![]() Yadav, Analysis of Speed Control of DC Motor-A review study, Int. Mehdi Nasri, Hossein Nezamabadi-pour, “A PSO-Based Optimum Design of PID Controller for a Linear Brushless DC Motor,” Int. Zhou, Speed control of DC motor using composite nonlinear feedback control, in 2009 IEEE International Conference on Control and Automation, ICCA 2009, Christchurch, 2009, pp. Bin Mamat, Modelling and simulation for Industrial DC Motor using Intelligent control, in Procedia Engineering, 2012, vol. Mija, Design and performance evaluation of robust SMC schemes for speed control of DC motor, in Proceedings of 2014 IEEE International Conference on Advanced Communication, Control and Computing Technologies, ICACCCT 2014, Ramanathapuram, 2015, pp. Shrivastava, A Review on Types of DC Motors and the Necessity of Starter for Its Speed Regulation, Int. Finally, the paper presents some open issues and future directions for research.Ĭopyright © 2020 Praise Worthy Prize - All rights reserved. For a robust review, the application of various forms of PID controller, as well as different types of DC motors are examined. A short description for each algorithm is presented along with papers published in various renowned journals. This review, therefore, presents the optimization of the PID controller with metaheuristic algorithms for controlling the DC motor drives. In recent decades, metaheuristic algorithms have become increasingly prevalent due to their tremendous success in addressing a number real-world optimization challenges in various fields of human activities extending from economic, pharmaceutical and industrial applications to intellectual applications. The application of metaheuristic algorithms as a means of implementing Artificial Intelligence (AI) in this area has proven to be highly effective in overcoming these shortcomings. ![]() Many classical techniques have been used in the past to control the DC motor, however, such methods typically take a long time, particularly when used for complex nonlinear systems. It is essential to control the speed, position, torque and other variables of the DC motor to achieve the needed performance depending on the area of application. This is attributable to their extraordinary flexibility, durability and low implementation cost. Direct Current (DC) motors are broadly used in various industrial applications such as robotics, automobiles, toys and for many other motoring purposes.
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