Modeling and Designing a Genetically Optimized PID Controller for Separately Excited DC Motor

机译：用于单独激励直流电动机的遗传优化PID控制器的建模和设计

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

This paper presents an intelligent method to design a proportional-integral-derivative (PID) controller to control the speed of a separately excited DC motor (SEDCM). There are various artificial intelligent (AI) based proposed methods for tuning the parameters of a PID controller. Genetic Algorithm is a powerful optimization tool used to optimize several parameters from the given population based on natural evolution. The purpose of this paper is to obtain the suitable speed characteristics of a SEDCM by optimizing the transient response i.e. by minimizing the settling time, overshoot and the rise time using genetic algorithm (GA). In this method, integral of absolute error (IAE) is taken as the cost function. The GA optimized PID controller shows better performance with respect to settling time, rise time and percentage of overshoot than other conventional methods and adaptive fuzzy PID controller.

机译：本文介绍了设计比例积分衍生（PID）控制器以控制单独激发直流电机（SEDCM）的速度的智能方法。有各种基于人工智精（AI）的提出方法，用于调整PID控制器的参数。遗传算法是一种强大的优化工具，用于优化基于自然演进的给定群体的若干参数。本文的目的是通过优化瞬态响应，通过最小化遗传算法（GA）来最小化静脉响应，过冲和上升时间来获得SEDCM的合适速度特性。在这种方法中，将绝对误差（IAE）的积分作为成本函数。 GA优化的PID控制器在超调的稳定时间，上升时间和百分比而不是其他传统方法和自适应模糊PID控制器的情况下显示出更好的性能。

著录项

来源
《International Conference on Electrical, Computer and Communication Engineering》|2019年|667p|共6页
会议地点
作者
Md. Maniurul Gani; Md. Saiful Isalm; Muhammad Ahsan Ullah;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类 TM-53;
关键词
Genetic algorithms; DC motors; Torque; Mathematical model; Sociology; Statistics; Industries;

机译：遗传算法;直流电动机;扭矩;数学模型;社会学;统计;行业;
入库时间 2022-08-20 23:52:30

相似文献

外文文献
中文文献
专利

1. A Fuzzy Logic Speed Controller for Separately Excited Dc Motor and Its Comparison with PID Speed Controller [J] . Deepshikha, Ramesh Kumar IOSR journal of electrical and electronics engineering . 2014,第4期

机译：直流独立励磁的模糊逻辑速度控制器及其与PID速度控制器的比较
2. Optimization Speed Control of DC Separately Excited Motor Using Tuning Controller of Linear Quadratic Regulator (LQR) Technique [J] . Nikhil Tripathi, Rameshwar Singh International Journal of Engineering Trends and Technology . 2014,第10期

机译：使用线性二次调节器（LQR）技术的调节控制器优化直流独立励磁电动机的速度控制
3. Speed Control of a Separately Excited DC Motor Using New Proposed Fuzzy Neural Algorithm Based on FOPID Controller [J] . Gholamreza Farahani, Karim Rahmani Journal of control, automation and electrical systems . 2019,第5期

机译：基于FoPID控制器的新建模糊神经算法，速度控制单独激励直流电动机
4. Modeling and Designing a Genetically Optimized PID Controller for Separately Excited DC Motor [C] . Md. Maniurul Gani, Md. Saiful Isalm, Muhammad Ahsan Ullah International Conference on Electrical, Computer and Communication Engineering . 2019

机译：分离励磁直流电动机的遗传优化PID控制器建模与设计
5. Dynamic Response of a Separately Excited DC Motor Using Parameter Identification. [D] . Narasimhan, Swarna. 2017

机译：使用参数识别的独立励磁直流电动机的动态响应。
6. On the Design of Hyperstable Feedback Controllers for a Class of Parameterized Nonlinearities. Two Application Examples for Controlling Epidemic Models [O] . Manuel De la Sen 2019

机译：一类参数化非线性的超稳定反馈控制器的设计。控制流行病模型的两个应用示例
7. Speed control of separately excited DC motor using self tuned fuzzy PID controller [O] . Sahoo Prahlad Kumar, Barik Nirmal Kumar 2011

机译：用自调整模糊PID控制器的单独励磁直流电机速度控制。

Modeling and Designing a Genetically Optimized PID Controller for Separately Excited DC Motor

摘要

著录项

相似文献

相关主题

期刊订阅