Virtual unmodeled dynamic and data-driven nonlinear robust predictive control

IF 3.3 2区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS

Journal of Process Control Pub Date : 2024-04-22 DOI:10.1016/j.jprocont.2024.103222

Bo Peng , Huiyuan Shi , Ping Li , Chengli Su

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引用次数: 0

Abstract

This study presents a novel approach for controlling an industrial process that exhibits uncertainty and significant nonlinear features. The proposed method utilizes a virtual unmodeled dynamic and data-driven nonlinear robust predictive control strategy. The representation of a controlled object involves a composite state space model that combines both linear and high-order nonlinear elements. Moreover, a robust model predictive controller is developed using the linear component. In addition, the notion of one-step optimal feedforward is used in combination with a compensating controller to handle the high-order nonlinear factor specifically. Subsequently, a compensation controller with incremental characteristics is developed for a modified version of the high-order nonlinear term. Furthermore, the stability conditions of the closed-loop system are derived, and an analysis is conducted on the stability and convergence of the proposed approach. The TTS20 three-capacity water tank was utilized in both simulations and practical scenarios. The study demonstrated that the suggested approach successfully reduces system output variations and enhances overall performance in response to unpredictable changes in the process’s dynamic features.

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虚拟非建模动态和数据驱动非线性鲁棒预测控制

本研究提出了一种控制具有不确定性和显著非线性特征的工业流程的新方法。所提出的方法采用了虚拟非建模动态和数据驱动的非线性鲁棒预测控制策略。受控对象的表示涉及一个复合状态空间模型，该模型结合了线性和高阶非线性元素。此外，还利用线性部分开发了鲁棒模型预测控制器。此外，一步最佳前馈概念与补偿控制器相结合，专门用于处理高阶非线性因素。随后，针对改进版的高阶非线性项，开发了具有增量特性的补偿控制器。此外，还得出了闭环系统的稳定性条件，并对所提方法的稳定性和收敛性进行了分析。在模拟和实际场景中都使用了 TTS20 三容量水箱。研究结果表明，所建议的方法成功地减少了系统输出变化，并提高了整体性能，以应对过程动态特征的不可预测变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Process Control 工程技术-工程：化工

CiteScore

7.00

自引率

11.90%

发文量

159

审稿时长

74 days

期刊介绍： This international journal covers the application of control theory, operations research, computer science and engineering principles to the solution of process control problems. In addition to the traditional chemical processing and manufacturing applications, the scope of process control problems involves a wide range of applications that includes energy processes, nano-technology, systems biology, bio-medical engineering, pharmaceutical processing technology, energy storage and conversion, smart grid, and data analytics among others. Papers on the theory in these areas will also be accepted provided the theoretical contribution is aimed at the application and the development of process control techniques. Topics covered include: • Control applications• Process monitoring• Plant-wide control• Process control systems• Control techniques and algorithms• Process modelling and simulation• Design methods Advanced design methods exclude well established and widely studied traditional design techniques such as PID tuning and its many variants. Applications in fields such as control of automotive engines, machinery and robotics are not deemed suitable unless a clear motivation for the relevance to process control is provided.