A Novel Way to Increase the Accuracy of Current-Calculating on Metal Surface Using FDTD Method

机译：一种新的方法，可以使用FDTD方法提高金属表面电流计算精度的方法

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In calculating the surface current of metal block using FDTD method, the tangential components of magnetic field on metal block surface cannot be obtained directly, most common way is to use the tangential components of adjacent grid to replace the real tangential magnetic field of metal block to calculate surface current. But when the test points are close to geometry edge, the magnetic field changes acutely, there will be a certain error using this method. The simulation results in this paper proved this phenomenon. In view of this issue, this paper proposes a surface current calculation method based on the Ampere circulation integral algorithm. The simulation results show out that this new method is a very efficient way to improve the calculation precision of surface current at the price of little increasing of computational complexity, and the accuracy of RCS result is increasing in some special angle.

机译：在使用FDTD方法计算金属块的表面电流时，不能直接获得金属块表面上的磁场的切向分量，最常见的方式是使用相邻网格的切向分量来更换金属块的实际切线磁场。计算表面电流。但是当测试点接近几何边缘时，磁场急剧变化，使用此方法会有一定的错误。本文的仿真结果证明了这种现象。鉴于此问题，本文提出了一种基于安培循环积分算法的表面电流计算方法。仿真结果表明，这种新方法是一种非常有效的方法，可以提高表面电流的计算精度，价格越来越多地增加计算复杂性，并且RCS结果的准确性在一些特殊角度上增加。

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《International Conference on Intelligent Computation Technology and Automation》|2014年||共5页
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作者
Liu Ying; Pan Qing; Xie Xiaogang; Che Yaliang;
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中图分类人工智能理论;
关键词
computational electromagnetics; current distribution; electromagnetic field theory; finite difference time-domain analysis; magnetic fields; Ampere circulation integral algorithm; FDTD method; RCS; adjacent grid; computational complexity; geometry edge; metal block surface; radar cross section; surface current calculation method; tangential components; tangential magnetic field; test points; Accuracy; Finite difference methods; Geometry; Magnetic fields; Metals; Surface waves; Time-domain analysis; Ampere circuit theorem; Finite difference time domain method (FDTD); radar cross section (RCS); surface current;

机译：计算电磁;电流分布;电磁场理论;有限差分时间域分析;磁场;安培循环积分算法;FDTD方法;rcs;相邻网格;计算复杂性;几何边缘;金属块表面;雷达横截面;表面电流计算方法;切向组件;切向磁场;测试点;准确性;有限差分方法;几何;磁场;金属;表面波;时间域分析;有限差分时间域法（FDTD）;雷达横截面（ RCS;表面电流;

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专利

1. Use of static field solutions in the FDTD method for the efficient treatment of curved metal surfaces [J] . Railton C.J. Electronics Letters . 1993,第16期

机译：在FDTD方法中使用静电场解决方案有效处理弯曲的金属表面
2. Improved Cylindrical HIE-FDTD Method and Its Application to a Metal Disk-Type Surface Wave Splitter [J] . Shibayama Jun, Hara Tatsuyuki, Ito Masato, IEEE microwave and wireless components letters . 2019,第3期

机译：改进的圆柱HIE-FDTD方法及其在金属盘式表面波分路器中的应用
3. An analysis of new and existing FDTD methods for isotropic cold plasma and a method for improving their accuracy [J] . Cummer S.A. IEEE Transactions on Antennas and Propagation . 1997,第3期

机译：用于各向同性冷等离子体的新的和现有的FDTD方法的分析及其提高精度的方法
4. A Novel Way to Increase the Accuracy of Current-Calculating on Metal Surface Using FDTD Method [C] . Liu Ying, Pan Qing, Xie Xiaogang, International Conference on Intelligent Computation Technology and Automation . 2014

机译：FDTD方法提高金属表面电流计算精度的新方法
5. The ADI-FDTD method for high accuracy electrophysics applications . [D] . Haeri Kermani, Mohammad. 2006

机译：适用于高精度电物理应用的ADI-FDTD方法。
6. Evaluation of the Effect of Four Surface Conditioning Methods on the Shear Bond Strength of Metal Bracket to Porcelain Surface [O] . Hooman Zarif Najafi, Morteza Oshagh, Sepideh Torkan, -1

机译：四种表面处理方法对金属支架与瓷表面的剪切粘结强度影响的评估
7. An Analysis of New and Existing FDTD Methods for Isotropic Cold Plasma and a Method for Improving Their Accuracy [O] . 2008

机译：新型和现有的各向同性冷等离子体FDTD方法分析及提高其准确度的方法

A Novel Way to Increase the Accuracy of Current-Calculating on Metal Surface Using FDTD Method

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