Boundary control of a fractional reaction-diffusion equation coupled with fractional ordinary differential equations with delay
作者:
Highlights:
• The system we considered is a fractional reaction-diffusion (FRD) equation with varying coefficient coupled with fractional ordinary differential equations.
• The backstepping method was first applied to control of fractional coupled system with delay.
• A backstepping based boundary feedback control law is designed.
• By an integral transformation, the boundary stabilization problem is converted into a problem of solving a hyperbolic PDE with transformation’s kernel function and a vector-value function.
• The exact solution of target system is given by the Prabhakar function.
摘要
•The system we considered is a fractional reaction-diffusion (FRD) equation with varying coefficient coupled with fractional ordinary differential equations.•The backstepping method was first applied to control of fractional coupled system with delay.•A backstepping based boundary feedback control law is designed.•By an integral transformation, the boundary stabilization problem is converted into a problem of solving a hyperbolic PDE with transformation’s kernel function and a vector-value function.•The exact solution of target system is given by the Prabhakar function.
论文关键词:Asymptotic stability,Fractional derivative,Lyapunov functional,Coupled system,Boundary feedback control
论文评审过程:Received 11 October 2020, Revised 27 March 2021, Accepted 1 April 2021, Available online 26 April 2021, Version of Record 26 April 2021.
论文官网地址:https://doi.org/10.1016/j.amc.2021.126260
