This thesis addresses three important issues involved in chaotic systems: mechanism of generating chaos in nonlinear circuits, construction of chaos generators and adaptive chaos synchronization.
沿着这个研究趋势,本论文重点研究了三个方面的问题:非线性电路中混沌的产生机制,混沌系统的电路设计和混沌系统的自适应同步。
Based on the switching manifold approach to chaos synchronization, a controlling strategy of adaptive chaotic synchronization based on system identification is presented.
在切换流形控制混沌系统同步的基础上,提出一种基于系统辨识的自适应混沌同步控制策略。
Adaptive controller is developed to suppress chaos to equilibrium points and realige synchronization of two identical coupled dynamos systems with unknown system parameters.
设计了自适应控制器,将耦合发电机系统的混沌轨道镇定到平衡点,并使得两个参数未知的耦合发电机系统达到了混沌同步。
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