Sequential Riemann-Liouville and Hadamard-Caputo Fractional Differential Systems with Nonlocal Coupled Fractional Integral Boundary Conditions

In this paper, we initiate the study of existence of solutions for a fractional differential system which contains mixed Riemann–Liouville and Hadamard–Caputo fractional derivatives, complemented with nonlocal coupled fractional integral boundary conditions. We derive necessary conditions for the existence and uniqueness of solutions of the considered system, by using standard fixed point theorems, such as Banach contraction mapping principle and Leray–Schauder alternative. Numerical examples illustrating the obtained results are also presented.

[1]  Carla M. A. Pinto,et al.  A delay fractional order model for the co-infection of malaria and HIV/AIDS , 2017 .

[2]  S. Ntouyas,et al.  Nonlinear Sequential Riemann-Liouville and Caputo Fractional Differential Equations with Nonlocal and Integral Boundary Conditions , 2019, International Journal of Analysis and Applications.

[3]  Yongsheng Ding,et al.  Optimal Control of a Fractional-Order HIV-Immune System With Memory , 2012, IEEE Transactions on Control Systems Technology.

[4]  S. Ntouyas,et al.  Separated Boundary Value Problems of Sequential Caputo and Hadamard Fractional Differential Equations , 2018, Journal of Function Spaces.

[5]  Jessada Tariboon,et al.  Coupled Systems of Sequential Caputo and Hadamard Fractional Differential Equations with Coupled Separated Boundary Conditions , 2018, Symmetry.

[6]  S. Ntouyas,et al.  Nonlinear sequential Riemann–Liouville and Caputo fractional differential equations with generalized fractional integral conditions , 2018, Advances in Difference Equations.

[7]  Bashir Ahmad,et al.  Existence of solutions for a sequential fractional integro-differential system with coupled integral boundary conditions , 2017 .

[8]  N. Ford,et al.  Analysis of Fractional Differential Equations , 2002 .

[9]  R. Bagley,et al.  On the Appearance of the Fractional Derivative in the Behavior of Real Materials , 1984 .

[10]  FRACTIONAL ORDER COUPLED SYSTEMS FOR MIXED FRACTIONAL DERIVATIVES WITH NONLOCAL MULTI-POINT AND RIEMANN-STIELTJES INTEGRAL-MULTI-STRIP CONDITIONS , 2020, Dynamic Systems and Applications.

[11]  S. Ntouyas EXISTENCE AND UNIQUENESS OF SOLUTIONS FOR CAPUTO-HADAMARD SEQUENTIAL FRACTIONAL ORDER NEUTRAL FUNCTIONAL DIFFERENTIAL EQUATIONS , 2017 .

[12]  Guanrong Chen,et al.  Chaos synchronization in fractional differential systems , 2013, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[13]  Bashir Ahmad,et al.  Dynamic analysis of time fractional order phytoplankton–toxic phytoplankton–zooplankton system , 2015 .

[14]  D. Baleanu,et al.  LMI-based stabilization of a class of fractional-order chaotic systems , 2013 .

[15]  Jinrong Wang,et al.  Analysis of fractional order differential coupled systems , 2015 .

[16]  I. Podlubny Fractional differential equations , 1998 .

[17]  Dumitru Baleanu,et al.  Caputo-type modification of the Hadamard fractional derivatives , 2012, Advances in Difference Equations.

[18]  A. Alsaedi,et al.  Existence Results for Sequential Riemann–Liouville and Caputo Fractional Differential Inclusions with Generalized Fractional Integral Conditions , 2020, Mathematics.

[19]  J. Henderson,et al.  On a System of Fractional Differential Equations with Coupled Integral Boundary Conditions , 2015 .

[20]  V. Anh,et al.  Numerical Simulation of the Nonlinear Fractional Dynamical Systems with Fractional Damping for the Extensible and Inextensible Pendulum , 2007 .