Huiqin Pei scite author profile

An unique 4D autonomous chaotic system with signum function term is proposed in this paper. The system has four unstable equilibria and various types of coexisting attractors appear. Four-wing and four-scroll strange attractors are observed in the system and they will be broken into two coexisting butterfly attractors and two coexisting double-scroll attractors with the variation of the parameters. Numerical simulation shows that the system has various types of multiple coexisting attractors including two butterfly attractors with four limit cycles, two double-scroll attractors with a limit cycle, four single-scroll strange attractors, four limit cycles with regard to different parameters and initial values. The coexistence of the attractors is determined by the bifurcation diagrams. The chaotic and hyperchaotic properties of the attractors are verified by the Lyapunov exponents. Moreover, we present an electronic circuit to experimentally realize the dynamic behavior of the system.

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Multitarget Tracking Control for Coupled Heterogeneous Inertial Agents Systems Based on Flocking Behavior

Chen

Pei

Lai

et al. 2019

IEEE Trans. Syst. Man Cybern, Syst.

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Multi-target consensus circle pursuit for multi-agent systems via a distributed multi-flocking method

Pei

Chen

Lai

2015

International Journal of Systems Science

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A local flocking algorithm of multi-agent dynamic systems

Pei

Chen

Lai

2015

International Journal of Control

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Infinitely Many Coexisting Attractors in No-Equilibrium Chaotic System

et al. 2020

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is paper proposes a new no-equilibrium chaotic system that has the ability to yield infinitely many coexisting hidden attractors. Dynamic behaviors of the system with respect to the parameters and initial conditions are numerically studied. It shows that the system has chaotic, quasiperiodic, and periodic motions for different parameters and coexists with a large number of hidden attractors for different initial conditions. e circuit and microcontroller implementations of the system are given for illustrating its physical meaning. Also, the synchronization conditions of the system are established based on the adaptive control method.

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Huiqin Pei

Various Types of Coexisting Attractors in a New 4D Autonomous Chaotic System

Multitarget Tracking Control for Coupled Heterogeneous Inertial Agents Systems Based on Flocking Behavior

Multi-target consensus circle pursuit for multi-agent systems via a distributed multi-flocking method

A local flocking algorithm of multi-agent dynamic systems

Infinitely Many Coexisting Attractors in No-Equilibrium Chaotic System

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