This work presents a solution for the position-heading control problem of a small quadrotor. The main idea of this paper is to exploit the advantages of the Linear Parameter Varying (LPV) control approach, together with a feedback linearization approach, for designing a cascade control structure without the need to perform simplifications with respect to the reference dynamic model used in the literature. The use of a LPV representation of the attitude subsystem allows to consider it as independent from the position one, leading to a well known cascade control structure. For the inner attitude control loop, the proposed qLPV-LQR controller and Proportional-Integral Observer (PIO) are solved in an optimal manner by solving a set of Linear Ma...
International audienceIn this paper, we show in detail a synthesis procedure of the control scheme r...
In the last years, several control theories have been widely developed. They are generally applied t...
This study exploits the dynamics and control of quadcopters using Linear Quadratic Regulator (LQR) ...
Small quadcopters have demonstrated to be the perfect testing bench for addressing the autonomous fl...
This work proposes the use of the LPV MPC approach for the position-heading control problem of a sma...
International audienceThis paper addresses the problem of attitude/altitude control of a quadrotor. ...
International audienceThis paper presents a hybrid robust control strategy to solve the trajectory t...
In this paper, a solution for the attitude/altitude tracking control problem is proposed for a quadr...
In this thesis, trajectory tracking of a quadrotor UAV is obtained by controlling attitude and posit...
This master thesis addresses the LPV control of a quadrotor system. The quadorotor model is first tr...
Máster Automàtica i Robòtica.This master thesis addresses the LPV control of a quadrotor system. The...
In this work, two approaches to the control of a quadcopter are followed. The rst approach resorts ...
ABSTRACT The work proposed in this paper aim to design tow controllers for attitude stabilization of...
Due to the various applications of the quadrotor UAV systems increase in a daily basis, the research...
This paper presents the linear quadratic tracking (LQT) control of a quadrotor UAV by solving discre...
International audienceIn this paper, we show in detail a synthesis procedure of the control scheme r...
In the last years, several control theories have been widely developed. They are generally applied t...
This study exploits the dynamics and control of quadcopters using Linear Quadratic Regulator (LQR) ...
Small quadcopters have demonstrated to be the perfect testing bench for addressing the autonomous fl...
This work proposes the use of the LPV MPC approach for the position-heading control problem of a sma...
International audienceThis paper addresses the problem of attitude/altitude control of a quadrotor. ...
International audienceThis paper presents a hybrid robust control strategy to solve the trajectory t...
In this paper, a solution for the attitude/altitude tracking control problem is proposed for a quadr...
In this thesis, trajectory tracking of a quadrotor UAV is obtained by controlling attitude and posit...
This master thesis addresses the LPV control of a quadrotor system. The quadorotor model is first tr...
Máster Automàtica i Robòtica.This master thesis addresses the LPV control of a quadrotor system. The...
In this work, two approaches to the control of a quadcopter are followed. The rst approach resorts ...
ABSTRACT The work proposed in this paper aim to design tow controllers for attitude stabilization of...
Due to the various applications of the quadrotor UAV systems increase in a daily basis, the research...
This paper presents the linear quadratic tracking (LQT) control of a quadrotor UAV by solving discre...
International audienceIn this paper, we show in detail a synthesis procedure of the control scheme r...
In the last years, several control theories have been widely developed. They are generally applied t...
This study exploits the dynamics and control of quadcopters using Linear Quadratic Regulator (LQR) ...