A novel intelligent controller for combating stiction in pneumatic control valves

Puneet Mishra; Vineet Kumar; K.P.S. Rana

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A novel intelligent controller for combating stiction in pneumatic control valves

机译：一种新型的气动控制器中抑制静摩擦的控制器

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摘要

Pneumatic control valve introduces limit cycles in process variables due to stiction nonlinearity. In this paper a novel stiction combating intelligent controller (SCIC) based on fuzzy logic has been proposed. The proposed technique reduces the complexity of the overall control scheme as it does not require any additional compensator. The SCIC controller is a variable gain fuzzy Proportional Integral (PI) controller making use of Takagi-Sugeno (TS) scheme. The performance of the SCIC controller has been investigated and compared with conventional PI controller on a laboratory scale flow process. SCIC controller outperformed PI controller and provided promising performance with lesser aggressive stem movement.

机译：气动控制阀由于静摩擦非线性而在过程变量中引入了极限循环。本文提出了一种基于模糊逻辑的新型静力对抗智能控制器（SCIC）。所提出的技术降低了总体控制方案的复杂性，因为它不需要任何额外的补偿器。 SCIC控制器是利用Takagi-Sugeno（TS）方案的可变增益模糊比例积分（PI）控制器。已经对SCIC控制器的性能进行了研究，并在实验室规模的流程过程中将其与常规PI控制器进行了比较。 SCIC控制器的性能优于PI控制器，并提供了令人鼓舞的性能，而其茎运动较少。

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《Control Engineering Practice》 |2014年第12期|94-104|共11页
作者
Puneet Mishra; Vineet Kumar; K.P.S. Rana;
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作者单位

Division of Instrumentation and Control Engineering, Netaji Subhas Institute of Technology, New Delhi, India;

Division of Instrumentation and Control Engineering, Netaji Subhas Institute of Technology, New Delhi, India;

Division of Instrumentation and Control Engineering, Netaji Subhas Institute of Technology, New Delhi, India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Stiction; Deadband; Limit cycles; Pneumatic control valve; Fuzzy PI controller; Flow control;

机译：阻力;死区极限循环;气动控制阀;模糊PI控制器流量控制;

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1. Intelligent Ratio Control in Presence of Pneumatic Control Valve Stiction [J] . Puneet Mishra, Vineet Kumar, K. P. S. Rana Arabian Journal for Science and Engineering. Section A, Sciences . 2016,第2期

机译：气动控制阀静态存在智能比控制
2. Fuzzy gain scheduling of PID controller for stiction compensation in pneumatic control valve [J] . Kumar Vineet, Hakkak Feras, Rohilla Pardeep Kumar Journal of Computational and Applied Research in Mechanical Engineering (JCARME) . 2019,第2期

机译：PID控制器对气动控制阀静态补偿的模糊增益调度
3. Fuzzy I+PD controller for stiction compensation in pneumatic control valve [J] . Pardeep Rohilla, Vineet Kumar, Feras Al Hakkak International Journal of Applied Engineering Research . 2017,第13aPta1期

机译：用于气动控制阀的静力补偿模糊I + PD控制器
4. Stiction combating intelligent controller tuning: A comparative study [C] . Mishra Puneet, Kumar Vineet, Rana K.P.S. 2015 International Conference on Advances in Computer Engineering and Applications . 2015

机译：对抗智能控制器调整的静摩擦：比较研究
5. Control loop performance monitoring: Modeling, diagnosing and compensating stiction phenomenon in process control valves. [D] . Srinivasan, Ranganathan. 2006

机译：控制回路性能监视：建模，诊断和补偿过程控制阀中的粘滞现象。
6. Controlling of Pneumatic Muscle Actuator Systems by Parallel Structure of Neural Network and Proportional Controllers (PNNP) [O] . Alaa Al-Ibadi, Samia Nefti-Meziani, Steve Davis 2020

机译：通过神经网络和比例控制器的平行结构控制气动肌动机系统（PNNP）
7. Modeling and Detection of Stiction in Pneumatic Control Valve [O] . Hiroshi MARUTA, Manabu KANO, Hidekazu KUGEMOTO, 2004

机译：气动控制阀静态建模与检测
8. PNEUMATIC HEADGATE VALVE CONTROLLER [R] . R. Donald Bowdey 1969

机译：气动头阀控制器

A novel intelligent controller for combating stiction in pneumatic control valves

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