Genesio混沌(GC)系统同步的噪声张动力学(ZD)方法:优雅分析与不等参数推广

Canhui Chen, Yihong Ling, Deyang Zhang, Nini Shi, Yunong Zhang
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引用次数: 1

摘要

本文研究了Genesio混沌(GC)系统的无噪声或有噪声同步控制。为此,提出并开发了张动力学(ZD)方法,从而从理论上研究了无噪声或有噪声的ZD控制器。首先,分析了所提出的无噪声扰动GC系统同步ZD控制器,驱动GC系统与响应GC系统之间的同步误差整体上(即以向量范数的形式)全局指数收敛于零。其次,对所提出的具有噪声扰动的GC系统同步ZD控制器进行了分析,详细的理论分析(即证明)和结果表明,同步误差作为一个整体(即以向量范数的形式)全局收敛到一个小的误差界。因此,本文提供的ZD控制器(包括非等参数控制器)不仅简单有效,而且对GC系统同步具有很强的鲁棒性。
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Noisy Zhang-Dynamics (ZD) Method for Genesio Chaotic (GC) System Synchronization: Elegant Analyses and Unequal-Parameter Extension
This paper handles the noise-free or noisy synchronization control of Genesio chaotic (GC) system. To do so, Zhang dynamics (ZD) method is presented and exploited, and thus the ZD controllers, noise-free or noisy, are theoretically researched. Firstly, the presented ZD controller for GC system synchronization with no noise perturbation is analyzed, and the synchronization error as a whole (i.e., in the form of vector norm) between the drive GC system and the response GC system converges globally exponentially to zero. Secondly, the presented ZD controller for GC system synchronization with noise perturbation is analyzed as well, and detailed theoretical analyses (i.e., proofs) and results show that the synchronization error as a whole (i.e., in the form of vector norm) converges globally to a small bound of error. So, the ZD controllers provided in this paper (including the ones with unequal parameters) are not only simple and effective but also quite robust for the GC system synchronization.
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