This paper presents a general approach for terrain following (including obstacle avoidance) of a vertical take-off and landing vehicle (VTOL) using multiple observation points. The VTOL vehicle is assumed to be a rigid body, equipped with a minimum sensor suite (camera, IMU and barometric altimeter), manoeuvering over a textured rough terrain made of a concatenation of planar surfaces. Assuming that the forward velocity is separately regulated to a desired non-zero value, the proposed control approach ensures terrain following and guarantees the vehicle does not collide with obstacles during the task. The proposed control acquires an optical flow from multiple spatially separate observation points, typically obtained via multiple cameras or...
In a modern society, autonomous quadrotors can be used to perform tasks and collect data in dangerou...
There is considerable interest in designing guidance systems for UAVs that use passive sensing (such...
Cette thèse propose de nouvelles commandes basées sur un retour visuel pour le guidage de drones. El...
This paper presents a nonlinear controller for terrain following of a vertical take-off and landing ...
This paper presents a nonlinear controller for hovering flight and landing control on a moving platf...
This paper presents a nonlinear controller for a vertical take-off and landing (VTOL) unmanned aeria...
International audienceThis paper considers the question of landing an Unmanned Aerial Vehicles (UAV)...
This thesis deals with navigation of a VTOL Unmanned Aerial Vehicle in unknown or uncertain environm...
This paper presents a nonlinear controller for hovering flight and touchdown control for a Vertical ...
In this paper, vision-based autonomous flight with a quadrotor type unmanned aerial vehicle (UAV) is...
This thesis proposes novel vision-based controllers for the guidance of Unmanned Aerial Vehicles (UA...
There is considerable interest in designing guidance systems for UAVs that use passive sensing (such...
There is considerable interest in designing guidance systems for UAVs that use passive sensing (such...
There is considerable interest in designing guidance systems for UAVs that use passive sensing (such...
Due to the high demands on military and commercial applications, the development of UAVs (unmanned a...
In a modern society, autonomous quadrotors can be used to perform tasks and collect data in dangerou...
There is considerable interest in designing guidance systems for UAVs that use passive sensing (such...
Cette thèse propose de nouvelles commandes basées sur un retour visuel pour le guidage de drones. El...
This paper presents a nonlinear controller for terrain following of a vertical take-off and landing ...
This paper presents a nonlinear controller for hovering flight and landing control on a moving platf...
This paper presents a nonlinear controller for a vertical take-off and landing (VTOL) unmanned aeria...
International audienceThis paper considers the question of landing an Unmanned Aerial Vehicles (UAV)...
This thesis deals with navigation of a VTOL Unmanned Aerial Vehicle in unknown or uncertain environm...
This paper presents a nonlinear controller for hovering flight and touchdown control for a Vertical ...
In this paper, vision-based autonomous flight with a quadrotor type unmanned aerial vehicle (UAV) is...
This thesis proposes novel vision-based controllers for the guidance of Unmanned Aerial Vehicles (UA...
There is considerable interest in designing guidance systems for UAVs that use passive sensing (such...
There is considerable interest in designing guidance systems for UAVs that use passive sensing (such...
There is considerable interest in designing guidance systems for UAVs that use passive sensing (such...
Due to the high demands on military and commercial applications, the development of UAVs (unmanned a...
In a modern society, autonomous quadrotors can be used to perform tasks and collect data in dangerou...
There is considerable interest in designing guidance systems for UAVs that use passive sensing (such...
Cette thèse propose de nouvelles commandes basées sur un retour visuel pour le guidage de drones. El...