Title :
Trajectory generation for autonomous soaring UAS
Author :
Clarke, J.H.A. ; Chen, W.-H.
Author_Institution :
Dept. of Aeronaut. & Automotive Eng., Loughborough Univ., Loughborough, UK
Abstract :
As unmanned aerial vehicles are expected to do more and more advanced tasks, improved range and persistence is required. This paper presents a method of using shallow layer cumulus convection to extend the range and duration of small UAVs. A simulation model of an X-Models XCalubur electric motor-glider is used in combination with a refined parametric thermal model to simulate soaring flight. The parametric thermal model builds on previous successful models with refinements to more accurately describe the weather in northern Europe. The implementation of the variation of the MacCready setting is discussed. Methods for generating efficient trajectories are evaluated and recommendations are made regarding implementation.
Keywords :
aircraft control; position control; remotely operated vehicles; sport; UAS; X-models XCalubur electric motor glider; autonomous soaring; parametric thermal model; shallow layer cumulus convection; soaring flight simulation; trajectory generation; unmanned aerial vehicles; Aerospace control; Aircraft; Atmospheric modeling; Mathematical model; Meteorology; Trajectory; Heuristic; Optimal; Soaring; Trajectory; UAS; UAV; thermal;
Conference_Titel :
Automation and Computing (ICAC), 2011 17th International Conference on
Conference_Location :
Huddersfield
Print_ISBN :
978-1-4673-0000-1
