A Hybrid Asymptotic-FVTD Method for the Estimation of the Radar Cross Section of 3D Structures

被引:4
作者
Fedeli, Alessandro [1 ]
Pastorino, Matteo [1 ]
Randazzo, Andrea [1 ]
机构
[1] Univ Genoa, Dept Elect Elect Telecommun Engn & Naval Architec, I-16145 Genoa, Italy
来源
ELECTRONICS | 2019年 / 8卷 / 12期
关键词
numerical simulation; finite volume methods; physical optics; radar cross-section; DIFFERENCE TIME-DOMAIN; ELECTRICALLY LARGE; ELECTROMAGNETIC SCATTERING; PHYSICAL-OPTICS; MOMENT-METHOD; COMPLEX; ANTENNA; FDTD; SIMULATIONS; SCHEME;
D O I
10.3390/electronics8121388
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
The Finite Volume Time-Domain (FVTD) method is an effective full-wave technique which allows an accurate computation of the electromagnetic field. In order to analyze the scattering effects due to electrically large structures, it can be combined with methods based on high-frequency approximations. This paper proposes a hybrid technique, which combines the FVTD method with an asymptotic solver based on the physical optics (PO) and the equivalent current method (ECM), allowing the solution of electromagnetic problems in the presence of electrically large structures with small details. Preliminary numerical simulations, aimed at computing the radar cross section of perfect electric conducting (PEC) composite objects, are reported in order to evaluate the effectiveness of the proposed method.
引用
收藏
页数:10
相关论文
共 50 条
  • [21] The Hybrid EPILE plus PO Combined with the Adaptive Cross Approximation to Study the Electromagnetic Scattering from two 3D Scatterers
    Kouali, Mohammad
    Obead, Noor
    2019 IEEE 7TH PALESTINIAN INTERNATIONAL CONFERENCE ON ELECTRICAL AND COMPUTER ENGINEERING (PICECE), 2019,
  • [22] A radar backscatter simulation of a forest canopy using 3D physical structures derived from LiDAR scanning
    Escobar-Ruiz, Veronica
    Maslanka, William
    Westbrook, Chris D.
    Morrison, Keith
    Calders, Kim
    Origo, Niall
    Disney, Mathias
    Fox, Nigel
    INTERNATIONAL JOURNAL OF REMOTE SENSING, 2024, : 8594 - 8621
  • [23] A 3D nonlinear Maxwell's equations solver based on a hybrid numerical method
    Lin, Aihua
    Jakobsen, Kristen
    PHYSICA SCRIPTA, 2019, 94 (08)
  • [24] A low order flow/acoustics interaction method for the prediction of sound propagation using 3D adaptive hybrid grids
    Kallinderis, Yannis
    Vitsas, Panagiotis A.
    Menounou, Penelope
    JOURNAL OF COMPUTATIONAL PHYSICS, 2012, 231 (18) : 6121 - 6138
  • [25] Ultra-Low-Cost Radar Cross Section Measurement and Validation Method Using a 3D-Printed Scale Model in a Non-Anechoic Chamber Environment
    Lee, Cheongmin
    Ryu, Youngjae
    Noh, Yeong-Hoon
    Oh, Ilyoung
    Ha, Jungje
    Yook, Jong-Gwan
    IEEE ACCESS, 2025, 13 : 41324 - 41335
  • [26] Three-Dimensional Near-Field to Far-Field Transformation for Radar Cross Section Estimation of Elongated Targets via Subdimensional Hybrid Conversion
    Kim, Jeong-Kyu
    Tae, Hyun-Sung
    Seo, Min-Gyeong
    Park, Ho-Min
    JOURNAL OF ELECTROMAGNETIC ENGINEERING AND SCIENCE, 2022, 22 (04): : 509 - 514
  • [27] Numerical study on a hybrid water wave radiation condition by a 3D boundary element method
    Zhang, Chongwei
    Duan, Wenyang
    WAVE MOTION, 2012, 49 (05) : 525 - 543
  • [28] Particle capture of special cross-section matrices in axial high gradient magnetic separation: A 3D simulation
    Xue, Zixing
    Wang, Yuhua
    Zheng, Xiayu
    Lu, Dongfang
    Li, Xudong
    SEPARATION AND PURIFICATION TECHNOLOGY, 2020, 237
  • [29] Hybrid UV/PBTG/SMCG Method Based on NMM3D for 3D Electromagnetic Scattering of Random Rough Surfaces
    Huang, Shaowu
    Tsang, Leung
    2011 IEEE INTERNATIONAL SYMPOSIUM ON ANTENNAS AND PROPAGATION (APSURSI), 2011, : 243 - 246
  • [30] Efficient calculation of electromagnetic scattering from cross-interface 3D structures in lossy multilayered media
    Li W.
    Yin C.-Y.
    Ma L.
    Yingyong Kexue Xuebao/Journal of Applied Sciences, 2010, 28 (03): : 318 - 325
12345