Adaptive NN-Based Boundary Control for Output Tracking of A Wave Equation with Matched and Unmatched Boundary Uncertainties

2022 American Control Conference (ACC) Pub Date : 2022-06-08 DOI:10.23919/ACC53348.2022.9867897

Jingting Zhang, P. Stegagno, Weizhen Zeng, C. Yuan

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引用次数: 1

Abstract

This paper is focused on the output tracking control problem of a wave equation with both matched and unmatched boundary uncertainties. An adaptive boundary feedback control scheme is proposed by utilizing radial basis function neural networks (RBF NNs) to deal with the effect of system uncertainties. Specifically, two RBF NN models are first developed to approximate the matched and unmatched system uncertain dynamics respectively. Based on this, an adaptive NN control scheme is derived, which consists of: (i) an adaptive boundary feedback controller embedded by the NN model approximating the matched uncertainty, for rendering stable and accurate tracking control; and (ii) a reference model embedded by the NN model approximating the unmatched uncertainty, for generating a prescribed reference trajectory. Rigorous analysis is performed using the Lyapunov theory and the C0-semigroup theory to prove that our proposed control scheme can guarantee closed-loop stability and well-posedness. Simulation study has been conducted to demonstrate effectiveness of the proposed approach.

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边界不确定匹配与不匹配波动方程输出跟踪的自适应神经网络边界控制

研究具有匹配边界不确定和不匹配边界不确定的波动方程输出跟踪控制问题。针对系统不确定性的影响，提出了一种基于径向基函数神经网络的自适应边界反馈控制方案。具体而言，首先建立了两种RBF神经网络模型，分别逼近匹配和不匹配系统的不确定动力学。在此基础上，推导了一种自适应神经网络控制方案，该方案包括:(1)嵌入近似匹配不确定性的神经网络模型的自适应边界反馈控制器，以实现稳定、精确的跟踪控制;(ii)由近似不匹配不确定性的神经网络模型嵌入的参考模型，用于生成规定的参考轨迹。利用Lyapunov理论和c0 -半群理论进行了严格的分析，证明了所提出的控制方案能够保证闭环稳定性和适定性。仿真研究证明了该方法的有效性。

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2022 American Control Conference (ACC)

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