Application of the Spatial–Spectral CG-FFT Method for the Solution of Electromagnetic Scattering by Buried Flat Metallic Objects

Shi Y.; Liang C.-H.

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Application of the Spatial–Spectral CG-FFT Method for the Solution of Electromagnetic Scattering by Buried Flat Metallic Objects

机译：空间光谱CG-FFT方法在埋入扁平金属物体电磁散射求解中的应用

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摘要

The conjugate gradient fast Fourier transform (CG-FFT) method to analyze electromagnetic scattering by buried flat metallic objects of arbitrary shape and large size is presented. Due to the use of FFT in the spatial domain and spectral domain to handle a spatial-domain convolution, the electric field integral equation and scattered fields can be rapidly solved without evaluations of Sommerfeld integrals. The accuracy of this algorithm is better than that of the conventional CG-FFT method, and the CPU time required for this algorithm is reduced to a minimum, while memory cost is order of N (the total cell number) and computational complexity is of order N log N in each iteration

机译：提出了共轭梯度快速傅里叶变换（CG-FFT）方法，用于分析任意形状和大尺寸的埋入式扁平金属物体的电磁散射。由于在空间域和频谱域中使用FFT来处理空间域卷积，因此无需评估Sommerfeld积分即可快速求解电场积分方程和散射场。该算法的精度优于常规CG-FFT方法，并且该算法所需的CPU时间减少到最小，而内存成本为N（总单元数）的数量级，计算复杂度为每次迭代中N个日志N

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《IEEE Geoscience and Remote Sensing Letters》 |2007年第2007期|p.37-40|共4页
作者
Shi Y.; Liang C.-H.;
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正文语种 eng
中图分类测绘遥感技术;
关键词
buried object detection; electric field integral equations; electromagnetic wave scattering; fast Fourier transforms; CPU time; Sommerfeld integrals; buried flat metallic objects; computational complexity; conjugate gradient fast Fourier transform; electric field;

机译：埋入物体检测电场积分方程电磁波散射快速傅里叶变换CPU时间Sommerfeld积分埋入扁平金属物体计算复杂度共轭梯度快速傅立叶变换电场;

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5. Fast numerical methods for mixed, singular Helmholtz boundary value problems and Laplace eigenvalue problems—with applications to antenna design, sloshing, electromagnetic scattering and spectral geometry [D] . Akhmetgaliyev, Eldar 2016

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8. Electromagnetic Wave Scattering by Partially-Buried Metallic and Dielectric Objects [R] . Mei, K. K. 1984

机译：部分埋地金属和介质物体的电磁波散射

Application of the Spatial–Spectral CG-FFT Method for the Solution of Electromagnetic Scattering by Buried Flat Metallic Objects

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