Agile UAVs is a special class of fixed-wing aircraft characterized by high thrust-to-weight ratios (around 2 to 3) and big control surfaces (around 40 to 50% chord) with deflections as large as 50 degrees; and hence capable of extreme maneuvers and aerobatics. The intent of this paper is to model the aerodynamics of agile UAVs for real-time applications such as pilot-in-loop aircraft simulation, accounting for the unique geometry of the aerodynamic/ control surfaces, high angles of attack encountered during maneuvers and aerobatics, and also unforeseen changes in the aerodynamics in the event of a crash/ accident. Conventional modeling techniques, such as the stability derivatives approach, are not suitable due to the highly nonlinear nature of the aerodynamics and in particular because of the strong coupling of the aircraft states. Hence in the present work, a component breakdown approach is utilized to model agile UAV aerodynamics for the complete angle of attack range. Simplifications have made in the model to retain real-time functionality without losing much accuracy. For the purpose of validation, wind-tunnel testing is done for different angle of attack conditions including completely reversed flow. A good agreement between the simulation and experiments establishes the validity of the proposed approach and the aerodynamics model, with max. rms errors of ∼0.15 N and 0.05 N.m in aerodynamic forces and moments.


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    Title :

    Real-time modeling of agile fixed-wing UAV aerodynamics


    Contributors:
    Khan, Waqas (author) / Nahon, Meyer (author)


    Publication date :

    2015-06-01


    Size :

    3166873 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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