In this thesis, a Takagi-Sugeno model for an Attitude/Altitude model of a quadrotor system is developed. With this Takagi-Sugeno model, a gain-scheduling state-feedback controller, as well as a state observer, have been designed for altitude and orientation control. Then, two different control schemes are analyzed in order to have a good performance on tracking changing references in the Attitude/Altitude control. Then an Integral Backstepping controller has been designed for the control of horizontal position. The stability of the whole control system has been studied, and finally the models and controllers have been tested in a simulation environment
Modelling, system identification and the controller for variable length quad-rotors are presented in...
This paper includes attitude controller design ideas for a quadrotor platform which can be regarded ...
The paper considers the problem of synthesizing a control law that stabilizes the spatial position o...
In this paper a robust controller for attitude stabilization of a Quadrotor UAV is proposed. For thi...
International audienceThis paper presents a model reference attitude tracking controller design for ...
This article addresses the control problem of an unmanned quadrotor in an indoor environment where t...
This paper presents an overview of the most effective ideas for the Quad-rotor project. The concept ...
In this paper vertical, transition and horizontal modes flight controllers of a tilt-wing quadrotor ...
ABSTRACT The work proposed in this paper aim to design tow controllers for attitude stabilization of...
This article addresses the control problem of an unmanned quadrotor in an indoor environment where t...
This paper introduces an adaptive sliding mode control approach for stabilizing and tracking traject...
Introduction. Unmanned aerial vehicles as quadcopters, twin rotors, fixed-wing crafts, and helicopte...
International audienceThis paper considers the problem of attitude and altitude control of quadrotor...
International audienceThis paper proposes a nonlinear control technique to control the position of t...
This paper presents the trajectory planning of an under-actuated quadcopter unmanned aerial vehicle....
Modelling, system identification and the controller for variable length quad-rotors are presented in...
This paper includes attitude controller design ideas for a quadrotor platform which can be regarded ...
The paper considers the problem of synthesizing a control law that stabilizes the spatial position o...
In this paper a robust controller for attitude stabilization of a Quadrotor UAV is proposed. For thi...
International audienceThis paper presents a model reference attitude tracking controller design for ...
This article addresses the control problem of an unmanned quadrotor in an indoor environment where t...
This paper presents an overview of the most effective ideas for the Quad-rotor project. The concept ...
In this paper vertical, transition and horizontal modes flight controllers of a tilt-wing quadrotor ...
ABSTRACT The work proposed in this paper aim to design tow controllers for attitude stabilization of...
This article addresses the control problem of an unmanned quadrotor in an indoor environment where t...
This paper introduces an adaptive sliding mode control approach for stabilizing and tracking traject...
Introduction. Unmanned aerial vehicles as quadcopters, twin rotors, fixed-wing crafts, and helicopte...
International audienceThis paper considers the problem of attitude and altitude control of quadrotor...
International audienceThis paper proposes a nonlinear control technique to control the position of t...
This paper presents the trajectory planning of an under-actuated quadcopter unmanned aerial vehicle....
Modelling, system identification and the controller for variable length quad-rotors are presented in...
This paper includes attitude controller design ideas for a quadrotor platform which can be regarded ...
The paper considers the problem of synthesizing a control law that stabilizes the spatial position o...