A non-minimum phase robust nonlinear neuro-wavelet predictive control strategy for a quadruple tank process

Kayode Owa; Asiya Khan; Sanjay Sharma; Robert Sutton

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A non-minimum phase robust nonlinear neuro-wavelet predictive control strategy for a quadruple tank process

机译：四缸过程的非最小相位鲁棒非线性神经小波预测控制策略

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In process industries model-plant mismatch is a significant problem. Quadruple tank process (QTP) can be configured both in minimum phase and non-minimum phase (NMP). However, in NMP, the control of QTP poses a challenge. This paper addresses that and presents a novel robust wavelet based non-minimum phase control (NMPC) strategy for the challenging QTP using genetic algorithm to find the optimised value of the manipulated variables in NMPC at every sampling time. The QTP is modelled based on wavelet neural network. The simulation results indicate that significant improvements have been achieved both in modelling and control strategies for a QTP system compare to conventional approaches such as the Levenberg-Marquardt.

机译：在过程工业中，模型工厂不匹配是一个重大问题。可以在最小相位和非最小相位（NMP）中配置四槽工艺（QTP）。然而，在NMP中，QTP的控制提出了挑战。本文解决了这一问题，并提出了一种新颖的基于鲁棒小波的非最小相位控制（NMPC）策略，该策略使用遗传算法在每个采样时间找到NMPC中操纵变量的最佳值。 QTP是基于小波神经网络建模的。仿真结果表明，与传统方法（如Levenberg-Marquardt）相比，QTP系统的建模和控制策略均已取得了显着改善。

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来源
《International Journal of Process Systems Engineering》 |2018年第4期|207-229|共23页
作者
Kayode Owa; Asiya Khan; Sanjay Sharma; Robert Sutton;
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作者单位

Automated Scheduling Optimisation and Planning (ASAP) Research Group, University of Nottingham, UK;

Autonomous Marine Systems (AMS) Research Group, University of Plymouth, UK;

Autonomous Marine Systems (AMS) Research Group, University of Plymouth, UK;

Autonomous Marine Systems (AMS) Research Group, University of Plymouth, UK;

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正文语种 eng
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关键词
wavelet neural network; WNN; right hand plane zero; RHPZ; non-minimum-phase; NMP; nonlinear model predictive control; NMPC; quadruple-tank process; QTP; genetic algorithms; GA; multi input multi output; MIMO; model-plant mismatch; MPM; nonlinear optimisation; coupled tank system; CTS;

机译：小波神经网络;WNN;右手零点;RHPZ;非最小相位;NMP;非线性模型预测控制;NMPC;四槽工艺;QTP;遗传算法;GA;多输入多输出;MIMO;模型工厂失配;MPM;非线性优化;耦合储罐系统;CTS;

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专利

1. Robust fault-tolerant control of a class of non-minimum phase nonlinear processes [J] . Wang YQ, Zhou DH, Gao FR Journal of Process Control . 2007,第6期

机译：一类非最小相位非线性过程的鲁棒容错控制
2. TUNING OF NONLINEAR MODEL PREDICTIVE CONTROL FOR QUADRUPLE TANK PROCESS [J] . P.SRINIVASARAO, DR.P.SUBBAIAH Journal of Theoretical and Applied Information Technology . 2014,第2期

机译：四缸工艺非线性模型预测控制的调整。
3. A learning control strategy for non-minimum phase nonlinear processes [J] . Chyi-Tsong Chen, Far-Yi Lee Journal of Chemical Engineering of Japan . 2002,第3期

机译：非最小相位非线性过程的学习控制策略
4. Enhancement of PID Controller Performance for a Quadruple Tank Process with Minimum and Non-Minimum Phase Behaviors [C] . E. Govinda Kumar, B. Mithunchakravarthi, N. Dhivya International Conference on Innovations in Automation and Mechatronics Engineering . 2014

机译：具有最小和非最小阶段行为的四重罐过程的PID控制器性能的增强
5. Digital state space control of the quadruple-tank process. [D] . Desautel, Daniel T. 2014

机译：四缸工艺的数字状态空间控制。
6. Nonlinear versus Ordinary Adaptive Control of Continuous Stirred-Tank Reactor [O] . Jiri Vojtesek, Petr Dostal 2015

机译：连续搅拌釜反应器的非线性与常规自适应控制
7. Enhancement of PID Controller Performance for a Quadruple Tank Process with Minimum and Non-Minimum Phase Behaviors [O] . Kumar E. Govinda, Mithunchakravarthi B., Dhivya N. 2014

机译：具有最小和非最小相行为的四槽过程的PID控制器性能增强

A non-minimum phase robust nonlinear neuro-wavelet predictive control strategy for a quadruple tank process

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