This paper describes the avian wing geometry (Seagull, Merganser, Teal and Owl) extracted from non-contact surface measurements using a three-dimensional laser scanner. The geometric quantities, including the camber line and thickness distribution of airfoil, wing planform, chord distribution, and twist distribution, are given in convenient analytical expressions. Thus, the avian wing surfaces can be generated and the wing kinematics can be simulated. The aerodynamic characteristics of avian airfoils in steady inviscid flows are briefly discussed. The avian wing kinematics is recovered from videos of three level-flying birds (Crane, Seagull and Goose) based on a two-jointed arm model. A flapping seagull wing in the 3D physical space is re-constructed from the extracted wing geometry and kinematics.


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    Title :

    Avian Wings


    Contributors:
    T. Liu (author) / K. Kuykendoll (author) / R. Rhew (author) / S. Jones (author)

    Publication date :

    2004


    Size :

    24 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English




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