DocumentCode
3176493
Title
Robust LPV H Gain-Scheduled Hover-to-Cruise Conversion for a Tilt-Wing Rotorcraft in the Presence of CG Variations
Author
Dickeson, Jeffrey J. ; Miles, David ; Cifdaloz, Oguzhan ; Wells, Valana L. ; Rodriguez, Armando A.
Author_Institution
Arizona State Univ., Tempe
fYear
2007
fDate
9-13 July 2007
Firstpage
5266
Lastpage
5271
Abstract
This paper describes the development and analysis of gain-scheduled, multi-variable Hinfin control law for the conversion of a linear parameter varying (LPV) model of a high-speed autonomous rotorcraft vehicle (HARVee), an experimental tilt-wing aircraft. Tilt-wing aircraft combine the high-speed cruise capabilities of a conventional airplane with the vertical takeoff and station keeping abilities of a helicopter by rotating their wings at the fuselage. Changing between cruise and hover flight modes in mid-air is referred to as the conversion process, or simply conversion. A nonlinear aerodynamic model was previously developed that captures the unique dynamics of the tilt-wing aircraft. An Hinfin design methodology was used to develop linear controllers along various operating points of a conversion trajectory. The development of these control systems was governed not only by performance specifications at each particular operating point, but also by the unique requirements of a gain-scheduled conversion control system. The performance of the resulting conversion closed-loop systems is analyzed in the frequency and time domains. Performance robustness with respect to variation in the location of the center of gravity (eg) has been studied.
Keywords
Hinfin control; aerodynamics; closed loop systems; control system analysis; frequency-domain analysis; helicopters; linear systems; multivariable control systems; nonlinear control systems; time-domain analysis; vehicle dynamics; CG variations; HARVee; conversion closed-loop systems; frequency domain analysis; helicopter; high-speed autonomous rotorcraft vehicle; hover-to-cruise conversion; linear controllers; linear parameter varying model; multi-variable Hinfin control law; nonlinear aerodynamic model; robust LPV Hinfin gain-scheduled conversion; station keeping abilities; tilt-wing rotorcraft; time domain analysis; vertical takeoff; Aerodynamics; Aerospace control; Aircraft; Airplanes; Character generation; Control systems; Helicopters; Mobile robots; Remotely operated vehicles; Robustness;
fLanguage
English
Publisher
ieee
Conference_Titel
American Control Conference, 2007. ACC '07
Conference_Location
New York, NY
ISSN
0743-1619
Print_ISBN
1-4244-0988-8
Electronic_ISBN
0743-1619
Type
conf
DOI
10.1109/ACC.2007.4283148
Filename
4283148
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