Pasi Ylä‐Oijala scite author profile

[1] In this paper, formulation of the surface integral equations for solving electromagnetic scattering by dielectric and composite metallic and dielectric objects with iterative methods is studied. Four types of formulations are considered: T formulations, N formulations, the combined field integral equation formulation, and the Müller formulation. By studying properties of the integral equations and their testing in the Galerkin method, ''optimal'' forms for each formulation type are derived. Numerical examples demonstrate that the developed new formulations lead to clear improvements in the convergence rates when the matrix equations are solved iteratively with the generalized minimal residual method. Both the Rao-Wilton-Glisson and Trintinalia-Ling (TL) basis functions are used in expanding the unknown electric and magnetic surface current densities. In particular, the first-order TL basis functions are required in the N formulations to maintain the solution accuracy when the surfaces include sharp edges.Citation: Ylä-Oijala, P., M. Taskinen, and S. Järvenpää (2005), Surface integral equation formulations for solving electromagnetic scattering problems with iterative methods, Radio Sci., 40, RS6002,

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Calculation of cfie impedance matrix elements with RWG and n x RWG functions

Ylä‐Oijala

Taskinen

2003

IEEE Trans. Antennas Propagat.

243

146

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Application of combined field Integral equation for electromagnetic scattering by dielectric and composite objects

Ylä‐Oijala

Taskinen

2005

IEEE Trans. Antennas Propagat.

208

140

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Well-conditioned Muller formulation for electromagnetic scattering by dielectric objects

Ylä‐Oijala¹,

Taskinen²

2005

IEEE Trans. Antennas Propagat.

142

122

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Current and Charge Integral Equation Formulation

Taskinen¹,

Ylä‐Oijala²

2006

IEEE Trans. Antennas Propagat.

163

117

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Pasi Ylä‐Oijala

Surface integral equation formulations for solving electromagnetic scattering problems with iterative methods

Calculation of cfie impedance matrix elements with RWG and n x RWG functions

Application of combined field Integral equation for electromagnetic scattering by dielectric and composite objects

Well-conditioned Muller formulation for electromagnetic scattering by dielectric objects

Current and Charge Integral Equation Formulation

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