Litcius/Paper detail

Dynamics of the worm transmission in wireless sensor network in the framework of fractional derivatives

Sindhu J. Achar, Chandrali Baishya, Mohammed K. A. Kaabar

2021Mathematical Methods in the Applied Sciences53 citationsDOI

Abstract

Wireless sensor networks (WSNs) are subject to cyber attacks. Security of such networks is a significant priority for everyone. Due to the network's frail defense mechanisms, WSNs are easy targets for worm attacks. A single unsecured node via contact can effectively propagate the worm across the entire network. Mathematical epidemic models are helpful in analyzing worm propagation in WSNs. To understand the attacking and spreading dynamics of worms in WSNs, a fractional‐order compartmental epidemic model is investigated with susceptible, exposed, infected, recovered, and vaccinated nodes. Dynamical aspects such as boundedness, existence, and uniqueness of the solutions are presented with the help of fractional calculus theory. Global stability of the points of equilibrium are established. The projected nonlinear structure is examined numerically via the generalized Adams–Bashforth–Moulton method. This study demonstrates the influence of the fractional operator on WSNs dynamics and the efficiency of the numerical method.

Topics & Concepts

UniquenessWireless sensor networkNode (physics)MathematicsNonlinear systemFractional calculusTransmission (telecommunications)Stability (learning theory)Operator (biology)Dynamics (music)Mathematical optimizationApplied mathematicsComputer scienceComputer networkMathematical analysisTelecommunicationsStructural engineeringTranscription factorQuantum mechanicsPhysicsEngineeringRepressorGeneChemistryMachine learningBiochemistryAcousticsFractional Differential Equations SolutionsMathematical and Theoretical Epidemiology and Ecology ModelsNonlinear Photonic Systems