An SLBRS Model with Vertical Transmission of Computer Virus over the Internet

Yang, Mei; Zhang, Zhufan; Li, Qiang; Zhang, Gang

doi:10.1155/2012/925648

Cited by 27 publications

(27 citation statements)

References 43 publications

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“…Li, et al [12] employed the parameters for vertical transmission for the global dynamical analysis of disease models and [11] extended it to computer networks where the worm infection is seen to pass from the main server to any node using the Susceptible-Exposed-Infectious-Recovered (SEIR) model. There exists other works that investigated the vertical transmission in computer networks using the Susceptible-Latent-Breaking Out-Susceptible (SLBS) [13] and the Susceptible-Latent-Breaking Out-RemovedSusceptible (SLBRS) [14]. To the best of our knowledge it has not been applied for the study of worm dynamics in WSNs.…”

Section: A Epidemic Theorymentioning

confidence: 99%

Towards Modeling Malicious Agents in Decentralized Wireless Sensor Networks: A Case of Vertical Worm Transmissions and Containment

Nwokoye¹,

Ejiofor²,

Onyesolu³

et al. 2017

IJCNIS

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Abstract-Now, it is unarguable that cyber threats arising from malicious codes such as worms possesses the ability to cause losses, damages and disruptions to industries that utilize ICT infrastructure for meaningful daily work. More so for wireless sensor networks (WSN) which thrive on open air communications. As a result epidemic models are used to study propagation patterns of these malicious codes, although they favor horizontal transmissions. Specifically, the literature dealing with the analysis of worms that are both vertically and horizontally (transmitted) is not extensive. Therefore, we propose the Vulnerable-Latent-Breaking OutTemporarily Immune-Inoculation (VLBTV-I) epidemic model to investigate both horizontal and vertical worm transmission in wireless sensor networks. We derived the solutions of the equilibriums as well as the epidemic threshold for two topological expressions (gleaned from literature). Furthermore, we employed the Runge-KuttaFehlberg order 4 and 5 method to solve, simulate and validate our proposed models. Critically, we analyzed the impact of both vertical and horizontal transmissions on the latent and breaking out compartments using several simulations experiments.

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Section: A Epidemic Theorymentioning

confidence: 99%

Towards Modeling Malicious Agents in Decentralized Wireless Sensor Networks: A Case of Vertical Worm Transmissions and Containment

Nwokoye¹,

Ejiofor²,

Onyesolu³

et al. 2017

IJCNIS

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show abstract

“…This is inconsistent with the fact that an infected computer which is in latency can also infect other computers through file copying or file downloading. Based on this, Yang et al proposed some models [14][15][16][17], by taking into account the fact that a computer immediately possesses infectivity once it is infected. However, these models make an assumption that the exposed computers and the infectious computers have the same infectivity.…”

Section: Introductionmentioning

confidence: 99%

Delay Induced Hopf Bifurcation of an Epidemic Model with Graded Infection Rates for Internet Worms

Zhao

2017

Mathematical Problems in Engineering

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A delayed SEIQRS worm propagation model with different infection rates for the exposed computers and the infectious computers is investigated in this paper. The results are given in terms of the local stability and Hopf bifurcation. Sufficient conditions for the local stability and the existence of Hopf bifurcation are obtained by using eigenvalue method and choosing the delay as the bifurcation parameter. In particular, the direction and the stability of the Hopf bifurcation are investigated by means of the normal form theory and center manifold theorem. Finally, a numerical example is also presented to support the obtained theoretical results.

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“…In order to remedy this flaw, Yang et al [14] proposed a three-compartment model for computer viruses which is known as the original SLBS (susceptible-latent-breaking-susceptible) model. By incorporating a called R (recovered)-compartment into the SLBS model, Yang et al [15] proposed a fourcompartment model which is known as the original SLBRS (susceptible-latent-breakingrecovered-susceptible) model. Subsequently, in order to investigate the impact of infected external computers (i.e., a computer outside the Internet) on viral spread and based on the original SLBRS model, a dynamical model [16] has been proposed.…”

Section: Introductionmentioning

confidence: 99%

Modeling the Spread of Computer Viruses under the Effects of Infected External Computers and Removable Storage Media

Zhang¹

2016

IJSIA

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An SLBRS Model with Vertical Transmission of Computer Virus over the Internet

Cited by 27 publications

References 43 publications

Towards Modeling Malicious Agents in Decentralized Wireless Sensor Networks: A Case of Vertical Worm Transmissions and Containment

Towards Modeling Malicious Agents in Decentralized Wireless Sensor Networks: A Case of Vertical Worm Transmissions and Containment

Delay Induced Hopf Bifurcation of an Epidemic Model with Graded Infection Rates for Internet Worms

Modeling the Spread of Computer Viruses under the Effects of Infected External Computers and Removable Storage Media

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