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Direct Solution of Finite Element-Boundary Integral System for Electromagnetic Analysis in Half-Space

Ting Wan, M. Z. Li, L. F. Li

2020IEEE Transactions on Antennas and Propagation24 citationsDOI

Abstract

An efficient direct solution scheme is presented to solve the finite element-boundary integral (FEBI) system for the analysis of open-region electromagnetic problems in half-space. Data-sparse representation based on hierarichal (H-) matrix is employed to construct the direct solution framework. The FEBI system matrix is first represented to be an H-matrix form, in which the FE submatrices are accurately represented by H-matrices, while the H-matrix approximations of the BI submatrices are constructed by the adaptive cross approximation algorithm combined with singular value decomposition recompression (ACA-SVD). Based on the data-sparse formatted algorithm, the lower and upper (LU) triangular factors of the FEBI system matrix can be computed and stores as H-matrix forms with low computational costs. The resulting method, refered to as the direct FEBI method (D-FEBI), is free of convergence problem and well-suited for multiple right-hand side (RHS) computations. The performance of the D-FEBI is examined by two examples of monostatic electromagnetic scattering above a lossy half-space.

Topics & Concepts

Block matrixMatrix (chemical analysis)MathematicsFinite element methodSingular value decompositionSparse matrixComputational electromagneticsBoundary (topology)Band matrixMathematical analysisAlgorithmSymmetric matrixElectromagnetic fieldPhysicsSquare matrixEigenvalues and eigenvectorsGaussianComposite materialMaterials scienceQuantum mechanicsThermodynamicsElectromagnetic Scattering and AnalysisElectromagnetic Simulation and Numerical MethodsElectromagnetic Compatibility and Measurements
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