Title :
Visual landing insensitive to the depth with velocity and control constraints: A twisting based solution
Author :
Burlion, Laurent ; de Plinval, Henry
Author_Institution :
French Aerosp. Lab., Onera, Toulouse, France
Abstract :
This paper proposes a nonlinear vision based flight control law for the automatic landing of an aircraft. Although a number of methods have been proposed in this domain, our method differs by the following features. First, we do not assume knowledge of the runway size or distance from the aircraft, or the help of a ground technology to guide the aircraft. Second, this design addresses the model nonlinearities, so that it copes for initial conditions far away from the desired trajectory. Third, the control law takes input saturations into account. Fourth, it limits overshoots during the transient phase, so that the runway motion inside the videocamera image plane is limited to a minimum, and so is the risk for it to get out of the field of view. Our approach is illustrated in simulation with a simplified aircraft model. In particular good robustness properties with respect to noisy visual features are demonstrated.
Keywords :
aircraft landing guidance; computer vision; control nonlinearities; image motion analysis; image sensors; robust control; velocity control; aircraft; automatic landing; control constraints; input saturations; model nonlinearities; nonlinear vision based flight control law; robustness properties; runway motion; runway size; transient phase; twisting based solution; velocity constraints; videocamera image plane; visual landing; Aerospace control; Aircraft; Atmospheric modeling; Earth; Trajectory; Visual servoing; Visualization; landing UAV; saturation; second order sliding mode; twisting controller; visual servoing;
Conference_Titel :
Control and Automation (MED), 2015 23th Mediterranean Conference on
Conference_Location :
Torremolinos
DOI :
10.1109/MED.2015.7158813
