This fifth simulation experiment, using the U.S. Navy X-22A variable stability V/STOL aircraft, was undertaken to generate data for the development to flying qualities and advanced flight control system design criteria for the visual shipboard landing task. Since a broad range of flying qualities were simulated, actual landings were not performed because of flight safety considerations. Instead, a discrete three-dimensional position tracking task, presented to the pilot on a Head-Up-Display (HUD), was devised to evoke pilot control and stabilization activity similar to that in the actual shipboard environment. A microwave landing system with precision ranging capability served as the guidance sensor for both the translational rate flight control system mechanizations and for the HUD tracking information. A total of 111 evaluations were performed of various horizontal and vertical translational rate flight control system dynamics. The primary results of the program defined regions of satisfactory and acceptable flying qualities as functions of velocity command gain and the time constant of velocity response. The limits on command gain and time constant for satisfactory flying qualities indicated by this experiment are considerably smaller than those determined in ground simulator experiments. (Author)
An Experimental Investigation of VTOL Flying Qualities Requirements for Shipboard Landings
1981
262 pages
Report
Keine Angabe
Englisch
Aeronautics , Avionics , Carrier landings , Variable stability aircraft , Flight control systems , Microwave landing systems , Flight simulation , Vertical takeoff aircraft , Pilots , Head up displays , Inertial systems , Attitude control systems , Augmentation , Pitch(Motion) , Roll , Drift , Rates , Yaw , Visual flight rules , Tracking , Range finding , Precision , Flight , Quality , Turbulence , Landing pads , Small ships , Naval aircraft , X-22A aircraft , Workloads , Flying qualities , TRC(Translational Rate Control) , Translations
VTOL flying qualities and flight research use of VTOL variable stability airplanes
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