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Main Authors: Lee, Chung Hyun, Kang, Dong-Kook, Kwon, Kyoung Il, Kim, Kyung-Tae, Na, Dong-Yeop
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.03060
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author Lee, Chung Hyun
Kang, Dong-Kook
Kwon, Kyoung Il
Kim, Kyung-Tae
Na, Dong-Yeop
author_facet Lee, Chung Hyun
Kang, Dong-Kook
Kwon, Kyoung Il
Kim, Kyung-Tae
Na, Dong-Yeop
contents We propose a new fast algorithm optimized for full-wave electromagnetic (EM) scattering analysis of a large-scale cloud of chaffs with arbitrary orientation, spatial distribution, and length. By leveraging the unique EM scattering characteristics in chaff clouds, we introduce the {\it sparsification via neglecting far-field coupling} strategy, which makes an impedance matrix block-banded and sparse and thereby significantly accelerates thin-wire approximate method-of-moments solvers. Our numerical studies demonstrate that the proposed algorithm can estimate the monostatic and bistatic radar cross section (RCS) of large-scale chaff clouds much faster and with greater memory efficiency than the conventional multilevel fast multipole method, while retaining the high accuracy. This algorithm is expected to be highly useful for RCS estimation of large-scale chaff clouds in practical scenarios, serving as a cost-effective ground-truth generator.
format Preprint
id arxiv_https___arxiv_org_abs_2410_03060
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Fast Algorithm for Full-wave EM Scattering Analysis of Large-scale Chaff Cloud with Arbitrary Orientation, Spatial Distribution, and Length
Lee, Chung Hyun
Kang, Dong-Kook
Kwon, Kyoung Il
Kim, Kyung-Tae
Na, Dong-Yeop
Computational Physics
We propose a new fast algorithm optimized for full-wave electromagnetic (EM) scattering analysis of a large-scale cloud of chaffs with arbitrary orientation, spatial distribution, and length. By leveraging the unique EM scattering characteristics in chaff clouds, we introduce the {\it sparsification via neglecting far-field coupling} strategy, which makes an impedance matrix block-banded and sparse and thereby significantly accelerates thin-wire approximate method-of-moments solvers. Our numerical studies demonstrate that the proposed algorithm can estimate the monostatic and bistatic radar cross section (RCS) of large-scale chaff clouds much faster and with greater memory efficiency than the conventional multilevel fast multipole method, while retaining the high accuracy. This algorithm is expected to be highly useful for RCS estimation of large-scale chaff clouds in practical scenarios, serving as a cost-effective ground-truth generator.
title Fast Algorithm for Full-wave EM Scattering Analysis of Large-scale Chaff Cloud with Arbitrary Orientation, Spatial Distribution, and Length
topic Computational Physics
url https://arxiv.org/abs/2410.03060