Spatio-Temporal Dynamics and Structure Preserving Algorithm for Computer Virus Model.

Ahmed, Nauman; Fatima, Umbreen; Iqbal, Shahzaib; Raza, Ali; Rafiq, Muhammad; Aziz-ur-Rehman, Muhammad; Saeed, Shehla; Khan, Ilyas; Nisar, Kottakkaran Sooppy

The present work is related to the numerical investigation of the spatio-temporal susceptible-latent-breaking out-recovered (SLBR) epidemic model. It describes the computer virus dynamics with vertical transmission via the internet. In these types of dynamics models, the absolute values of the state variables are the fundamental requirement that must be fulfilled by the numerical design. By taking into account this key property, the positivity preserving algorithm is designed to solve the underlying SLBR system. Since, the state variables associated with the phenomenon, represent the computer nodes, so theymust take in absolute. Moreover, the continuous system(SLBR) acquires two steady states i.e., the virus-free state and the virus existence state. The stability of the numerical design, at the equilibrium points, portrays an exceptional aspect about the propagation of the virus. The designed discretization algorithm sustains the stability of both the steady states. The computer simulations also endorse that the proposed discretization algorithm retains all the traits of the continuous SLBR model with spatial content. The stability and consistency of the proposed algorithm are verified, mathematically. All the facts are also ascertained by numerical simulations.

COMPUTER simulation; ABSOLUTE value; COMPUTER viruses; ALGORITHMS

Computers, Materials & Continua, 2021, Vol 68, Issue 1, p201

1546-2218

Academic Journal

10.32604/cmc.2021.014171