Event-triggered finite-time neural control for uncertain nonlinear systems with unknown disturbances and its application in SVC

IF 1.7 4区 计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS Transactions of the Institute of Measurement and Control Pub Date : 2024-01-06 DOI:10.1177/01423312231208258
Wenbo Pi, Wenhui Liu
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Abstract

In this article, an event-triggered finite-time neural control strategy is proposed for nonlinear power systems with unknown disturbances and static var compensator (SVC). We first transform the power system with SVC into a three-dimensional uncertain nonlinear system and then extend it to an [Formula: see text]-dimensional uncertain nonlinear system. The disturbance observer is established to estimate external disturbances and the unknown nonlinear terms are approximated by the radial basis function neural networks. Moreover, to avoid the complexity explosion problem in the traditional backstepping method, the command filtering technique is adopted, and the error caused by the command filters is compensated. The adaptive event-triggered finite-time controller ensures that all signals are bounded in finite time and excludes Zeno phenomena. In the end, the simulation for the two-area interconnected power system with SVC is presented to verify the availability and feasibility of the proposed approach.
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具有未知扰动的不确定非线性系统的事件触发有限时间神经控制及其在 SVC 中的应用
本文针对具有未知扰动和静态变阻补偿器(SVC)的非线性电力系统,提出了一种事件触发的有限时间神经控制策略。我们首先将带 SVC 的电力系统转换为三维不确定非线性系统,然后将其扩展为[公式:见正文]维不确定非线性系统。建立扰动观测器来估计外部扰动,并用径向基函数神经网络逼近未知非线性项。此外,为避免传统反步法的复杂性爆炸问题,采用了指令滤波技术,并对指令滤波器引起的误差进行了补偿。自适应事件触发有限时间控制器确保了所有信号在有限时间内都是有界的,并排除了芝诺现象。最后,对带有 SVC 的两区互联电力系统进行了仿真,以验证所提方法的可用性和可行性。
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来源期刊
CiteScore
4.10
自引率
16.70%
发文量
203
审稿时长
3.4 months
期刊介绍: Transactions of the Institute of Measurement and Control is a fully peer-reviewed international journal. The journal covers all areas of applications in instrumentation and control. Its scope encompasses cutting-edge research and development, education and industrial applications.
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