Inverted Pendulum Stabilization by means of Fractional Order PID Controllers

机译：通过分数阶PID控制器倒置摆稳定

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A simulated study of three different control strategies to stabilize an inverted pendulum on a cart is presented in this paper. Linear Quadratic Regulator (LQR), Integer order PID (IOPID) and Fractional order PID (FOPID) are designed, applied and compared. A nonlinear model of the cart-pendulum system is first derived and used later in the simulation of the control strategies aforementioned. The tuning parameters of all three controllers are obtained using Particle Swarm Optimization (PSO) technique, using the Integral of the Squared Error (ISE) index as fitting function, when a sequence of step reference inputs is applied.The simulation results, when applying a sequence of step references, show a better performance for the LQR, when using the cost function of the LQR as performance index. However, in the more general case of a sinusoidal references, the FOPID is the one that exhibits the best behavior.

机译：本文介绍了三种不同控制策略的模拟研究，以稳定推车上的倒挂摆。设计，施加并比较了线性二次调节剂（LQR），整数PID（IOPID）和分数阶PID（FOPID）。首先在上述控制策略的模拟中衍生出车身系统的非线性模型。所有三个控制器的调谐参数都是使用粒子群优化（PSO）技术获得的，使用平方误差（ISE）索引作为拟合函数的积分，当应用一系列步进参考输入时。仿真结果，应用a步进引用序列，在使用LQR的成本函数作为性能指标时，对LQR表示更好的性能。然而，在正弦引用的更常见情况下，FoPid是表现出最佳行为的案例。

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《Chilean Conference on Electrical, Electronics Engineering, Information and Communication Technologies》|2017年|621-1273p|共7页
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Rodrigo Oróstica; Manuel A. Duarte-Mermoud; Cristian Jáuregui; Gastón Lefranc;
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中图分类 TN91-53;
关键词
Inverted Pendulum; Linear Quadratic Regulator; Particle Swarm Optimization; PID Control; Fractional order PID; Stabilization;

机译：倒立的摆锤;线性二次调节器;粒子群优化;PID控制;分数PID;稳定化;

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1. Stabilization and Tracking Control of Inverted Pendulum Using Fractional Order PID Controllers [J] . Mishra Sunil Kumar, Chandra Dinesh Journal of Engineering . 2014,第1期

机译：分数阶PID控制器对倒立摆的稳定与跟踪控制。
2. A Better Stability Control of Inverted Pendulum System Using FMINCON Based FOPID Controller Over Fractional Order Based MRAC Controller [J] . Deep Mukherjee, Palash Kundu, Apurba Ghosh International journal of natural computing research . 2019,第1期

机译：与基于分数阶的MRAC控制器相比，使用基于FMINCON的FOPID控制器更好地控制了倒立摆系统的稳定性
3. Stabilizing and Swinging-Up the Inverted Pendulum Using PI and PID Controllers Based on Reduced Linear Quadratic Regulator Tuned by PSO [J] . M. E. Mousa, M. A. Ebrahim, M. A. Moustafa Hassan International Journal of System Dynamics Applications: An official publication of the Information Resources Management Association . 2015,第4期

机译：基于PSO精简线性二次调节器的PI和PID控制器来稳定和摆倒立摆
4. Stabilization of inverted pendulum using LQR, PID and fractional order PID controllers: A simulated study [C] . Rodrigo Oróstica, Manuel A. Duarte-Mermoud, Cristian Jáuregui 2016 IEEE International Conference on Automatica . 2016

机译：使用LQR，PID和分数阶PID控制器稳定倒立摆的仿真研究
5. An Evolutionary Model-Free Controller and its Application to the Swing-Up of a Double Inverted Pendulum [D] . Pamulaparthy, Venkata Dhruva. 2017

机译：无进化模型的控制器及其在双倒立摆中的应用
6. A New Fuzzy-Evidential Controller for Stabilization of the Planar Inverted Pendulum System [O] . Yongchuan Tang, Deyun Zhou, Wen Jiang 2011

机译：新型稳定平面倒立摆系统的模糊证据控制器
7. A performance analysis of fractional order based MARC controller over optimal fractional order PID controller on inverted pendulum [O] . Deep Mukherjee, Palash Kumar Kundu, Apurba Ghosh 2018

机译：基于分数顺序的MARC控制器在倒摆上最优分数阶PID控制器的性能分析

Inverted Pendulum Stabilization by means of Fractional Order PID Controllers

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