SEIQRS model for the transmission of malicious objects in computer network |
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Authors: | Bimal Kumar Mishra Navnit Jha |
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Institution: | 1. Department of Applied Mathematics, Birla Institute of Technology, Mesra, Ranchi 835215, India;2. Department of Mathematics, Rajiv Gandhi Institute of Petroleum Technology, Rae Bareli 229316, India |
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Abstract: | Susceptible (S) – exposed (E) – infectious (I) – quarantined (Q) – recovered (R) model for the transmission of malicious objects in computer network is formulated. Thresholds, equilibria, and their stability are also found with cyber mass action incidence. Threshold Rcq determines the outcome of the disease. If Rcq ? 1, the infected fraction of the nodes disappear so the disease die out, while if Rcq > 1, the infected fraction persists and the feasible region is an asymptotic stability region for the endemic equilibrium state. Numerical methods are employed to solve and simulate the system of equations developed. The effect of quarantine on recovered nodes is analyzed. We have also analyzed the behavior of the susceptible, exposed, infected, quarantine, and recovered nodes in the computer network. |
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Keywords: | Epidemic model Quarantine Endemic equilibrium Asymptotic stability Malicious objects Computer network |
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