• Title of article

    Observer Based Optimal Vibration Control of a Full Aircraft System Having Active Landing Gears and Biodynamic Pilot Model

  • Author/Authors

    Yazici1, Hakan Department of Mechanical Engineering - Yildiz Technical University, Istanbul, Turkey , Sever, Mert Department of Mechatronics Engineering - Yildiz Technical University, Istanbul, Turkey

  • Pages
    21
  • From page
    1
  • To page
    21
  • Abstract
    This paper deals with the design of an observed based optimal state feedback controller having pole location constraints for an active vibration mitigation problem of an aircraft system. An eleven-degree-of-freedom detailed full aircraft mathematical model having active landing gears and a seated pilot body is developed to control and analyze aircraft vibrations caused by runway excitation, when the aircraft is taxiing. Ground induced vibration can contribute to the reduction of pilot’s capability to control the aircraft and cause the safety problem before take-off and after landing. Since the state variables of the pilot body are not available for measurement in practice, an observed based optimal controller is designed via Linear Matrix Inequalities (LMIs) approach. In addition, classical LQR controller is designed to investigate effectiveness of the proposed controller. The system is then simulated against the bump and random runway excitation. The simulation results demonstrate that the proposed controller provides significant improvements in reducing vibration amplitudes of aircraft fuselage and pilot’s head and maintains the safety requirements in terms of suspension stroke and tire deflection.
  • Keywords
    Biodynamic Pilot Model , Observer Based Optimal , Vibration Control , Full Aircraft System , Having Active Landing Gears
  • Journal title
    Shock and Vibration
  • Serial Year
    2016
  • Record number

    2615146