非线性动力学系统中混沌控制与同步的研究近年来引起了人们极大的关注。
This thesis is devoted to the study of chaos control and synchronization of forced Brusselators.
把非线性系统的微分几何理论与混沌系统的同步控制目标相结合,设计了蔡氏电路混沌系统的标量混沌信号同步控制的非线性反馈控制器。
Combining the nonlinear control system theory and the aim of chaos synchronization, we designed a nonlinear feedback controller for synchronizing the scalar output signal of Chua's Circuits system.
在这一方向上时空混沌的控制与同步具有重要意义。
Rather recently, a great interest of chaos control and synchronization has been shifted to spatiotemporal systems.
分析了单模激光系统的混沌特性,并对单模激光系统的混沌同步与控制进行了仿真研究。
The chaotic characteristic of single mode laser system is analyzed. The simulation experiments of synchronizing and controlling chaos in single mode laser are studied.
全文的研究分为三大部分:时空动力学系统复杂行为的演化、时空混沌的控制、时空混沌的同步与应用。
The research work can be classified into three parts: evolution of the spatiotemporal dynamical behavior, control of STC, synchronization of STC and its application.
本文着重研究掺铒光纤激光器混沌的控制与同步,同时对双环掺铒光纤激光器的混沌同步在保密通讯中的应用作了初步研究。
In the dissertation, we mainly investigate the control and synchronization of chaos in erbium-doped fiber laser. Simultaneously, we do a pilot study for its application in secure communication.
针对驱动系统与响应系统不同混沌状态的同步问题,提出了一种双控制器控制方法。
To solve synchronization problems of different chaotic states in driving system and driven system, a double-controller control method is presented.
总结了一类规则网络——传统的规则束流输运网络中束晕-混沌的控制与同步方法的研究进展。
In this review article, the advances in control and synchronization methods of beam halo-chaos in the beam transport networks (BTN) is reviewed and summarized.
针对一类时延混沌系统参数未知的情况,将自适应技术与系统辨识技术应用于时延混沌系统的同步控制。
The synchronization of a class of time-delay chaotic systems with unknown parameters is investigated and an adaptive control strategy is proposed.
通用系统的输出在控制器与自适应律的控制下,渐近同步于任意标量混沌信号。
Using the controller and the parameter adaptive laws proposed, the output of the general system asymptotically synchronizes with any scalar chaotic signal.
利用自适应高阶微分反馈控制器实现倒立摆的鲁棒镇定与调节,实现了SISO和MIMO混沌系统控制与同步。
We applied successfully the proposed adaptive HODFC to the inverted pendulum stabilization and regulation, and the SISO and MIMO chaotic system control synchronization.
本课程主要内容包括:动力学系统的定性理论,混沌及其数值识别,分岔理论,混沌的同步与控制。
The main contents in this course includes: qualitative theory in dynamical system, chaos and its numerical recognition, bifurcation theory, the synchronization and control of chaos.
主要包括以下几个方面的内容:第一章介绍了混沌系统的控制与同步研究背景和现状。
The main content is depicted as follows:In the first chapter, background and study conditions in the research for control and synchronization of chaos are introduced.
主要包括以下几个方面的内容:第一章介绍了混沌系统的控制与同步研究背景和现状。
The main content is depicted as follows:In the first chapter, background and study conditions in the research for control and synchronization of chaos are introduced.
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