Fuzzy logic based self tuning of PI controller for a non linear spherical tank system

机译：基于模糊逻辑的非线性球罐系统PI控制器的自整定

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Tuning the parameters of a controller is very important in system performance. Ziegler and Nichols tuning method is simple and cannot guarantee to be effective always. This paper investigates the design of fuzzy logic based self tuning Proportional Integral (PI) controller on a First order Plus Dead Time (FOPDT) non linear spherical tank system using block box modelling. The real time PI controller was designed for a liquid level process, the servo and regulatory responses of the controller were obtained. The simulation results of conventional PI controller, Internal Model Control (IMC) based PI controller and Self tuning Fuzzy PI controller is obtained using MATLAB. From the simulation it is clear that there is substantial improvement in the Self tuning Fuzzy PI controller in terms of peak overshoot, settling time, peak time, rise time, Integral Square Error (ISE) and Integral Absolute Error (IAE).

机译：调整控制器的参数对于系统性能非常重要。 Ziegler和Nichols调整方法很简单，不能保证始终有效。本文研究了基于模糊逻辑的自整定比例积分（PI）控制器在带有框盒建模的一阶加停滞时间（FOPDT）非线性球罐系统上的设计。针对液位过程设计了实时PI控制器，获得了控制器的伺服和调节响应。使用MATLAB获得了常规PI控制器，基于内部模型控制（IMC）的PI控制器和自整定模糊PI控制器的仿真结果。从仿真中可以明显看出，自整定模糊PI控制器在峰值超调，建立时间，峰值时间，上升时间，积分平方误差（ISE）和积分绝对误差（IAE）方面有了实质性的改进。

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来源
《2012 IEEE International Conference on Computational Intelligence amp; Computing Research》|2012年|p.1-6|共6页
会议地点 Coimbatore(IN)
作者
Sivagurunathan G.; Jayanthi K.B.;
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作者单位

St. Joseph's College of Engineering, Chennai, Tamilnadu, India;

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原文格式 PDF
正文语种 eng
中图分类计算机的应用;
关键词
Data acquisition System; Fuzzy Logic Controller; Internal Model Controller; PI Controller; Process Modeling; Self tuning controller;

机译：数据采集系统；模糊逻辑控制器；内部模型控制器； PI控制器；过程建模；自整定控制器；;

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专利

1. Design of Fuzzy Logic Controller for a Spherical tank system and itsReal time implementation [J] . G.Sakthivel, T.S.Anandhi, S.P.Natarajan International Journal of Engineering Research and Applications . 2011,第3期

机译：球罐系统模糊逻辑控制器的设计及其实时实现
2. Online tuning of fuzzy logic controller using Kalman algorithm for conical tank system [J] . Tamilselvan G.M., Aarthy P. Journal of Applied Research and Technology . 2017,第5期

机译：基于卡尔曼算法的圆锥形储罐系统模糊逻辑控制器在线调整
3. Optimized Tuning of a PID Controller for aNon-Linear Spherical Tank System [J] . Advances in Natural and Applied Sciences . 2014,第22期

机译：非线性球罐系统PID控制器的优化调整
4. Fuzzy logic based self tuning of PI controller for a non linear spherical tank system [C] . Sivagurunathan G., Jayanthi K.B. IEEE International Conference on Computational Intelligence and Computing Research . 2012

机译：基于模糊逻辑的非线性球形罐系统PI控制器自调整
5. Design of a self-tuning fuzzy logic controller for system with variable time delay. [D] . Al-Ahmadi, Saleh O. 2002

机译：可变时滞系统的自调整模糊逻辑控制器设计。
6. Towards the Design and Implementation of an Image-Based Navigation System of an Autonomous Underwater Vehicle Combining a Color Recognition Technique and a Fuzzy Logic Controller [O] . Yu-Hsien Lin, Chao-Ming Yu, Chia-Yu Wu 2021

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7. Online tuning of fuzzy logic controller using Kalman algorithm for conical tank system [O] . G.M. Tamilselvan, P. Aarthy 2017

机译：基于卡尔曼算法的锥形罐系统模糊逻辑控制器在线调试
8. Fuzzy logic controllers: A knowledge-based system perspective [R] . Bonissone, Piero P. 1993

机译：模糊逻辑控制器：基于知识的系统视角

Fuzzy logic based self tuning of PI controller for a non linear spherical tank system

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