Litcius/Paper detail

Chaos control and chaos synchronization of a multi-wing chaotic system and its application in multi-frequency weak signal detection

Wenjing Li, Ping Li, Meimei Jia

2021AIP Advances20 citationsDOIOpen Access PDF

Abstract

In this paper, first, a nonlinear feedback controller for achieving chaos control of a novel multi-wing chaotic system is presented. The nonlinear feedback controller has two parts. The first part is used to compensate an equilibrium point for the multi-wing chaotic system. The second part is a linear state feedback controller. The nonlinear feedback controller can globally asymptotically stabilize the multi-wing chaotic system to the equilibrium point. Stability conditions are given by using the Barbashin–Krasovskii theorem. Then, a linear state feedback controller for achieving chaos synchronization of the multi-wing chaotic system is presented. The linear state feedback controller can asymptotically stabilize the chaos synchronization error system to the origin. Stability conditions are given by using the passivity-based theory. Finally, a multi-frequency weak signal detection method is presented based on chaos control of the multi-wing chaotic system. The detection method can detect the frequencies of the weak signal and does not need to determine the critical point.

Topics & Concepts

Control theory (sociology)Controller (irrigation)Synchronization of chaosSynchronization (alternating current)ChaoticNonlinear systemComputer scienceStability theoryEquilibrium pointControl of chaosMathematicsControl (management)PhysicsTelecommunicationsArtificial intelligenceChannel (broadcasting)Quantum mechanicsAgronomyBiologyChaos control and synchronizationNonlinear Dynamics and Pattern FormationComplex Systems and Time Series Analysis
Chaos control and chaos synchronization of a multi-wing chaotic system and its application in multi-frequency weak signal detection | Litcius