Resumen

Este artículo presenta el diseño de un algoritmo genético (AG) para la optimización de las ganancias de un controlador PI para aplicaciones de control de un motor de CD. A diferencia de los AGs existentes en la literatura, el AG propuesto utiliza como variables de interés el tiempo de asentamiento y el sobreimpulso.  La implementación del sistema incluye pruebas de laboratorio con un motor de corriente directa de 1 HP y un sistema de torque controlado.

Palabra(s) Clave: Algoritmo genético, Controlador PI, Motor de CD.

GENETIC ALGORITHM TO OPTIMIZE THE GAINS OF A PI CONTROLLER IN A CD ENGINE

Abstract

This paper presents the design of a Genetic Algorithm (AG) for the optimization of the gains of a PI controller for control applications of a CD motor. In contrast to the AGs in the literature, the proposed AG uses settlement time and overshoot as variables of interest. The system implementation includes lab tests with a 1 HP direct current motor and a torque controlled system.

Keywords: DC motor Genetic algorithm, PI controller.

Guohan Lin, Guofan Liu “Tuninng PID Controller Using Adaptive Genetic Algorithms,” The 5th International Conference On Computer Science & Education, 2010, pp 519-523.

Nayana Patil, Girish Lakhekar, “Improved performance of cascade control system using genetic algorithm,” Proceedings of WRFER International Conference 16th, 2017, pp 80-87.

Son Yan, Yang Guoxing “A genetic algorithm of test paper generation,” The 8th International Conference on Computer Science & Education., 2013, pp 897-901.

Wang Jingfang “Immune genetic algorithm for solving nonlinear equation,” International Conference on Mechatronic Science, electric and computer, 2011, pp 2094-2097.

Norman S. Nise, “Modeling in the frequency domain” in Control System Engineering 6ta. Ed. John Wiley & Sons, Inc. 2010, pp 33-97.

https://www.mathworks.com/discovery/parameter-estimation.html

https://www.mathworks.com/products/sysid.html

Katsugiko Ogata, “Controladores PID y sistemas de control con dos grados de libertad,” Ingeniería de control moderna., 4ta. Ed. Pearson Prentice Hall, 2003, pp. 641–724.