A New Method for Stable and Accurate Solution of Time-Domain Electric Field Integral Equation

ZHAO Yan-wen; NIE Zai-ping; XU Jian-hua; WU Sheng-bo

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A New Method for Stable and Accurate Solution of Time-Domain Electric Field Integral Equation

更新时间：2025-07-16

- A New Method for Stable and Accurate Solution of Time-Domain Electric Field Integral Equation
- Acta Electronica Sinica Vol. 34, Issue 6, Pages: 1104-1108(2006)
- 作者机构：
  
  电子科技大学电子工程学院,四川,成都,610054
- 作者简介：
- 基金信息：
- DOI：
  CLC： TN011
- Published：2006
- 稿件说明：
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ZHAO Yan-wen, NIE Zai-ping, XU Jian-hua, et al. A New Method for Stable and Accurate Solution of Time-Domain Electric Field Integral Equation[J]. Acta Electronica Sinica, 2006, 34(6): 1104-1108.
DOI：

ZHAO Yan-wen, NIE Zai-ping, XU Jian-hua, et al. A New Method for Stable and Accurate Solution of Time-Domain Electric Field Integral Equation[J]. Acta Electronica Sinica, 2006, 34(6): 1104-1108. DOI：

摘要

时域电场、磁场和混合场积分方程已被广泛用来分析散射体的时域散射响应.基于适当的空间积分方法和隐式的时间步进算(MOT)法在求解时域磁场和混合场积分方程时总是稳定的

然而在求解TDEFIE时则是不稳定的.在本文中

时域电场积分方程的非奇异性积分采用标准的高斯求积法来计算;而利用参数坐标变换和极坐标变换将其奇异性积分转换成为可以分区域精确快速计算的非奇异性积分.通过数值实验表明

利用该方法可以非常精确稳定地求解时域电场积分方程

即使是在时间迭代后期也不必采用任何求平均的过程;另外

该方法可以用于任意时间基函数并可以推广到高阶空间基函数的情形.

Abstract

The time-domain electric

magnetic and combined field integral equations (TDEFIE

TDMFIE and TDCFIE) have been applied widely to the analysis of transient scattering from conducting bodies.The marching-on-in-time (MOT) schemes

relying on suitable spatial integral rules and implicit time-stepping method

for solving the TDCFIE and TDMFIE have been found to be stable.Unfortunately

the same is not true for the TDEFIE.In this article

the non-singular integral is evaluated using the standard Gaussian quadrature rules

and the transformations of the parametric coordinates and plane polar coordinates are employed to transform the singular integrals of TDEFIE into non-singular integrals

which can be accurately and efficiently evaluated by dividing the original domain of integration into sub-domains.Simulation results demonstrate that this approach produces rather stable and more accurate results without resort to any averaging processes.In addition

this method suits to any temporal basis functions and can be extended to high-order spatial basis functions.

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Calculations of Transient Scattering by Conductors Using a Modified Time Domain Integral Equation (TDIE) Method

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