A Discontinuous galerkin self-dual integral equation method for scattering from ibc objects

Xiao Wei Huang; Xin Qing Sheng

doi:10.1109/TAP.2019.2905670

A Discontinuous galerkin self-dual integral equation method for scattering from ibc objects

Xiao Wei Huang, Xin Qing Sheng^*

^*此作品的通讯作者

集成电路与电子学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

30 引用（Scopus）

摘要

A discontinuous Galerkin self-dual integral equation (DG-SDIE) method is presented for accurately calculating electromagnetic scattering from objects with impedance boundary condition (IBC) surfaces. The working mechanisms of each term in the DG-SDIE formulation are studied physically and numerically. Based on the mechanisms, we propose a new efficient nonsymmetric DG-SDIE formulation (NDG-SDIE) for IBC problems. A comprehensive study is made to compare the NDG-SDIE with the previous symmetric DG-SDIE (SDG-SDIE) and antisymmetric DG-SDIE (ADG-SDIE) extension formulations for IBC. Numerical results demonstrate that NDG-SDIE is more efficient than SDG-SDIE and ADG-SDIE while generally maintaining the similar accuracy. In addition, we show that the DG methods are more attractive than the standard SDIE due to its flexible performance on large complex multiscale objects.

源语言	英语
文章编号	8668489
页（从-至）	4708-4717
页数	10
期刊	IEEE Transactions on Antennas and Propagation
卷	67
期	7
DOI	https://doi.org/10.1109/TAP.2019.2905670
出版状态	已出版 - 7月 2019

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10.1109/TAP.2019.2905670

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Huang, X. W., & Sheng, X. Q. (2019). A Discontinuous galerkin self-dual integral equation method for scattering from ibc objects. IEEE Transactions on Antennas and Propagation, 67(7), 4708-4717. 文章 8668489. https://doi.org/10.1109/TAP.2019.2905670

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title = "A Discontinuous galerkin self-dual integral equation method for scattering from ibc objects",

abstract = "A discontinuous Galerkin self-dual integral equation (DG-SDIE) method is presented for accurately calculating electromagnetic scattering from objects with impedance boundary condition (IBC) surfaces. The working mechanisms of each term in the DG-SDIE formulation are studied physically and numerically. Based on the mechanisms, we propose a new efficient nonsymmetric DG-SDIE formulation (NDG-SDIE) for IBC problems. A comprehensive study is made to compare the NDG-SDIE with the previous symmetric DG-SDIE (SDG-SDIE) and antisymmetric DG-SDIE (ADG-SDIE) extension formulations for IBC. Numerical results demonstrate that NDG-SDIE is more efficient than SDG-SDIE and ADG-SDIE while generally maintaining the similar accuracy. In addition, we show that the DG methods are more attractive than the standard SDIE due to its flexible performance on large complex multiscale objects.",

keywords = "Discontinuous Galerkin (DG) method, electromagnetic (EM) scattering, impedance boundary condition (IBC), surface integral equations (SIE)",

author = "Huang, {Xiao Wei} and Sheng, {Xin Qing}",

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T1 - A Discontinuous galerkin self-dual integral equation method for scattering from ibc objects

AU - Huang, Xiao Wei

AU - Sheng, Xin Qing

PY - 2019/7

Y1 - 2019/7

N2 - A discontinuous Galerkin self-dual integral equation (DG-SDIE) method is presented for accurately calculating electromagnetic scattering from objects with impedance boundary condition (IBC) surfaces. The working mechanisms of each term in the DG-SDIE formulation are studied physically and numerically. Based on the mechanisms, we propose a new efficient nonsymmetric DG-SDIE formulation (NDG-SDIE) for IBC problems. A comprehensive study is made to compare the NDG-SDIE with the previous symmetric DG-SDIE (SDG-SDIE) and antisymmetric DG-SDIE (ADG-SDIE) extension formulations for IBC. Numerical results demonstrate that NDG-SDIE is more efficient than SDG-SDIE and ADG-SDIE while generally maintaining the similar accuracy. In addition, we show that the DG methods are more attractive than the standard SDIE due to its flexible performance on large complex multiscale objects.

AB - A discontinuous Galerkin self-dual integral equation (DG-SDIE) method is presented for accurately calculating electromagnetic scattering from objects with impedance boundary condition (IBC) surfaces. The working mechanisms of each term in the DG-SDIE formulation are studied physically and numerically. Based on the mechanisms, we propose a new efficient nonsymmetric DG-SDIE formulation (NDG-SDIE) for IBC problems. A comprehensive study is made to compare the NDG-SDIE with the previous symmetric DG-SDIE (SDG-SDIE) and antisymmetric DG-SDIE (ADG-SDIE) extension formulations for IBC. Numerical results demonstrate that NDG-SDIE is more efficient than SDG-SDIE and ADG-SDIE while generally maintaining the similar accuracy. In addition, we show that the DG methods are more attractive than the standard SDIE due to its flexible performance on large complex multiscale objects.

KW - Discontinuous Galerkin (DG) method

KW - electromagnetic (EM) scattering

KW - impedance boundary condition (IBC)

KW - surface integral equations (SIE)

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A Discontinuous galerkin self-dual integral equation method for scattering from ibc objects

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