This paper deals with aerodynamic shape optimization using a high-fidelity solver. Because of the computational cost needed to solve the Reynolds-averaged Navier-Stokes equations, the performance of the shape must be improved using very few objective function evaluations, despite the high number of design variables. In our framework, the reference algorithm is a quasi-Newton gradient optimizer. An adjoint method inexpensively computes the sensitivities of the functions, with respect to design variables, to build the gradient of the objective function. As usual, aerodynamic functions show numerous local optima when the shape varies, and a more global optimizer is expected to be beneficial. Consequently, a kriging-based optimizer is set up and described. It uses an original sampling refinement process that adds up to three points per iteration by using a balancing between function minimization and error minimization. To efficiently apply this algorithm to high-dimensional problems, the same sampling process is reused to form a cokriging (gradient-enhanced model) based optimizer. A comparative study is then described on two drag-minimization problems depending on 6 and 45 design variables. This study was conducted using an original set of performance criteria, characterizing the strength and weakness of each optimizer in terms of improvement, cost, exploration, and exploitation.


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    Title :

    Comparison of gradient-based and gradient-enhanced response-surface-based optimizers


    Additional title:

    Vergleich von gradientenbasierten und gradientverstärkten Reaktionsoberflächen-Optimierern


    Contributors:
    Laurenceau, J. (author) / Meaux, M. (author) / Montagnac, M. (author) / Sagaut, P. (author)

    Published in:

    AIAA Journal ; 48 , 5 ; 981-994


    Publication date :

    2010


    Size :

    14 Seiten, 14 Bilder, 4 Tabellen, 33 Quellen




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English




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