2013
DOI: 10.2528/pier12092403
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Block Matrix Preconditioner Method for the Electric Field Integral Equation (Efie) Formulation Based on Loop-Star Basis Functions

Abstract: Abstract-In this paper, electromagnetic scattering problems are analyzed using an electric field integral equation (EFIE) formulation that is based on loop-star basis functions so as to avoid low-frequency instability problems. Moreover, to improve the convergence rate of iterative methods, a block matrix preconditioner (BMP) is applied to the EFIE formulation based on loop star-basis functions. Because the matrix system resulting from the conventional method of moments is a dense matrix, a sparse matrix versi… Show more

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Cited by 3 publications
(2 citation statements)
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“…More efficient preconditioners are proposed by making use of the approximate Schur complement [7]. Since (7) is not a 2 × 2 partitioned system [14,15], these preconditioners are difficult to be extended from homogeneous bodies to multilayer dielectric object.…”
Section: Construction Of Preconditionermentioning
confidence: 99%
“…More efficient preconditioners are proposed by making use of the approximate Schur complement [7]. Since (7) is not a 2 × 2 partitioned system [14,15], these preconditioners are difficult to be extended from homogeneous bodies to multilayer dielectric object.…”
Section: Construction Of Preconditionermentioning
confidence: 99%
“…As a quasi-Helmholtz decomposition and robust low-frequency solver, the loop-tree or loopstar decomposition [4][5][6][7][8] separates the surface current into solenoidal and irrotational parts to capture the inductance and capacitance physics, respectively. After frequency normalization, however, the matrix is still ill-conditioned giving rise to bad convergence especially for a dense mesh.…”
Section: Introductionmentioning
confidence: 99%