Numerical Simulation Bistatic Scattering from Three-Dimensional Conducting Rough Surface with UV Multilevel Partitioning Method Using Pulse Vector Basic Function

被引：0

作者：

Zhong-Xin Li

Kai Li

机构：

[1] Zhejiang University,The Electromagnetic Academy

来源：

Journal of Infrared, Millimeter, and Terahertz Waves | 2009年 / 30卷

关键词：

Integral equation; Monte Carlo method; Remote sensing; Rough surface; Radar cross sections;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Vector wave three-dimensional (3D) conducting rough surface scattering problem solved by a UV method with multilevel partitioning procession (UV-MLP) using pulse vector basic function is developed in this paper, in which pulse vector basic function is more appropriately to be used for truly describe the vector inducted currents’ distribution along 3D PEC rough surface. For a 3D conducting rough surface scattering problem, the scattering structure is partitioned into multilevel blocks. By investigating the rank in the static problem, the impedance matrix for given transmitting and receiving blocks is expressed into products of U and V matrices. The UV method is illustrated by applying to a 3D scattering problem of random conducting rough surface. Finally, numerical simulation results are carried and discussed.

引用

共 44 条

[21] Wave scattering with UV multilevel partitioning method: 2. Three-dimensional problem of nonpenetrable surface scattering (vol 39, art no RS5011, 2004)
Tsang, L
Li, Q
Xu, P
Chen, D
Jandhyala, V
[J]. RADIO SCIENCE, 2004, 39 (06)
[22] Bistatic scattering from a three-dimensional object above a two-dimensional randomly rough surface modeled with the parallel FDTD approach
Guo, L-X.
Li, J.
Zeng, H.
[J]. JOURNAL OF THE OPTICAL SOCIETY OF AMERICA A-OPTICS IMAGE SCIENCE AND VISION, 2009, 26 (11) : 2383 - 2392
[23] Bistatic electromagnetic scattering from a three-dimensional perfect electric conducting object above a Gaussian rough surface based on the Kirchhoff-Helmholtz and electric field integral equation
Li, Xi-Min
Tong, Chuang-Ming
Fu, Shu-Hong
Li, Jing-Jing
[J]. WAVES IN RANDOM AND COMPLEX MEDIA, 2011, 21 (03) : 389 - 404
[24] Electromagnetic Scattering of Randomly Rough Soil Surfaces Based on Numerical Solutions of Maxwell Equations in Three-Dimensional Simulations Using a Hybrid UV/PBTG/SMCG Method
Huang, Shaowu
Tsang, Leung
[J]. IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, 2012, 50 (10): : 4025 - 4035
[25] Bistatic scattering from rough dielectric soil surface with a conducting object with arbitrary closed contour partially buried by using the FBM/SAA method
Li, Z.-X.
[J]. PROGRESS IN ELECTROMAGNETICS RESEARCH-PIER, 2007, 76 : 253 - 274
[26] Analysis of scattering from three-dimensional objects buried below a random rough surface by Monte-Carlo MPSTD method
[J]. Xu, X. (ecexu@clemson.edu), 1600, Electromagnetics Academy
[27] Application of modal expansion and method of moments to study electromagnetic scattering from a rectangular cavity recessed in a three-dimensional conducting surface
ViGYAN Incorporated, 30 Research Drive, Hampton
VA
23681, United States
不详
VA
23668, United States
不详
VA
23681, United States
[J]. Radio Sci, 5 (1291-1298):
[28] Application of modal expansion and method of moments to study electromagnetic scattering from a rectangular cavity recessed in a three-dimensional conducting surface
Deshpande, MD
Reddy, CJ
Beck, FB
Cockrell, CR
[J]. RADIO SCIENCE, 1996, 31 (05) : 1291 - 1298
[29] Calculation of three-dimensional acoustic scattering from Gaussian rough under-ice surface using the Kirchhoff approximation method with modified reflection coefficient
Chen, Wenjian
Lang, Pengyuan
Hu, Siwei
Yin, Jingwei
Sun, Hui
Zhang, Yuxiang
[J]. Shengxue Xuebao/Acta Acustica, 2020, 45 (04): : 449 - 457
[30] Calculation of three-dimensional acoustic scattering from Gaussian rough under-ice surface using the Kirchhoff approximation method with modified reflection coefficient
CHEN Wenjian
LANG Pengyuan
HU Siwei
YIN Jingwei
SUN Hui
ZHANG Yuxiang
[J]. Chinese Journal of Acoustics, 2020, 39 (03) : 273 - 286

← 1 2 3 4 5 →