Numerical results demonstrated that the proposed method not only decreases the workload but also benefits fast solving to electromagnetic scattering analysis.
计算结果表明,该方法简单有效且有利于电磁散射问题的计算机快速求解。
There are two methods according to equation form in electromagnetic scattering numerical analysis: one is integral equation method, the other is differential equation method.
电磁散射数值分析方法根据方程形式可分为两种:一种是积分方程法,另一种是微分方程法。
An analysis of the antenna and scattering theory is an important part in the electromagnetic problems, which describes the energy transformation from a closed circuit system to an open space system.
电磁问题中有很大一类是研究天线和散射理论,即由封闭电路系统向空间开放系统的能量转换。
Electromagnetic scattering numerical analysis generally contains differential equation method and integral equation method.
电磁散射数值分析一般分为微分方程法和积分方程法。
So faster and more accurate calculation method of analysis on target broadband electromagnetic scattering has very important significance in the computer resources conditions.
因此寻找一种能在有限的计算机资源条件下实现更快更精确的分析目标宽带电磁散射的方法具有十分重要的意义。
This paper presents the dipole model method for the efficient analysis of electromagnetic scattering from the dielectric body.
提出用偶极子模型法来分析介质体的电磁散射。
In this paper, the Perfectly Matched Layer (PML) is adopted as the truncating boundary for the analysis of conductor electromagnetic scattering problems.
本文用完全匹配层作为开域边界条件,对导体目标的散射问题进行了研究。
In this paper the analytic mode method and numerical mode method for full wave analysis of electromagnetic scattering in cylindrically layered media are discussed.
本文讨论了径向柱面分层介质中全波分析的解析模式和数值模式方法。
An analysis of solving the electromagnetic scattering by buried objects using the vector vvave function expansion is presented.
本文利用矢量波函数展开法求解了任意激励原埋入体的电磁散射问题。
An analysis of solving the electromagnetic scattering by buried objects using the vector vvave function expansion is presented.
本文利用矢量波函数展开法求解了任意激励原埋入体的电磁散射问题。
应用推荐