未知非对称作动器死区二阶混沌系统的自适应控制

Xintong Tian, Zhao Zhang, Shuqi Niu, Xueyan Zhao
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引用次数: 0

摘要

针对具有未知执行器死区的混沌系统,提出了一种自适应控制器设计方法。首先,提出终端滑模流形以保证系统的指数稳定性和更快的有限时间稳定性。此外,引入神经网络对目标的部分未知非线性动态行为进行估计,并根据隐函数定理,利用另一个静态神经网络克服执行器的未知非对称死区。此外,一个在线更新的鲁棒术语处理重构错误和外部干扰的神经网络。最后,通过李亚普诺夫分析严格证明了该系统能够在线稳定跟踪任意光滑目标轨迹,并通过数值仿真验证了该系统的有效性和可行性。
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Adaptive Control for a Second-order Chaotic System with Unknown Nonsymmetric Actuator Dead-Zone
In this paper, an adaptive controller design method is proposed for chaotic systems with unknown actuator dead-zone. First, the terminal sliding mode (TSM) manifold is proposed to ensure exponential stability as well as faster finite-time stability. In addition, a neural network (NN) is introduced to estimate the partially unknown nonlinear dynamic behavior of the object, and according to the implicit function theorem, the unknown asymmetric dead zone of the actuator is overcome by another static neural network. Furthermore, a robust terminology updated online deals with refactoring errors and external interferences of neural networks. Finally, the system can stably track any smooth target trajectory online is rigidly proved via Lyapunov analysis, and numerical simulation shows its effectiveness and feasibility.
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