Title :
Robust Landing Control and Simulation for Flying Wing UAV
Author :
Rui, Wang ; Zhou, Zhou ; Yanhang, Shen
Author_Institution :
Northwestern Polytech Univ., Xi´´an
Abstract :
The object of this paper is to design a robust longitudinal landing controller for a flying wing UAV, taking into account both actual ground effect and some typical atmospheric conditions. In order to track the desired trajectory even when the UAV is under influence of uncertainties and disturbances, a mixed H2/Hinfin, robust control method is adopted in this paper. The H2 part is to meet excellent dynamic responds; the H2 part is to minimize the affection of the disturbance to the performance output. The feedback control gain involved in the method is derived by linear matrix inequality (LMI) approach. Finally, the robust controller derived from this paper is simulated by a nonlinear numerical flight simulator, the results compared to those of classical PID controller show that, the robust landing controller can meet the performances better.
Keywords :
aerospace control; aerospace simulation; aircraft landing guidance; feedback; linear matrix inequalities; optimal control; remotely operated vehicles; robust control; H2 control; Hinfin robust control; feedback control gain; flying wing UAV; linear matrix inequality; nonlinear numerical flight simulator; robust longitudinal landing controller; Aerospace simulation; Atmospheric modeling; Feedback control; Linear matrix inequalities; Numerical simulation; Robust control; Three-term control; Trajectory; Uncertainty; Unmanned aerial vehicles; Auto Landing; Flying Wing UAV; LMI; Mixed H2/H¿; Robust Control; Simulation;
Conference_Titel :
Control Conference, 2007. CCC 2007. Chinese
Conference_Location :
Hunan
Print_ISBN :
978-7-81124-055-9
Electronic_ISBN :
978-7-900719-22-5
DOI :
10.1109/CHICC.2006.4346934
