An experiment of Ku-band air-borne bistatic SAR with a stationary receiver

被引：0

作者：

Yamamoto, Kazuhiko ^{[1
]}

Suwa, Kei ^{[1
]}

Tsuchida, Masayoshi ^{[1
]}

Yamaoka, Tomoya ^{[1
]}

Endo, Jun ^{[2
]}

Hayashi, Kei ^{[2
]}

Hasegawa, Hideki ^{[2
]}

Wakayama, Toshio ^{[1
]}

机构：

[1] Mitsubishi Electr Corp, Informat Technol R&D Ctr, 5-1-1 Ofuna, Kamakura, Kanagawa 2478501, Japan

[2] Mitsubishi Electr Corp, Kamakura, Kanagawa 2478520, Japan

来源：

CONFERENCE PROCEEDINGS OF 2013 ASIA-PACIFIC CONFERENCE ON SYNTHETIC APERTURE RADAR (APSAR) | 2013年

关键词：

RADAR;

D O I：

暂无

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

In recent years, the interest in bistatic SAR (Synthetic Aperture Radar) has rapidly increased. In this paper, experiment results of Ku-band air-borne bistatic SAR with a stationary receiver are shown. Reconstructed bistatic SAR image is well focused enough to extract shape information about the observed area. Range and cross range resolution of the bistatic SAR image are evaluated as 0.61[m] and 0.16[m], respectively. From the comparison with the monostatic SAR image which is observed simultaneously it was confirmed that bistatic SAR was useful for (a)reduction the strong scatterers which sometimes disturb the observation of weak scatters, (b)extraction of different shape information from the conventional monostatic SAR.

引用

页码：156 / 159

页数：4

共 50 条

[41] Design & Development of Linearly Polarized C-Band Phased Array Antenna for Air-borne & Space-borne SAR Payloads
Moiz, Abdul
Thontia, Rahul
Rizvi, Syeda Zebra
Usmani, Naveed Ahmed
Ali, Ms Sundus
Ali, A. K. M. Shafaat
PROCEEDINGS OF 2014 11TH INTERNATIONAL BHURBAN CONFERENCE ON APPLIED SCIENCES & TECHNOLOGY (IBCAST), 2014, : 493 - 498
[42] An Image Rejection Type Ku-Band Direct RF Undersampling CMOS Receiver
Norishima, K.
Koizumi, T.
Motoyoshi, M.
Kameda, S.
Suematsu, N.
2016 GLOBAL SYMPOSIUM ON MILLIMETER WAVES (GSMM) & ESA WORKSHOP ON MILLIMETRE-WAVE TECHNOLOGY AND APPLICATIONS, 2016, : 60 - 63
[43] Ku-BAND RECEIVER FRONT-END USING MIC TECHNOLOGY.
Krowne, C.M.
Marki, F.A.
Crescenzi Jr., E.J.
1977, : 198 - 201
[44] A Ku-Band Direct RF Undersampling Receiver with an Intermittent-Mode Amplifier
Suematsu, Noriharu
Owada, Takeo
Motoyoshi, Tomokazu Koizumi Mizuki
Kameda, Suguru
2017 IEEE INTERNATIONAL SYMPOSIUM ON RADIO-FREQUENCY INTEGRATION TECHNOLOGY (RFIT), 2017, : 217 - 219
[45] Improved design of a frequency-doubling Ku-band gyroklystron experiment
Lawson, W
Hogan, B
Gouveia, ES
Huebschman, B
Granatstein, VL
TWENTY SEVENTH INTERNATIONAL CONFERENCE ON INFRARED AND MILLIMETER WAVES, CONFERENCE DIGEST, 2002, : 203 - 204
[46] S-BAND AND KU-BAND SAR SYSTEM DEVELOPMENT FOR UAV-BASED APPLICATIONS
Kaniewski, Piotr
Komorniczak, Wojciech
Lesnik, Czeslaw
Cyrek, Jacek
Susek, Waldemar
Serafin, Piotr
Labowski, Michal
METROLOGY AND MEASUREMENT SYSTEMS, 2019, 26 (01) : 53 - 64
[47] Ku-band Ground-based SAR Experiments for Surface Deformation Monitoring
Chet, Koo Voon
Siong, Lim Chee
Hsin, William Hii How
Wei, Lee Loong
2015 IEEE 5TH ASIA-PACIFIC CONFERENCE ON SYNTHETIC APERTURE RADAR (APSAR), 2015, : 641 - 644
[48] Development of a Small-sized Ku-band Step-frequency SAR
Meleshin, Yury M.
Zatonskaya, Anastasiya A.
Merkulova, Zhanna, V
Biryuk, Alexey A.
Khasanov, Marat S.
PROCEEDINGS OF THE 2021 IEEE CONFERENCE OF RUSSIAN YOUNG RESEARCHERS IN ELECTRICAL AND ELECTRONIC ENGINEERING (ELCONRUS), 2021, : 2544 - 2547
[49] Experimental Studies of Compressive Sensing for SAR with Ka-band Chamber Room and Ku-band Airplane SAR Data
Hoshino, Takehiro
Hara, Teruyuki
Yokota, Yuya
Hasegawa, Hideki
Okada, Yu
2017 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM (IGARSS), 2017, : 5366 - 5369
[50] Calibration and Operation of a Bistatic Real-Aperture Polarimetric-Interferometric Ku-Band Radar
Stefko, Marcel
Frey, Othmar
Werner, Charles
Hajnsek, Irena
IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, 2022, 60

← 1 2 3 4 5 →