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An analytical design of Fractional Order Proportional Integral and [Proportional Integral] controllers for robust velocity servo

机译：鲁棒速度伺服的分数阶比例积分和[比例积分]控制器的解析设计

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In this paper, two tuning methods of fractional order proportional integral (FOPI) controller and fractional order [Proportional Integral] (FO[PI]) controller for the typical first-order velocity servo system are discussed. Using the integer order proportional, integral and derivative (IOPID) controller, the controller can not be designed to follow the proposed tuning idea to achieve the robustness requirement. However, the FOPI and FO[PI] controllers designed by the proposed tuning methods can improve the performance and robustness of the first order velocity servo system. Furthermore, following the proposed systematic and analytical design schemes, the FO[PI] controller outperforms the FOPI controller. Simulation results are presented to validate the proposed tuning methods.

机译：本文讨论了典型一阶速度伺服系统的分数阶比例积分（FOPI）控制器和分数阶[比例积分]（FO [PI]）控制器的两种调整方法。使用整数阶比例，积分和微分（IOPID）控制器时，无法将控制器设计为遵循建议的调整思路来达到鲁棒性要求。但是，通过所提出的调整方法设计的FOPI和FO [PI]控制器可以提高一阶速度伺服系统的性能和鲁棒性。此外，遵循提出的系统和分析设计方案，FO [PI]控制器的性能优于FOPI控制器。仿真结果表明了所提出的调优方法的有效性。

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来源
《IEEE Conference on Industrial Electronics and Applications;ICIEA 2009 》|2009年|3448-3453|共6页
会议地点 Xi'an(CN);Xi'an(CN)
作者
ChunYang Wang; Ying Luo; YangQuan Chen;
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作者单位

Dept. of Electron. & Inf. Eng. Changchun Univ. of Sci. & Technol. Changchun;

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DC motors; PI control; control system synthesis; machine control; robust control; servomotors; three-term control; velocity control; FOPI controller design; IOPID control; analytical design; fractional order proportional integral controller; integer order proportional; integral-and-derivative controller; robust DC motor velocity servo system; First-Order Velocity Servo Plant; Fractional Order Calculus; Fractional Order Proportional Integral(FOPI) Controller; Fractional Order (FO[PI]) Controller; Integer Order PID (IOPID)Controller; Robustness;

机译：直流电动机PI控制；控制系统综合机器控制；鲁棒的控制；伺服电机三项控制；速度控制； FOPI控制器设计； IOPID控件；分析设计；分数阶比例积分控制器；整数阶比例积分微分控制器；强大的直流电动机速度伺服系统；一阶速度伺服设备；分数阶微积分；分数阶比例积分（FOPI）控制器；分数阶[比例积分]（FO [PI]）控制器；整数顺序PID（IOPID）控制器;坚固性;

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1. Analytical Design of Fractional Order Proportional Integral Derivative Controller and Fuzzy Proportional Integral Derivative Controller for High Order System [J] . Chun-Yang Wang, Tong Yi, Xiao-Yu Zhao, 哈尔滨工业大学学报（英文版） . 2013 ,第004期

机译：高阶系统分数阶比例积分微分控制器和模糊比例积分微分控制器的分析设计
2. Design of an integer order proportional-integral/proportional-integral-derivative controller based on model parameters of a certain class of fractional order systems [J] . Yumuk Erhan, Guzelkaya Mujde, Eksin Ibrahim Proceedings of the Institution of Mechanical Engineers . 2019 ,第3期

机译：基于一类分数阶系统模型参数的整数阶比例积分/比例积分微分控制器设计
3. Robust adaptive fractional order proportional integral derivative controller design for uncertain fractional order nonlinear systems using sliding mode control [J] . Yaghooti Bahram, Salarieh Hassan Proceedings of the Institution of Mechanical Engineers . 2018 ,第5期

机译：不确定分数阶非线性系统的鲁棒自适应分数阶比例积分导数控制器设计。
4. An Analytical Design of Fractional Order Proportional Integral and Proportional Integral Controllers for Robust Velocity Servo [C] . ChunYang Wang, Ying Luo, YangQuan Chen IEEE Conference on Industrial Electronics and Applications . 2009

机译：用于鲁棒速度伺服的分数比例积分和比例积分控制器的分析设计
5. Practical tuning method for fractional order proportional and integral controllers. [D] . Bhaskaran, Tripti. 2007

机译：分数阶比例和积分控制器的实用调整方法。
6. Design of an intelligent controller for a grain dryer: A support vector machines for regression inverse model proportional–integral–derivative controller [O] . Aini Dai, Xiaoguang Zhou, Zidan Wu 2020

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7. Analytical Design of Fractional Order Proportional Integral Controller for Spherical Tank [O] . Neenu Elizabeth Cherian, Dr. K. Sundaravadivu 2016

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8. Design of Nonlinear PID (Proportional-Integral-Derivative) Controllers [R] . Rugh, W. J. 1987

机译：非线性pID（比例 - 积分 - 微分）控制器的设计

An analytical design of Fractional Order Proportional Integral and [Proportional Integral] controllers for robust velocity servo

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