Your search keyword '"CHEN, HSIEN-KENG"' showing total 3 results

1. Pragmatical adaptive synchronization – New fuzzy model of two different and complex chaotic systems by new adaptive control.

Author

Li, Shih-Yu, Chen, Hsien-Keng, Tam, Lap-Mou, Huang, Sheng-Chieh, and Ge, Zheng-Ming

Subjects

*ADAPTIVE computing systems, *FUZZY systems, *CHAOS theory, *STOCHASTIC convergence, *LYAPUNOV functions, *SYSTEMS theory

Abstract

Abstract: In this paper, (1) a new fuzzy model is presented to simulate two different chaotic systems with different numbers of nonlinear terms and (2) a new adaptive approach and a new control Lyapunov function are proposed to synchronize these two different fuzzy chaotic systems and speed up the convergence of errors. By using this new model, the numbers of fuzzy rules of chaotic systems can be reduced from to and only 2 subsystems are needed, where N is the number of nonlinear terms. The fuzzy systems become much simpler. In addition, through the new fuzzy model, the new fuzzy systems are much simpler than T–S fuzzy systems (when nonlinear systems are complicated) and can be used to any other kind of application in fuzzy logic control or fuzzy modeling. Mathieu–Van der Pol system (which is called M–V system in this paper) and Quantum cellular neural networks nanosystem (which is called Q-CNN system in this paper) are used for illustrations in numerical simulation results to show the effectiveness and feasibility of our new adaptive approach and new control Lyapunov function. The T–S fuzzy modeling and traditional adaptive control are also given in Appendices B and C for comparison. [Copyright &y& Elsevier]

Published

2014

2. IMPULSIVE SYNCHRONIZATION AND ITS IMPLEMENTATION IN CHEN-LEE SYSTEMS.

Author

TAM, LAP-MOU, LAO, SENG-KIN, SHEU, LONG-JYE, and CHEN, HSIEN-KENG

Subjects

SYNCHRONIZATION, LYAPUNOV functions, COMPUTER simulation, ELECTRONIC circuits, IMPULSIVE differential equations, EXPONENTIAL functions, CHAOS theory

Abstract

The impulsive synchronization of two chaotic Chen-Lee systems was investigated in this paper. Based on Lyapunov's direct method, sufficient conditions for the global exponential synchronization and global asymptotical synchronization were derived. Further, the theoretical results were verified by a numerical simulation. In addition, the impulsive synchronization of two chaotic Chen-Lee systems was also implemented using an electronic circuit. [ABSTRACT FROM AUTHOR]

Published

2011

3. Global chaos synchronization of new chaotic systems via nonlinear control

Author

Chen, Hsien-Keng

Subjects

*DIFFERENTIAL equations, *CONTROL theory (Engineering), *AUTOMATION, *LYAPUNOV functions, *LYAPUNOV stability

Abstract

Abstract: Nonlinear control is an effective method for making two identical chaotic systems or two different chaotic systems be synchronized. However, this method assumes that the Lyapunov function of error dynamic (e) of synchronization is always formed as V(e)=1/2eTe. In this paper, modification based on Lyapunov stability theory to design a controller is proposed in order to overcome this limitation. The method has been applied successfully to make two identical new systems and two different chaotic systems (new system and Lorenz system) globally asymptotically synchronized. Since the Lyapunov exponents are not required for the calculation, this method is effective and convenient to synchronize two identical systems and two different chaotic systems. Numerical simulations are also given to validate the proposed synchronization approach. [Copyright &y& Elsevier]

Published

2005