A mathematical model for real-time flight simulation of a tilt rotor research aircraft was developed. The mathematical model was used to support the aircraft design, pilot training, and proof-of-concept aspects of the development program. The structure of the mathematical model is indicated by a block diagram. The mathematical model differs from that for a conventional fixed wing aircraft principally in the added requirement to represent the dynamics and aerodynamics of the rotors, the interaction of the rotor wake with the airframe, and the rotor control and drive systems. The constraints imposed on the mathematical model are defined.


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    Title :

    V/STOL Tilt Rotor Study - Volume 5: A Mathematical Model for Real Time Flight Simulation of the Bell Model 301 Tilt Rotor Research Aircraft


    Contributors:
    P B Harendra (author) / M J Joglekar (author) / T M Gaffey (author) / R L Marr (author)

    Published in:

    Publication date :

    1973-04-13


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English