A Mixed Discretization Scheme for Discontinuous Galerkin Domain Decomposition Method Applied to Surface Integral Equations

Zi Yang Liang; Hong Wei Gao; Xi Min Xin; Shu Wang; Zhen Peng

doi:10.1109/LAWP.2024.3489661

A Mixed Discretization Scheme for Discontinuous Galerkin Domain Decomposition Method Applied to Surface Integral Equations

Zi Yang Liang, Hong Wei Gao, Xi Min Xin, Shu Wang, Zhen Peng

Electrical and Computer Engineering

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

Abstract

The discontinuous Galerkin (DG) based domain decomposition method has been proposed for analyzing complex electromagnetic scattering problems. For targets involving material regions, the electric and magnetic current combined field integral equation (JMCFIE) is often used. Since JMCFIE integrates first- and second-kind Fredholm integral equations, its accuracy is lower compared to the one using only first-kind integral equations. To address this issue, this letter studies a mixed discretization scheme (MDS) for the DG-JMCFIE, using Buffa-Christiansen (BC) functions and Rao-Wilton-Glisson (RWG) functions as testing functions. For the first time, we provide explicit formulations for BC functions on the boundaries of DG subdomains. We also introduce a novel interior penalty (IP) method to weakly enforce current continuity across subdomain boundaries within the BC-RWG mixed discretization scheme. Numerical experiments are conducted to evaluate the accuracy and convergence of our proposed method.

Original language	English (US)
Pages (from-to)	192-196
Number of pages	5
Journal	IEEE Antennas and Wireless Propagation Letters
Volume	24
Issue number	1
DOIs	https://doi.org/10.1109/LAWP.2024.3489661
State	Published - Jan 2025

Keywords

Buffa-Christiansen (BC) basis function
discontinuous galerkin (DG) method
domain decomposition method (DDM)
electric and magnetic current combined field integral equations (JMCFIE)
multi-scale problems

ASJC Scopus subject areas

Electrical and Electronic Engineering

Online availability

10.1109/LAWP.2024.3489661

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title = "A Mixed Discretization Scheme for Discontinuous Galerkin Domain Decomposition Method Applied to Surface Integral Equations",

abstract = "The discontinuous Galerkin (DG) based domain decomposition method has been proposed for analyzing complex electromagnetic scattering problems. For targets involving material regions, the electric and magnetic current combined field integral equation (JMCFIE) is often used. Since JMCFIE integrates first- and second-kind Fredholm integral equations, its accuracy is lower compared to the one using only first-kind integral equations. To address this issue, this letter studies a mixed discretization scheme (MDS) for the DG-JMCFIE, using Buffa-Christiansen (BC) functions and Rao-Wilton-Glisson (RWG) functions as testing functions. For the first time, we provide explicit formulations for BC functions on the boundaries of DG subdomains. We also introduce a novel interior penalty (IP) method to weakly enforce current continuity across subdomain boundaries within the BC-RWG mixed discretization scheme. Numerical experiments are conducted to evaluate the accuracy and convergence of our proposed method.",

keywords = "Buffa-Christiansen (BC) basis function, discontinuous galerkin (DG) method, domain decomposition method (DDM), electric and magnetic current combined field integral equations (JMCFIE), multi-scale problems",

author = "Liang, {Zi Yang} and Gao, {Hong Wei} and Xin, {Xi Min} and Shu Wang and Zhen Peng",

note = "This work was supported in part by the National Natural Science Foundation of China under Grant 62171027 and in part by the Beijing Institute of Technology Research Fund Program for Young Scholars.",

year = "2025",

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doi = "10.1109/LAWP.2024.3489661",

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AU - Liang, Zi Yang

AU - Gao, Hong Wei

AU - Xin, Xi Min

AU - Wang, Shu

AU - Peng, Zhen

N1 - This work was supported in part by the National Natural Science Foundation of China under Grant 62171027 and in part by the Beijing Institute of Technology Research Fund Program for Young Scholars.

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N2 - The discontinuous Galerkin (DG) based domain decomposition method has been proposed for analyzing complex electromagnetic scattering problems. For targets involving material regions, the electric and magnetic current combined field integral equation (JMCFIE) is often used. Since JMCFIE integrates first- and second-kind Fredholm integral equations, its accuracy is lower compared to the one using only first-kind integral equations. To address this issue, this letter studies a mixed discretization scheme (MDS) for the DG-JMCFIE, using Buffa-Christiansen (BC) functions and Rao-Wilton-Glisson (RWG) functions as testing functions. For the first time, we provide explicit formulations for BC functions on the boundaries of DG subdomains. We also introduce a novel interior penalty (IP) method to weakly enforce current continuity across subdomain boundaries within the BC-RWG mixed discretization scheme. Numerical experiments are conducted to evaluate the accuracy and convergence of our proposed method.

AB - The discontinuous Galerkin (DG) based domain decomposition method has been proposed for analyzing complex electromagnetic scattering problems. For targets involving material regions, the electric and magnetic current combined field integral equation (JMCFIE) is often used. Since JMCFIE integrates first- and second-kind Fredholm integral equations, its accuracy is lower compared to the one using only first-kind integral equations. To address this issue, this letter studies a mixed discretization scheme (MDS) for the DG-JMCFIE, using Buffa-Christiansen (BC) functions and Rao-Wilton-Glisson (RWG) functions as testing functions. For the first time, we provide explicit formulations for BC functions on the boundaries of DG subdomains. We also introduce a novel interior penalty (IP) method to weakly enforce current continuity across subdomain boundaries within the BC-RWG mixed discretization scheme. Numerical experiments are conducted to evaluate the accuracy and convergence of our proposed method.

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A Mixed Discretization Scheme for Discontinuous Galerkin Domain Decomposition Method Applied to Surface Integral Equations

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