Event-triggered model-free adaptive control for nonlinear systems using intuitionistic fuzzy neural network: simulation and experimental validation

IF 5 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Sameh Abd-Elhaleem, Mohamed A. Hussien, Mohamed Hamdy, Tarek A. Mahmoud
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Abstract

This article presents model-free adaptive control based on an intuitionistic fuzzy neural network for nonlinear systems with event-triggered output. Essentially, model-free adaptive control (MFAC) is constructed by establishing an online approximate model of the controlled system using the pseudo-partial derivative (PPD) form. By the proposed scheme, first, an intuitionistic fuzzy neural network (IFNN) is developed as an estimator for time-varying PPD in both compact-form dynamic linearization (CFDL) and partial-form dynamic linearization (PFDL) for the MFAC technique. Second, two periodic event-triggered output methods are integrated with the proposed IFNN-based MFAC in both forms to save communication resources and reduce the computation burden and energy consumption. Based on the Lyapunov theory and BIBO stability approach, necessary conditions are established to guarantee the convergence of the adaptive law of the IFNN controller and the boundary of the tracking error of the closed loop system. Third, regarding the feasibility and the effectiveness of the developed control method, two simulation examples including the continuous stirred-tank reactor (CSTR) system and the heat exchanger system are given. Finally, the practical validation of the proposed data-driven control method is conducted via the speed control of a DC motor.

Abstract Image

基于直觉模糊神经网络的非线性系统事件触发无模型自适应控制:仿真与实验验证
针对具有事件触发输出的非线性系统,提出了一种基于直觉模糊神经网络的无模型自适应控制。从本质上讲,无模型自适应控制(MFAC)是通过利用伪偏导数(PPD)形式建立被控系统的在线近似模型来实现的。首先,提出了一种直观模糊神经网络(IFNN)作为MFAC技术的紧形式动态线性化(CFDL)和部分形式动态线性化(PFDL)时变PPD的估计器;其次,将两种周期性事件触发输出方法与所提出的基于ifnn的MFAC相结合,以节省通信资源,降低计算负担和能耗。基于Lyapunov理论和BIBO稳定性方法,建立了IFNN控制器自适应律收敛和闭环系统跟踪误差边界收敛的必要条件。第三,针对所提出的控制方法的可行性和有效性,给出了连续搅拌槽式反应器(CSTR)系统和换热器系统两个仿真实例。最后,通过直流电机的速度控制对所提出的数据驱动控制方法进行了实际验证。
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来源期刊
Complex & Intelligent Systems
Complex & Intelligent Systems COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-
CiteScore
9.60
自引率
10.30%
发文量
297
期刊介绍: Complex & Intelligent Systems aims to provide a forum for presenting and discussing novel approaches, tools and techniques meant for attaining a cross-fertilization between the broad fields of complex systems, computational simulation, and intelligent analytics and visualization. The transdisciplinary research that the journal focuses on will expand the boundaries of our understanding by investigating the principles and processes that underlie many of the most profound problems facing society today.
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