Control and synchronization of chaos systems using time-delay estimation and supervising switching control

Seung Jae Cho; Maolin Jin; Tae Yong Kuc; Jin S. Lee

doi:10.1007/s11071-013-1084-4

Control and synchronization of chaos systems using time-delay estimation and supervising switching control

Seung Jae Cho
, Maolin Jin
, Tae Yong Kuc
, Jin S. Lee

Department of Electronic and Electrical Engineering

Research output: Contribution to journal › Article › peer-review

38 Scopus citations

Abstract

In this paper, we present a new technique, developed using time-delay estimation (TDE) and supervising switching control (SSC), for the control and synchronization of chaos systems. The proposed technique consists of three units: a time-delay estimation unit that cancels system dynamics, a pole placement control unit that shapes error dynamics, and an SSC unit that is activated when the system dynamics are rapidly changing. We prove the stability of the closed-loop system using the Lyapunov analysis method. To verify the control and synchronization performance of the proposed technique (TDE-SSC), we compare it with TDC using numerical simulation. Our results indicate that the proposed scheme is an easily understood, numerically efficient, robust, and accurate solution for the control and synchronization of chaos systems.

Original language	English
Pages (from-to)	549-560
Number of pages	12
Journal	Nonlinear Dynamics
Volume	75
Issue number	3
DOIs	https://doi.org/10.1007/s11071-013-1084-4
State	Published - Feb 2014

Keywords

Arneodo system
Chaos synchronization
Lorenz system
Lü system
Supervising switching control
Time-delay control
Time-delay estimation

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10.1007/s11071-013-1084-4

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title = "Control and synchronization of chaos systems using time-delay estimation and supervising switching control",

abstract = "In this paper, we present a new technique, developed using time-delay estimation (TDE) and supervising switching control (SSC), for the control and synchronization of chaos systems. The proposed technique consists of three units: a time-delay estimation unit that cancels system dynamics, a pole placement control unit that shapes error dynamics, and an SSC unit that is activated when the system dynamics are rapidly changing. We prove the stability of the closed-loop system using the Lyapunov analysis method. To verify the control and synchronization performance of the proposed technique (TDE-SSC), we compare it with TDC using numerical simulation. Our results indicate that the proposed scheme is an easily understood, numerically efficient, robust, and accurate solution for the control and synchronization of chaos systems.",

keywords = "Arneodo system, Chaos synchronization, Lorenz system, L{\"u} system, Supervising switching control, Time-delay control, Time-delay estimation",

author = "Cho, \{Seung Jae\} and Maolin Jin and Kuc, \{Tae Yong\} and Lee, \{Jin S.\}",

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T1 - Control and synchronization of chaos systems using time-delay estimation and supervising switching control

AU - Cho, Seung Jae

AU - Jin, Maolin

AU - Kuc, Tae Yong

AU - Lee, Jin S.

PY - 2014/2

Y1 - 2014/2

N2 - In this paper, we present a new technique, developed using time-delay estimation (TDE) and supervising switching control (SSC), for the control and synchronization of chaos systems. The proposed technique consists of three units: a time-delay estimation unit that cancels system dynamics, a pole placement control unit that shapes error dynamics, and an SSC unit that is activated when the system dynamics are rapidly changing. We prove the stability of the closed-loop system using the Lyapunov analysis method. To verify the control and synchronization performance of the proposed technique (TDE-SSC), we compare it with TDC using numerical simulation. Our results indicate that the proposed scheme is an easily understood, numerically efficient, robust, and accurate solution for the control and synchronization of chaos systems.

AB - In this paper, we present a new technique, developed using time-delay estimation (TDE) and supervising switching control (SSC), for the control and synchronization of chaos systems. The proposed technique consists of three units: a time-delay estimation unit that cancels system dynamics, a pole placement control unit that shapes error dynamics, and an SSC unit that is activated when the system dynamics are rapidly changing. We prove the stability of the closed-loop system using the Lyapunov analysis method. To verify the control and synchronization performance of the proposed technique (TDE-SSC), we compare it with TDC using numerical simulation. Our results indicate that the proposed scheme is an easily understood, numerically efficient, robust, and accurate solution for the control and synchronization of chaos systems.

KW - Arneodo system

KW - Chaos synchronization

KW - Lorenz system

KW - Lü system

KW - Supervising switching control

KW - Time-delay control

KW - Time-delay estimation

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SP - 549

EP - 560

JO - Nonlinear Dynamics

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Control and synchronization of chaos systems using time-delay estimation and supervising switching control

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Keywords

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