Title :
A fuzzy gain-scheduler for the attitude control of an unmanned helicopter
Author :
Kadmiry, Bourhane ; Driankov, Dimiter
Author_Institution :
Linkoping Univ., Sweden
Abstract :
In this paper, we address the design of an attitude controller that achieves stable, and robust aggressive maneuverability for an unmanned helicopter. The controller proposed is in the form of a fuzzy gain-scheduler, and is used for stable and robust altitude, roll, pitch, and yaw control. The controller is obtained from a realistic nonlinear multiple-input-multiple-output model of a real unmanned helicopter platform, the APID-MK3. The results of this work are illustrated by extensive simulation, showing that the objective of aggressive, and robust maneuverability has been achieved.
Keywords :
MIMO systems; aerospace robotics; attitude control; feedback; fuzzy control; helicopters; mobile robots; nonlinear control systems; remotely operated vehicles; robust control; APID-MK3; Takagi-Sugeno control; altitude control; attitude control; fuzzy gain-scheduler; nonlinear multi-input multi-output model; output-feedback control; pitch control; robust control; roll control; unmanned helicopter; yaw control; Attitude control; Fuzzy control; Helicopters; Helium; Intelligent sensors; Robust control; Robustness; Trajectory; Unmanned aerial vehicles; Velocity control; Fuzzy gain scheduling; Takagi–Sugeno fuzzy control; output-feedback fuzzy control; unmanned helicopter;
Journal_Title :
Fuzzy Systems, IEEE Transactions on
DOI :
10.1109/TFUZZ.2004.832539
