In this paper, a design and a simulation of a PID controller are presented to control a DC motor speed. The design is proposed to increase a dynamic stability of the motor speed. Changing the speed setpoint values may generate oscillations, thus the controller is required to maintain a system stability. The PID controller is tuned using Differential Evolutionary (DE) and Particle Swarm Optimization (PSO) algorithms. Performance of both algorithms is compared by Integral Square Error (ISE) and rise time values. Experiments are performed by changing the speed setpoint values. In simulation results, the ISE and the rise time values of the DE algorithm are slower than the PSO algorithm
This paper presents archimedes optimization algorithm (AOA) and dispersive flies optimization (DFO) ...
Traditionally, the PID controller parameters are tuned heuristically based on time response behavior...
The aim of this research is to design a PID Controller using PSO algorithm. The model of a DC motor ...
In this paper, a design and a simulation of a PID controller are presented to control a DC motor spe...
The DC motors are widely used in the mechanisms that require control of speed. Different speed can b...
The aim of this paper is to design a speed controller of a DC motor by selection of PID parameters u...
PID controllers are vital in the control for many systems such as suspension systems, Automatic Volt...
The use of DC motors is now common because of its advantages and has become an important necessity i...
The point of this paper presents an optimization technique which is flexible and quick tuning by usi...
This paper proposes the design a of PID controller to improve the dynamic response of a DC motor usi...
The paper uses the Direct Synthesis (DS) method for tuning the Proportional Integral Derivative (PID...
The proportional-integral-derivative (PID) controller is widely used in various industrial applicati...
The Direct current motors are in different types and there are several methods for controlling of th...
Most of the current industrial devices use the controllers of the type Proportional Integral and Der...
This paper investigates the application of different optimization techniques to tune the parameters ...
This paper presents archimedes optimization algorithm (AOA) and dispersive flies optimization (DFO) ...
Traditionally, the PID controller parameters are tuned heuristically based on time response behavior...
The aim of this research is to design a PID Controller using PSO algorithm. The model of a DC motor ...
In this paper, a design and a simulation of a PID controller are presented to control a DC motor spe...
The DC motors are widely used in the mechanisms that require control of speed. Different speed can b...
The aim of this paper is to design a speed controller of a DC motor by selection of PID parameters u...
PID controllers are vital in the control for many systems such as suspension systems, Automatic Volt...
The use of DC motors is now common because of its advantages and has become an important necessity i...
The point of this paper presents an optimization technique which is flexible and quick tuning by usi...
This paper proposes the design a of PID controller to improve the dynamic response of a DC motor usi...
The paper uses the Direct Synthesis (DS) method for tuning the Proportional Integral Derivative (PID...
The proportional-integral-derivative (PID) controller is widely used in various industrial applicati...
The Direct current motors are in different types and there are several methods for controlling of th...
Most of the current industrial devices use the controllers of the type Proportional Integral and Der...
This paper investigates the application of different optimization techniques to tune the parameters ...
This paper presents archimedes optimization algorithm (AOA) and dispersive flies optimization (DFO) ...
Traditionally, the PID controller parameters are tuned heuristically based on time response behavior...
The aim of this research is to design a PID Controller using PSO algorithm. The model of a DC motor ...