International audienceThe paper presents an adaptive trajectory tracking control strategy for quadrotor Micro Aerial Vehicles (MAVs). The proposed approach, while maintaining the common assumption of an orientation dynamics faster than the translational one, removes the assumption of absence of external disturbances and of Geometric Center coincident with the Center of Mass. In particular, the trajectory tracking control law is made adaptive with respect to the presence of external forces and moments (e.g., due to wind) and to the uncertainty of parameters of the dynamic model, such as the position of the center of mass. A stability analysis is presented to analytically support the proposed controller, while numerical simulations are provid...
This paper focuses on the disturbance attenuation control of the quadrotor suspended payload system ...
This work proposes three robust mechanisms based on the MIT rule and the sliding-mode techniques. Th...
International audienceIn the near future, unmanned aerial vehicles are probably going to be included...
International audienceThe paper presents an adaptive trajectory tracking control strategy for quadro...
The paper presents an adaptive trajectory tracking control strategy for quadrotor Micro Aerial Vehic...
In this paper, an adaptive trajectory tracking controller for quadrotor MAVs is presented. The contr...
Abstract—In this paper, an adaptive trajectory tracking controller for quadrotor MAVs is presented. ...
Abstract This paper presents the design, analysis, and implementation of an adaptive backstepping co...
Unmanned Aerial Vehicles (UAV) control has become a very important point of scientific study. The co...
This paper presents a novel adaptive control algorithm solving the trajectory tracking problem for q...
A micro air vehicle (MAV) is physically lightweight, such that even a slight perturbation could affe...
This paper presents nonlinear tracking control systems for a quadrotor unmanned aerial vehicle under...
This paper presents a nonlinear control approach for quadrotor Micro Aerial Vehicles (MAVs), which c...
This paper presents an adaptive robust nonlinear control method, which achieves reliable trajectory ...
This paper proposes a practical robust attitude controller for uncertain hexarotor micro aerial vehi...
This paper focuses on the disturbance attenuation control of the quadrotor suspended payload system ...
This work proposes three robust mechanisms based on the MIT rule and the sliding-mode techniques. Th...
International audienceIn the near future, unmanned aerial vehicles are probably going to be included...
International audienceThe paper presents an adaptive trajectory tracking control strategy for quadro...
The paper presents an adaptive trajectory tracking control strategy for quadrotor Micro Aerial Vehic...
In this paper, an adaptive trajectory tracking controller for quadrotor MAVs is presented. The contr...
Abstract—In this paper, an adaptive trajectory tracking controller for quadrotor MAVs is presented. ...
Abstract This paper presents the design, analysis, and implementation of an adaptive backstepping co...
Unmanned Aerial Vehicles (UAV) control has become a very important point of scientific study. The co...
This paper presents a novel adaptive control algorithm solving the trajectory tracking problem for q...
A micro air vehicle (MAV) is physically lightweight, such that even a slight perturbation could affe...
This paper presents nonlinear tracking control systems for a quadrotor unmanned aerial vehicle under...
This paper presents a nonlinear control approach for quadrotor Micro Aerial Vehicles (MAVs), which c...
This paper presents an adaptive robust nonlinear control method, which achieves reliable trajectory ...
This paper proposes a practical robust attitude controller for uncertain hexarotor micro aerial vehi...
This paper focuses on the disturbance attenuation control of the quadrotor suspended payload system ...
This work proposes three robust mechanisms based on the MIT rule and the sliding-mode techniques. Th...
International audienceIn the near future, unmanned aerial vehicles are probably going to be included...