses the type of attack according to its effectiveness and cost. Through the interaction between the two opponents we infer the optimal strategy for both players, known as Nash Equilibrium, evaluating the related payoffs. Hence, our model provides a cost-benefit risk management framework for managing malware spread in computer networks.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Computer Science & Informatics
Last Modified: 26 Jan 2023 11:30
URI: https://orca.cardiff.ac.uk/id/eprint/153623

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