The BCGS-FFT Method Combined With an Improved Discrete Complex Image Method for EM Scattering From Electrically Large Objects in Multilayered Media

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The BCGS-FFT Method Combined With an Improved Discrete Complex Image Method for EM Scattering From Electrically Large Objects in Multilayered Media

机译：多层介质中电大物体电磁散射的BCGS-FFT方法与改进的离散复杂图像方法相结合

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This paper presents an efficient algorithm combining the stabilized biconjugate gradient fast Fourier transform (BCGS-FFT) method with an improved discrete complex image method (DCIM) for electromagnetic scattering from electrically large objects in both lossless and lossy multilayered media. The required spatial Green's functions obtained by the improved DCIM are accurate both in the near- and far-field regions without any quasi-static and surface-wave extraction. Then, the scattering by buried objects is considered using the BCGS-FFT method combined with the improved DCIM. Numerical results show the improved DCIM can save tremendous CPU time in scattering involving buried objects.

机译：本文提出了一种有效的算法，该算法结合了稳定的双共轭梯度快速傅里叶变换（BCGS-FFT）方法和改进的离散复镜像方法（DCIM），用于在无损和有损多层介质中从电大物体进行电磁散射。通过改进的DCIM获得的所需空间格林函数在近场和远场区域均很精确，而没有任何准静态和表面波提取。然后，结合改进的DCIM，使用BCGS-FFT方法考虑掩埋物体的散射。数值结果表明，改进的DCIM可以节省涉及掩埋物体的散射所占用的大量CPU时间。

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《Geoscience and Remote Sensing, IEEE Transactions on》 |2010年第3期|p.1180-1185|共6页
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正文语种 eng
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Discrete complex image method (DCIM); Sommerfeld integrals (SIs); electrically large objects; electromagnetic (EM) scattering; stabilized biconjugate gradient fast Fourier transform (BCGS-FFT);

机译：离散复杂图像方法（DCIM）;Sommerfeld积分（SIs）;电大物体;电磁（EM）散射;稳定的双共轭梯度快速傅立叶变换（BCGS-FFT）;

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专利

1. Fast Solution of Electromagnetic Scattering for 3-D Inhomogeneous Anisotropic Objects Embedded in Layered Uniaxial Media by the BCGS-FFT Method [J] . Han Feng, Zhuo Jianliang, Liu Na, IEEE Transactions on Antennas and Propagation . 2019,第3期

机译：BCGS-FFT法快速求解层状单轴介质中嵌入的3-D各向异性物体的电磁散射
2. Simulation of Electromagnetic Scattering of 3-D Inhomogeneous Biaxial Anisotropic Magnetodielectric Objects Embedded in Uniaxial Anisotropic Media by the Mixed-Order BCGS-FFT Method [J] . Jianliang Zhuo, Feng Han, Longfang Ye, IEEE Transactions on Microwave Theory and Techniques . 2018,第8期

机译：用混合阶BCGS-FFT方法模拟嵌入单轴各向异性介质中的3-D非均匀双轴各向异性磁电物体的电磁散射
3. AN IMPROVED DISCRETE COMPLEX IMAGE METHOD FOR GREEN'S FUNCTIONS IN MULTILAYERED MEDIA [J] . Lei Zhuang, Guoqiang Zhu, Yunhua Zhang, Microwave and optical technology letters . 2007,第6期

机译：多层介质中格林函数的改进离散复杂图像方法
4. Subsurface Imaging 3-D Objects in Multilayered Media by Using Electromagnetic Inverse Scattering Series Method (EISSM) [C] . J. G. Wang, Z. Q. Zhao, Z. P. Nie, Progress in Electromagnetics Research Symposium . 2016

机译：使用电磁逆散射串联方法（EISSM），多层介质中的地下成像3-D对象
5. The BCGS-FFT method for electromagnetic scattering from inhomogeneous objects of arbitrary shape embedded in a planarly layered medium. [D] . Millard, Xuemin. 2002

机译：BCGS-FFT方法用于从嵌入平面层状介质中的任意形状的不均匀物体进行电磁散射。
6. Methods and Limits for Micro Scale Blood Vessel Flow Imaging in Scattering Media by Optical Feedback Interferometry: Application to Human Skin [O] . Adam Quotb, Reza Atashkhooei, Simone Magaletti, 2021

机译：光学反馈干涉测量法在散射介质中微尺度血管流动成像的方法和限制：对人体皮肤的应用
7. A Direct Discrete Complex Image Method From the Closed-Form Green’s Functions in Multilayered Media [O] . Mengtao Yuan, Student Member, Tapan K. Sarkar, 2009

机译：从多层介质中的闭式格林函数看直接离散复图像方法

The BCGS-FFT Method Combined With an Improved Discrete Complex Image Method for EM Scattering From Electrically Large Objects in Multilayered Media

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