Forward-Backward Iterative Physical Optics Algorithm for Computing the RCS of Open-Ended Cavities

Robert J. Burkholder; Tomas Lundin

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Forward-Backward Iterative Physical Optics Algorithm for Computing the RCS of Open-Ended Cavities

机译：用于计算开放式腔体RCS的向前-向后迭代物理光学算法

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摘要

The forward-backward methodology is combined with the iterative physical optics (IPO) algorithm to improve convergence for cavity scattering problems. Wave propagation inside elongated cavities, such as jet engine inlet ducts, follows a predominant down-and-back path. The forward-backward method allows the IPO currents on the cavity walls to be updated sequentially (forward) and reverse-sequentially (backward) along the waveguide axis. A relaxation parameter is introduced to help control the convergence characteristics, making the new algorithm mathematically equivalent to the classical iterative method of symmetric successive over-relaxation. The fast far-field approximation (FaFFA) accelerates the matrix-vector products in the IPO formulation, and an equivalent surface impedance is used to characterize thin material linings in the cavity.

机译：向前-向后方法与迭代物理光学（IPO）算法相结合，可以改善腔体散射问题的收敛性。在细长腔体（例如喷气发动机进气管）内的波传播遵循主要的上下路径。向前-向后方法允许沿波导轴顺序（正向）和反向顺序（向后）更新腔壁上的IPO电流。引入了松弛参数以帮助控制收敛特性，从而使新算法在数学上等效于对称连续过度松弛的经典迭代方法。快速远场近似（FaFFA）可以加快IPO公式中的矩阵向量乘积，并且使用等效表面阻抗来表征腔体中的薄材料衬里。

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来源
《IEEE Transactions on Antennas and Propagation》 |2005年第2期|p.793-799|共7页
作者
Robert J. Burkholder; Tomas Lundin;
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作者单位

Ohio State University Department of Electrical and Computer Engineering, ElectroScience Laboratory, Columbus, OH 43212 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类天线;
关键词
Electromagnetic scattering; iterative methods; open waveguides; physical optics (PO); radar cross sections;

机译：电磁散射;迭代方法;开放波导;物理光学（PO）;雷达横截面;

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1. Improvement on the forward-backward iterative physical optics algorithm applied to computing the RCS of large open-ended cavities [J] . Zhang PF, Gong SX Journal of Electromagnetic Waves and Applications . 2007,第4期

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2. Hybrid Analysis of Radar Cross Section of Open-Ended Cavity Scatterers by Using Modified Physical Optics and Iterative Physical Optics [J] . Ryosuke HASABA, Makoto ANDO IEICE Transactions on Electronics . 2012,第8期

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3. An iterative physical optics approach for analyzing the electromagnetic scattering by large open-ended cavities [J] . Obelleiro-Basteiro F., Luis Rodriguez J. IEEE Transactions on Antennas and Propagation . 1995,第4期

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4. Improvement on the Forward-backward Iterative Physical Optics Algorithm Applied to Computing the RCS of Large Open-ended Cavities [C] . Zhang Peng-fei, Gong Shu-xi International Symposium on Antennas, Propagation and EM Theory(ISAPE 2006); 20061026-29; Guilin(CN) . 2006

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Forward-Backward Iterative Physical Optics Algorithm for Computing the RCS of Open-Ended Cavities

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