Purpose This study aims to develop a quadrotor with a robust control system against weight variations. A Proportional-Integral-Derivative (PID) controller based on Particle Swarm Optimization and Differential Evaluation to tune the parameters of PID has been implemented with real-time simulations of the quadrotor. Design/methodology/approach The optimization algorithms are combined with the PID control mechanism of the quadrotor to increase the performance of the trajectory tracking for a quadrotor. The dynamical model of the quadrotor is derived by using Newton-Euler equations. Findings In this study, the most efficient control parameters of the quadrotor are selected using evolutionary optimization algorithms in real-time simulations. The...
PID controllers are vital in the control for many systems such as suspension systems, Automatic Volt...
This paper is focused on the dynamic of mathematical modeling, stability, nonlinear gain control by ...
In this paper, a proposed particle swarm optimization called multi-objective particle swarm optimiza...
The rapid development of microprocessor, electrical, sensors and advanced control technology make a ...
A real-time novel algorithm for proportional, integral and derivative (PID) controller tuning for qu...
Quadrotor UAVs are one of the most preferred types of small unmanned aerial vehicles, due to their m...
Proportional, Integral and Derivative (PID) controllers are the most popular type of controller used...
In the present study, different solution methods are discussed in order to control the quadrotor wit...
In the last decade, because of the unique specification of vertical fliers, scientists and researche...
Quadrotors are coming up as an attractive platform for unmanned aerial vehicle (UAV) research, due t...
Nowadays, quadcopter motion control has become a popular research topic because of its versatile abi...
The usage of Quadcopter in commercial fields has evolved significantly due to its phenomenal develop...
In this chapter, a design method for determining the optimal sliding mode controller parameters for ...
The paper deals with the design of an autopilot for a quadrotor based on a PID controller. A mathema...
PID controllers are vital in the control for many systems such as suspension systems, Automatic Volt...
This paper is focused on the dynamic of mathematical modeling, stability, nonlinear gain control by ...
In this paper, a proposed particle swarm optimization called multi-objective particle swarm optimiza...
The rapid development of microprocessor, electrical, sensors and advanced control technology make a ...
A real-time novel algorithm for proportional, integral and derivative (PID) controller tuning for qu...
Quadrotor UAVs are one of the most preferred types of small unmanned aerial vehicles, due to their m...
Proportional, Integral and Derivative (PID) controllers are the most popular type of controller used...
In the present study, different solution methods are discussed in order to control the quadrotor wit...
In the last decade, because of the unique specification of vertical fliers, scientists and researche...
Quadrotors are coming up as an attractive platform for unmanned aerial vehicle (UAV) research, due t...
Nowadays, quadcopter motion control has become a popular research topic because of its versatile abi...
The usage of Quadcopter in commercial fields has evolved significantly due to its phenomenal develop...
In this chapter, a design method for determining the optimal sliding mode controller parameters for ...
The paper deals with the design of an autopilot for a quadrotor based on a PID controller. A mathema...
PID controllers are vital in the control for many systems such as suspension systems, Automatic Volt...
This paper is focused on the dynamic of mathematical modeling, stability, nonlinear gain control by ...
In this paper, a proposed particle swarm optimization called multi-objective particle swarm optimiza...