• 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