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Optimal fractional order PID controller for magnetic levitation system

机译：用于磁悬浮系统的最佳分数PID控制器

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In this paper an Optimal Fractional Order proportional-integral-derivative (FOPID) controller is designed to levitate the iron ball in the air space using an electromagnetic coil. The infra-red sensor fixed on the vertical sides of the magnetic levitation system (MLS) is being helpful to sense the position of the ball. The controller enables the electromagnetic coil to maintain a specified force so that the ball is levitated. To achieve the desired electro-magnetic force the performance index i.e. the integral square error (ISE) of the system is minimized. The parameters of FOPID controller are optimized using Nelder's-Mead (NM) optimization algorithm. The integer order approximation of the FOPID controller is done by using Oustaloup's method. The performance of the proposed controller is validated by comparing it with the conventional PID controller.

机译：在本文中，最佳分数顺序比例积分衍生物（FoPID）控制器设计用于使用电磁线圈在空气空间中的铁球浮动。固定在磁悬浮系统（MLS）的垂直侧面的红外传感器是有助于感测球的位置。控制器使电磁线圈能够保持指定的力，使得球被悬浮。为了实现所需的电磁力，性能指标即，系统的整体方误差（ISE）被最小化。 FoPID控制器的参数使用Nelder'-Mead（NM）优化算法进行了优化。 FoPID控制器的整数近似通过使用抛光源的方法来完成。通过将其与传统PID控制器进行比较来验证所提出的控制器的性能。

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来源
《National Systems Conference》|2015年||共5页
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作者
Santosh Kumar Verma; Shekhar Yadav; Shyam Krishna Nagar;
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正文语种
中图分类计算技术、计算机技术;
关键词
FOPID controller; Fractional Calculus; Magnetic levitation system; NM-optimization algorithm;

机译：FoPID控制器;分数微积分;磁悬浮系统;NM优化算法;

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1. Design and Implementation of Digital Fractional Order PID Controller Using Optimal Pole-Zero Approximation Method for Magnetic Levitation System [J] . Amit S. Chopade, Swapnil W. Khubalkar, Anjali S. Junghare, 自动化学报：英文版 . 2018,第005期

机译：磁悬浮系统最优零零点近似数字分数阶PID控制器的设计与实现
2. Design and Implementation of Digital Fractional Order PID Controller Using Optimal Pole-Zero Approximation Method for Magnetic Levitation System [J] . Amit S. Chopade, Swapnil W. Khubalkar, A. S. Junghare, 自动化学报（英文版） . 2018,第005期

机译：磁悬浮系统最优零零点近似数字分数阶PID控制器的设计与实现
3. Design of fractional model reference adaptive PID controller to magnetic levitation system with permagnet [J] . P. Ananthababu, Ch. V.N. Raja, D.V. Pushpa Latha, International journal of systems,control and communications . 2016,第1期

机译：具有永磁体的磁悬浮系统的分数模型参考自适应PID控制器设计
4. Optimal fractional order PID controller for magnetic levitation system [C] . Santosh Kumar Verma, Shekhar Yadav, Shyam Krishna Nagar Proceedings of the 2015 39th National Systems Conference . 2015

机译：磁悬浮系统的最优分数阶PID控制器
5. Data based design of PID controllers for a magnetic levitation experiment. [D] . Kallakuri, PavanaSirisha. 2011

机译：基于数据的磁悬浮实验PID控制器设计。
6. 2DOF multi-objective optimal tuning of disturbance reject fractional order PIDA controllers according to improved consensus oriented random search method [O] . Necati Ozbey, Celaleddin Yeroglu, Baris Baykant Alagoz, 2020

机译：2DOF多目标最佳调整干扰抑制分数阶PIDA控制器根据改进的共识导向随机搜索方法
7. Design of Levitation Controller with Optimal Fuzzy PID Controller for Magnetic Levitation System [O] . Jae-Hoon Cho, Yong-Tae Kim 2014

机译：磁悬浮系统最优模糊PID控制器的悬浮控制器设计
8. Neural network based time-optimal control of a magnetically levitated precision positioning system [R] . Redmond, J, Tucker, S 1994

机译：基于神经网络的磁悬浮精密定位系统的时间最优控制

Optimal fractional order PID controller for magnetic levitation system

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