Fast algorithm for angular sweeping in FEM based on interpolative decomposition

Jing Wei Hao; Xiao Min Pan; Xin Qing Sheng

doi:10.15918/j.tbit1001-0645.2016.05.011

Fast algorithm for angular sweeping in FEM based on interpolative decomposition

Jing Wei Hao, Xiao Min Pan^*, Xin Qing Sheng

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

A fast angular sweeping algorithm based on interpolative decomposition was proposed for the finite element method (FEM) to efficiently compute monostatic radar dispersion section (RCS). In the algorithm, an excitation matrix was constructed from multiple right-hand-sides (RHSs) associated with different incidents. Then, interpolative decomposition (ID) was applied to the excitation matrix to figure out the skeleton incidents. After the solutions corresponding to the skeleton incidents were obtained through FEM, the desired angular responses could be reconstructed from those of skeletons. The results of numerical experiments on isotropic and anisotropic dielectric targets show the efficiency and accuracy of the proposed algorithm.

Original language	English
Pages (from-to)	498-501
Number of pages	4
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	36
Issue number	5
DOIs	https://doi.org/10.15918/j.tbit1001-0645.2016.05.011
Publication status	Published - 1 May 2016

Keywords

Angular sweeping
Finite element method(FEM)
ID
Skeleton

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10.15918/j.tbit1001-0645.2016.05.011

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title = "Fast algorithm for angular sweeping in FEM based on interpolative decomposition",

abstract = "A fast angular sweeping algorithm based on interpolative decomposition was proposed for the finite element method (FEM) to efficiently compute monostatic radar dispersion section (RCS). In the algorithm, an excitation matrix was constructed from multiple right-hand-sides (RHSs) associated with different incidents. Then, interpolative decomposition (ID) was applied to the excitation matrix to figure out the skeleton incidents. After the solutions corresponding to the skeleton incidents were obtained through FEM, the desired angular responses could be reconstructed from those of skeletons. The results of numerical experiments on isotropic and anisotropic dielectric targets show the efficiency and accuracy of the proposed algorithm.",

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AU - Pan, Xiao Min

AU - Sheng, Xin Qing

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N2 - A fast angular sweeping algorithm based on interpolative decomposition was proposed for the finite element method (FEM) to efficiently compute monostatic radar dispersion section (RCS). In the algorithm, an excitation matrix was constructed from multiple right-hand-sides (RHSs) associated with different incidents. Then, interpolative decomposition (ID) was applied to the excitation matrix to figure out the skeleton incidents. After the solutions corresponding to the skeleton incidents were obtained through FEM, the desired angular responses could be reconstructed from those of skeletons. The results of numerical experiments on isotropic and anisotropic dielectric targets show the efficiency and accuracy of the proposed algorithm.

AB - A fast angular sweeping algorithm based on interpolative decomposition was proposed for the finite element method (FEM) to efficiently compute monostatic radar dispersion section (RCS). In the algorithm, an excitation matrix was constructed from multiple right-hand-sides (RHSs) associated with different incidents. Then, interpolative decomposition (ID) was applied to the excitation matrix to figure out the skeleton incidents. After the solutions corresponding to the skeleton incidents were obtained through FEM, the desired angular responses could be reconstructed from those of skeletons. The results of numerical experiments on isotropic and anisotropic dielectric targets show the efficiency and accuracy of the proposed algorithm.

KW - Angular sweeping

KW - Finite element method(FEM)

KW - ID

KW - Skeleton

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JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

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Fast algorithm for angular sweeping in FEM based on interpolative decomposition

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Keywords

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