非线性锥形油箱液位过程的优化分数阶PID (FOPID)控制器

2020 IEEE Applied Signal Processing Conference (ASPCON) Pub Date : 2020-10-07 DOI:10.1109/ASPCON49795.2020.9276670

Mary Ann George, D. Kamath, I. Thirunavukkarasu

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引用次数: 4

摘要

本文讨论了采用Nelder-Mead (NM)算法设计非线性圆锥罐液位过程的非整阶PID控制器，并将其性能与基于粒子群优化(PSO)和遗传算法(GA)的控制器进行了比较。本文介绍了驱动器的能量利用率，并比较了整阶PID (IOPID)和分数阶PID (FOPID)控制器的性能。锥形水箱由四个操作区域组成，每个区域的高度为7厘米。本文考虑了(14-21)cm范围内锥形罐过程的一阶加死区时间(FOPDT)模型，该模型采用两点方法进行了识别。给出了采用IOPID控制器和FOPID控制器的锥形罐系统的伺服和调节响应，并对其性能指标进行了评价和比较。仿真和实验结果表明，与经典的IOPID控制器、PSO调谐的FOPID控制器和GA调谐的FOPID控制器相比，Nelder-Mead (NM)优化的FOPID控制器具有更好的设定点跟踪和控制器响应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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An Optimized Fractional-Order PID (FOPID) Controller for a Non-Linear Conical Tank Level Process

This work discusses the design of a non-integer-order PID controller for a non-linear conical tank liquid level process using Nelder-Mead (NM) algorithm and compares its performance with Particle Swarm Optimization (PSO) and Genetic Algorithm (GA) based controllers. The paper presents the energy utilization of the actuator and compare its performance using both integer-order PID (IOPID) and fractional-order PID (FOPID) controllers. The conical tank consists of four operating regions with a height of 7 cm for each region. A first-order plus dead time (FOPDT) model of the conical tank process for a region between (14-21) cm is considered in this work, which is identified using the two-point method. The servo and regulatory responses of the conical tank system with IOPID and FOPID controllers are presented and performance indices are evaluated and compared. Both simulation and experimental results show that Nelder-Mead (NM) optimized FOPID controller has a better set-point tracking and controller response compared to the classical IOPID controller, PSO tuned FOPID, and GA tuned FOPID.

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来源期刊

2020 IEEE Applied Signal Processing Conference (ASPCON)

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