Weight function shape parameter optimization in meshless methods for non-unifrom grids

Janez Perko, Bozidar Sarler

    Research outputpeer-review


    This work introduces a procedure for automated determination of weight function free parameters in moving least squares based meshless methods for non-uniform grids. The meshless method used in present work is Diffuse Approximate Method (DAM). The DAM is structured in 2D with the one or two parameter Gaussian weigh function. The procedure consists of three main elements. The first is definition of the reference quality function which measures the difference between the MLS approximation on non-uniform and hypothetic uniform node arrangements. The second is the construction of the object function from the reference quality function which has to be minimized for optimum performance of the method on non-uniform node arrangement. The third is the optimization procedure for obtaining the minimum of the object function. The main idea of this paper is demonstrated on solution of the transient Burgers equation on non-uniform grids. The inverse Gauss function is used as a reference quality function and object function is built from the second partial derivatives. A substantial improvement of the accuracy of the method is achieved with the locally optimized values of the weight function compared to the fixed value that was exclusively used in previous DAM literature.
    Original languageEnglish
    Pages (from-to)55-68
    JournalComputer Modeling in Engineering & Sciences
    Issue number1
    StatePublished - Apr 2007

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