Conventional control strategies for holonomic Unmanned Aircraft Systems (UASs) require that, while executing a mission, the UAS attitude dynamics remains very close to zero in order to satisfy the assumption of small angles approximation. This requirement may be valid for hover flight, but not for translational flights or aggressive maneuvers. To overcome this issue, this paper presents the controllability analysis for a non-linear representation of a holonomic UAS. Under the proposed scheme, it is shown that it is possible to design control schemes for stabilizing the complete UAS state space without the necessity of separating the system in attitude and translation subsystems. A set of simulations are presented to evaluate the effectivene...
hen observing an Autonomous Unmanned Aerial Vehicle(UAV) race, one would be hard-pressed to call it ...
International audienceThis paper addresses a predictive control strategy for Unmanned Air Vehicles i...
The last decade has seen significant advances in the development of Vertical takeoff and landing (VT...
International audienceConventional control strategies for holonomic Unmanned Aircraft Systems (UASs)...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
In this paper, we propose a new method and algorithms that allow us to design complex spatial trajec...
In this paper, a coupled-attitude based trajectory tracking scheme is proposed to track both the pos...
This dissertation contributes to the subject of position tracking and path following for nonlinear n...
Abstract—An adaptive position-tracking control scheme is pro-posed for vertical take-off and landing...
This paper proposes a single-feature vision-based control system for unmanned aerial vehicles with h...
This thesis presents a non linear automatic unmanned aerial vehicle (UAV) control simulation demons...
This thesis deals with the general problem of controlling rigid-body systems through space, with a s...
International audienceIn this paper, we show in detail a synthesis procedure of the control scheme r...
International audienceThis paper addresses the implementation of a predictive control strategy for U...
This paper proposes a nonlinear control strategy to solve the trajectory tracking problem of a tilt-...
hen observing an Autonomous Unmanned Aerial Vehicle(UAV) race, one would be hard-pressed to call it ...
International audienceThis paper addresses a predictive control strategy for Unmanned Air Vehicles i...
The last decade has seen significant advances in the development of Vertical takeoff and landing (VT...
International audienceConventional control strategies for holonomic Unmanned Aircraft Systems (UASs)...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
In this paper, we propose a new method and algorithms that allow us to design complex spatial trajec...
In this paper, a coupled-attitude based trajectory tracking scheme is proposed to track both the pos...
This dissertation contributes to the subject of position tracking and path following for nonlinear n...
Abstract—An adaptive position-tracking control scheme is pro-posed for vertical take-off and landing...
This paper proposes a single-feature vision-based control system for unmanned aerial vehicles with h...
This thesis presents a non linear automatic unmanned aerial vehicle (UAV) control simulation demons...
This thesis deals with the general problem of controlling rigid-body systems through space, with a s...
International audienceIn this paper, we show in detail a synthesis procedure of the control scheme r...
International audienceThis paper addresses the implementation of a predictive control strategy for U...
This paper proposes a nonlinear control strategy to solve the trajectory tracking problem of a tilt-...
hen observing an Autonomous Unmanned Aerial Vehicle(UAV) race, one would be hard-pressed to call it ...
International audienceThis paper addresses a predictive control strategy for Unmanned Air Vehicles i...
The last decade has seen significant advances in the development of Vertical takeoff and landing (VT...