The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Bahan penyerap radar (RAM) dengan pelbagai ciri, seperti jalur lebar, kejadian serong, dan ciri polarisasi, telah dibangunkan mengikut aplikasi dalam beberapa tahun kebelakangan ini. Kertas kerja ini membentangkan kaedah reka bentuk yang dioptimumkan bagi dua lapisan rata RAM dengan kedua-dua jalur lebar dan ciri-ciri insiden serong untuk prestasi RAM yang diperlukan. Ciri-ciri kejadian serong bermakna bahawa RAM boleh menyerap gelombang radio secara berterusan sehingga sudut kejadian maksimum. Indeks jumlah penyerapan gelombang ialah 20dB, sepadan dengan kadar penyerapan 99%. Oleh kerana penentuan pemalar bahan elektrik bagi setiap lapisan adalah tugas paling penting berkenaan dengan kekerapan yang diterima dan sudut kejadian, kami mengoptimumkan nilai dengan menggunakan algoritma genetik-II isihan Tidak didominasi (NSGA-II). Dua jenis RAM lapisan rata yang terdiri daripada bahan dielektrik dan magnet telah direka bentuk dan ciri-cirinya dinilai. Akibatnya, telah disahkan bahawa ciri-ciri kejadian serong adalah lebih baik untuk RAM yang terdiri daripada bahan dielektrik. RAM dielektrik mencapai sudut kejadian sehingga 60° dengan ciri jalur lebar dan lebar jalur relatif 77.01% pada kejadian gelombang magnet melintang (TM). Di samping itu, RAM magnet boleh menurunkan frekuensi minimum sistem lebih daripada RAM dielektrik. Kekerapan minimum RAM magnet ialah 1.38GHz dengan lebar jalur relatif 174.18% pada kejadian gelombang TM dan sudut kejadian 45°. Kami mengesahkan bahawa adalah mungkin untuk mereka bentuk RAM dengan ciri jalur lebar dan ciri insiden serong berterusan dengan menggunakan kaedah yang dicadangkan.
Yuka ISHII
National Defense Academy
Naobumi MICHISHITA
National Defense Academy
Hisashi MORISHITA
National Defense Academy
Yuki SATO
Kyoto University
Kazuhiro IZUI
Kyoto University
Shinji NISHIWAKI
Kyoto University
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Salinan
Yuka ISHII, Naobumi MICHISHITA, Hisashi MORISHITA, Yuki SATO, Kazuhiro IZUI, Shinji NISHIWAKI, "Design Optimization of Radar Absorbent Material for Broadband and Continuous Oblique Incidence Characteristics" in IEICE TRANSACTIONS on Communications,
vol. E102-B, no. 2, pp. 216-223, February 2019, doi: 10.1587/transcom.2018ISP0017.
Abstract: Radar-absorbent materials (RAM) with various characteristics, such as broadband, oblique-incidence, and polarization characteristics, have been developed according to applications in recent years. This paper presents the optimized design method of two flat layers RAM with both broadband and oblique-incidence characteristics for the required RAM performance. The oblique-incidence characteristics mean that the RAM is possible to absorb radio waves continuously up to the maximum incidence angle. The index of the wave-absorption amount is 20dB, corresponding to an absorption rate of 99%. Because determination of the electrical material constant of each layer is the most important task with respect to the received frequency and the incidence angle, we optimized the values by using Non-dominated sorting genetic algorithm-II (NSGA-II). Two types of flat-layer RAM composed of dielectric and magnetic materials were designed and their characteristics were evaluated. Consequently, it was confirmed that oblique-incidence characteristics were better for the RAM composed of dielectric materials. The dielectric RAM achieved an incidence angle of up to 60° with broadband characteristics and a relative bandwidth of 77.01% at the transverse-magnetic (TM) wave incidence. In addition, the magnetic RAM could lower the minimum frequency of the system more than the dielectric RAM. The minimum frequency of the magnetic RAM was 1.38GHz with a relative bandwidth of 174.18% at TM-wave incidence and an incidence angle of 45°. We confirmed that it is possible to design RAM with broadband characteristics and continuous oblique-incidence characteristics by using the proposed method.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.2018ISP0017/_p
Salinan
@ARTICLE{e102-b_2_216,
author={Yuka ISHII, Naobumi MICHISHITA, Hisashi MORISHITA, Yuki SATO, Kazuhiro IZUI, Shinji NISHIWAKI, },
journal={IEICE TRANSACTIONS on Communications},
title={Design Optimization of Radar Absorbent Material for Broadband and Continuous Oblique Incidence Characteristics},
year={2019},
volume={E102-B},
number={2},
pages={216-223},
abstract={Radar-absorbent materials (RAM) with various characteristics, such as broadband, oblique-incidence, and polarization characteristics, have been developed according to applications in recent years. This paper presents the optimized design method of two flat layers RAM with both broadband and oblique-incidence characteristics for the required RAM performance. The oblique-incidence characteristics mean that the RAM is possible to absorb radio waves continuously up to the maximum incidence angle. The index of the wave-absorption amount is 20dB, corresponding to an absorption rate of 99%. Because determination of the electrical material constant of each layer is the most important task with respect to the received frequency and the incidence angle, we optimized the values by using Non-dominated sorting genetic algorithm-II (NSGA-II). Two types of flat-layer RAM composed of dielectric and magnetic materials were designed and their characteristics were evaluated. Consequently, it was confirmed that oblique-incidence characteristics were better for the RAM composed of dielectric materials. The dielectric RAM achieved an incidence angle of up to 60° with broadband characteristics and a relative bandwidth of 77.01% at the transverse-magnetic (TM) wave incidence. In addition, the magnetic RAM could lower the minimum frequency of the system more than the dielectric RAM. The minimum frequency of the magnetic RAM was 1.38GHz with a relative bandwidth of 174.18% at TM-wave incidence and an incidence angle of 45°. We confirmed that it is possible to design RAM with broadband characteristics and continuous oblique-incidence characteristics by using the proposed method.},
keywords={},
doi={10.1587/transcom.2018ISP0017},
ISSN={1745-1345},
month={February},}
Salinan
TY - JOUR
TI - Design Optimization of Radar Absorbent Material for Broadband and Continuous Oblique Incidence Characteristics
T2 - IEICE TRANSACTIONS on Communications
SP - 216
EP - 223
AU - Yuka ISHII
AU - Naobumi MICHISHITA
AU - Hisashi MORISHITA
AU - Yuki SATO
AU - Kazuhiro IZUI
AU - Shinji NISHIWAKI
PY - 2019
DO - 10.1587/transcom.2018ISP0017
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E102-B
IS - 2
JA - IEICE TRANSACTIONS on Communications
Y1 - February 2019
AB - Radar-absorbent materials (RAM) with various characteristics, such as broadband, oblique-incidence, and polarization characteristics, have been developed according to applications in recent years. This paper presents the optimized design method of two flat layers RAM with both broadband and oblique-incidence characteristics for the required RAM performance. The oblique-incidence characteristics mean that the RAM is possible to absorb radio waves continuously up to the maximum incidence angle. The index of the wave-absorption amount is 20dB, corresponding to an absorption rate of 99%. Because determination of the electrical material constant of each layer is the most important task with respect to the received frequency and the incidence angle, we optimized the values by using Non-dominated sorting genetic algorithm-II (NSGA-II). Two types of flat-layer RAM composed of dielectric and magnetic materials were designed and their characteristics were evaluated. Consequently, it was confirmed that oblique-incidence characteristics were better for the RAM composed of dielectric materials. The dielectric RAM achieved an incidence angle of up to 60° with broadband characteristics and a relative bandwidth of 77.01% at the transverse-magnetic (TM) wave incidence. In addition, the magnetic RAM could lower the minimum frequency of the system more than the dielectric RAM. The minimum frequency of the magnetic RAM was 1.38GHz with a relative bandwidth of 174.18% at TM-wave incidence and an incidence angle of 45°. We confirmed that it is possible to design RAM with broadband characteristics and continuous oblique-incidence characteristics by using the proposed method.
ER -