Application of characteristic basis function method for scattering from multi-scale and multiple targets.

Authors: Dr. Yang Su

Source: FERMAT, Volume 29, Communication 2, Sep.-Oct., 2018


Abstract: In this work, the characteristic basis function method is adapted to analyze the problem of scattering from multiple and multi-scale impenetrable targets in conjunction with the discontinuous Galerkin method, and the monopolar RWG functions are chosen as the basis functions. This method enables us to analyze multiple and multi-scale targets using nonconforming discretizations. The use of the CBFs helps reduce the size of the impedance matrix of the associated method of moment significantly, enabling us to employ direct solvers as opposed to iterative solvers. The process of generating the reduced matrix is naturally parallel, and the reduced matrix is well conditioned, which obviates the need for pre-conditioning. In addition, the adaptive cross approximation algorithm is implemented to reduce the complexity of the computation. Numerical results are included to demonstrate the accuracy and efficiency of the present approach when analyzing scattering from multiple and multi-scale targets using nonconforming discretizations.

Index Terms: Characteristic Basis Function Method (CBFM), Integral Equation Discontinuous Galerkin Method (IEDG), Adaptive Cross Approximation (ACA), Method of Moments (MOM), Size Reduction, Multiple Scale


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Application of characteristic basis function method for scattering from multi-scale and multiple targets.