SIR<sub>1</sub>R<sub>2</sub>: Characterizing Malware Propagation in WSNs With Second Immunization

In wireless rechargeable sensors (WRSNs), the system is vulnerable to be attacked by malware. Because of the distributed network structure of WRSNs, the malware attack has great influence on the security system of WRSNs. With the variability in malware, the problem of decryption and coding errors will lead to the malware mutating. In this paper, there are two problems to be solved, including the malware mutation and the charging delay in WRSNs. The malware mutation state and the low-energy state are introduced. Firstly, three different equilibrium solutions of the mutation model are given. Then, the local stability is proven by the characteristic equation, and the system will be stabilized at different equilibrium solutions when the base reproductive number is different. With the condition of charging delay, the bifurcation phenomenon is investigated by using the Hopf bifurcation theory. Furthermore, to improve the security of WRSNs and decrease the control cost, the Pontryagin’s Maximum principle is applied to obtain an optimal control scheme under mutation and charging delay. Finally, the numerical simulation is applied by Matlab to confirm this model. The simulation results show that the mutation malware can be controlled when the delay is less than the maximum threshold.

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“…In Ref. [22], the authors proposed the SIR1R2 with secondary immunity to analyze the feature of malware propagation in WSNs. In Ref.…”

Section: Introductionmentioning

confidence: 99%

Analysis and Control of Malware Mutation Model in Wireless Rechargeable Sensor Network with Charging Delay

et al. 2022

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“…It can not only study the dynamics diffusion process but also position the key nodes and analyze the threshold of virus propagation [14][15][16][17]. The diffusion characteristics of computer network viruses are similar to those of biological viruses, which are latent, infectious, and destructive; thus, the evolution of virus infection among network nodes can be considered, and the SIR model is used to analyze the computer virus diffusion [18][19][20][21][22]. SIR model is introduced to study the mechanism of hacker intrusion diffusion, which has certain innovative significance.…”

Section: Introductionmentioning

confidence: 99%

Information Security Decisions with Consideration of Hacker Intrusion Propagation

Zhao

Zhou

2022

Mathematical Problems in Engineering

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The spread of network attacks is extremely harmful, which poses a great threat to the assets and reputation of firms. Therefore, making a scientific information security strategy is an important task for the continued and stable development of the firms. This paper develops the SIR model of hacker intrusion propagation and then analyzes the evolution trend of hacker intrusion propagation and the conditions of strategy transfer. The research shows that when immune failure and strategy transfer are not considered, the threshold of hacker intrusion propagation is negatively correlated with the probability of invasion, whereas it is positively correlated with the probability of defense success and the externality during outsourcing. In the case of immune failure, there will always be infected firms in the network, where the threshold of hacker intrusion propagation is affected by the proportion of the infected state and the probability of immune failure. When immune failure and strategy transfer occur simultaneously if the externality is positive and high, information security outsourcing can improve firms’ security benefits; if the externality is negative, the firms should stop cooperating with the managed security service provider (MSSP).

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Epidemic Models of Malicious-Code Propagation and Control in Wireless Sensor Networks: An Indepth Review

Nwokoye¹,

Madhusudanan²

2022

Wireless Pers Commun

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SIR₁R₂: Characterizing Malware Propagation in WSNs With Second Immunization

Cited by 7 publications

References 56 publications

Analysis and Control of Malware Mutation Model in Wireless Rechargeable Sensor Network with Charging Delay

Analysis and Control of Malware Mutation Model in Wireless Rechargeable Sensor Network with Charging Delay

Information Security Decisions with Consideration of Hacker Intrusion Propagation

Epidemic Models of Malicious-Code Propagation and Control in Wireless Sensor Networks: An Indepth Review

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SIR1R2: Characterizing Malware Propagation in WSNs With Second Immunization

Cited by 7 publications

References 56 publications

Analysis and Control of Malware Mutation Model in Wireless Rechargeable Sensor Network with Charging Delay

Analysis and Control of Malware Mutation Model in Wireless Rechargeable Sensor Network with Charging Delay

Information Security Decisions with Consideration of Hacker Intrusion Propagation

Epidemic Models of Malicious-Code Propagation and Control in Wireless Sensor Networks: An Indepth Review

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Product

Resources

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SIR₁R₂: Characterizing Malware Propagation in WSNs With Second Immunization