Control and synchronization of fractional-order chaotic satellite systems using feedback and adaptive control techniques

In this article, we present the basic concepts of fractional calculus and control and synchronization of fractional-order chaotic satellite system . Existence and uniqueness solutions of fractional-order satellite system are discussed and local stability of the system at the equilibrium points are studied. The lowest dimension of chaotic attractor of satellite system is 2.88 which is obtained through utilization of the fractional dynamics and computational simulation. Lyapunov exponents and bifurcation diagrams are drawn to measure the existence of chaos in the system. Feedback control method for chaos control in the fractional-order satellite system is achieved. Synchronization of two identical noninteger order chaotic satellite systems are achieved through adaptive control methodology.

Automated summary

This article introduces the basic concepts of fractional calculus and control, discussing the existence and uniqueness solutions of fractional-order satellite system and studying the local stability of the system at equilibrium points. Through the use of fractional dynamics and computational simulation, the lowest dimension of chaotic attractor of satellite system is determined. Chaos control and synchronization of two identical noninteger order chaotic satellite systems are achieved through feedback control method and adaptive control methodology, respectively.