Global synchronization of fractional‐order and integer‐order N component reaction diffusion systems: Application to biochemical models
Fatiha Mesdoui, Nabil Shawagfeh, Adel Ouannas
Abstract
This study considers the problem of control and synchronization between fractional‐order and integer‐order, N ‐components reaction‐diffusion systems with nonidentical coefficients and different nonlinear parts. The control scheme is designed using the Lyapunov direct method. The results are exemplified by two significant biochemical models, namely, the fractional‐order Lengyel‐Epstein model and the Gray‐Scott model. To illustrate the effectiveness of the proposed scheme, numerical simulations are performed in one and two space dimensions using Homotopy Analysis Method (HAM).
Topics & Concepts
MathematicsInteger (computer science)Reaction–diffusion systemNonlinear systemOrder (exchange)Applied mathematicsSynchronization (alternating current)Homotopy analysis methodComponent (thermodynamics)Fractional calculusHomotopyMathematical optimizationMathematical analysisPure mathematicsTopology (electrical circuits)CombinatoricsComputer scienceFinanceProgramming languagePhysicsThermodynamicsEconomicsQuantum mechanicsNonlinear Dynamics and Pattern FormationFractional Differential Equations SolutionsMathematical and Theoretical Epidemiology and Ecology Models