Synchronization of two chaotic systems with three or two inputs via ZG method

2015 34th Chinese Control Conference (CCC) Pub Date : 2015-09-14 DOI:10.1109/CHICC.2015.7259696

Zhang Yunong, Liu Ming, Jin Long, Zhang Yinyan, Tan Hong-zhou

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引用次数: 8

Abstract

Recently, the synchronization of two chaotic systems is attracting more and more attentions because of its potential applications in communication security, aerospace industry and many other fields. In this paper, by combining Zhang dynamics (ZD) and gradient dynamics (GD), a novel effective controller-design method termed Zhang-gradient (ZG) method is firstly developed for the chaos synchronization problem with multiple inputs (i.e., three or two inputs). Via this ZG method, the traditional three-input chaos synchronization problem can be successfully solved with desirable convergence rate and satisfactory accuracy. In addition, by taking advantage of the coupling property of the chaotic system, a creative extension of the ZG method is investigated to solve the thorny two-input chaos synchronization problem. Simulation verifications further demonstrate that the controllers based on the ZG method can not only achieve satisfactory synchronization accuracy and exponential convergence rate on the three-input chaos synchronization problem but also successfully solve the chaos synchronization problem with only two inputs.

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基于ZG方法的三输入或双输入混沌系统同步

近年来，两混沌系统的同步问题因其在通信安全、航空航天等领域的潜在应用而受到越来越多的关注。本文将张动力学(ZD)与梯度动力学(GD)相结合，针对多输入(即三个或两个输入)的混沌同步问题，首次提出了一种新颖有效的控制器设计方法——张梯度法(ZG)。通过该方法，可以成功地解决传统的三输入混沌同步问题，具有理想的收敛速度和满意的精度。此外，利用混沌系统的耦合特性，对ZG方法进行了创造性的扩展，解决了棘手的双输入混沌同步问题。仿真验证进一步表明，基于ZG方法的控制器不仅可以在三输入混沌同步问题上获得满意的同步精度和指数收敛速度，而且可以成功地解决只有两个输入的混沌同步问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 34th Chinese Control Conference (CCC)

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