Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
AP |
2011-08-02 14:05 |
Akita |
|
Study of Bistatic Radar using EBG Structure Tomoyuki Muto, Takuji Arima, Toru Uno (TUAT) AP2011-51 |
The bistatic radars consist of transmitting antenna and receiving antenna. There antennas are placed side by side. Howev... [more] |
AP2011-51 pp.13-17 |
SANE |
2011-05-20 13:55 |
Kanagawa |
National Defense Academy of Japan |
Report of Experiment about Estimation DOA of Aircrafts Utilizing Broadcasting Passive Radar Shinichi Morita, Kei Suwa, Shohei Nakamura, Hisakazu Maniwa, Kazufumi Hirata (Mitsubishi Electric Co.) SANE2011-11 |
Passive bistatic radar utilizing broadcasting signals has a disadvantage in comparison with monostatic radars, because b... [more] |
SANE2011-11 pp.7-12 |
SANE |
2010-12-17 15:00 |
Saitama |
Nippon Institute of Technology |
The First Bistatic SAR Experiment with the Spaceborne SAR : PALSAR and the Airborne SAR : Pi-SAR-L Takashi Fujimura, Hideharu Totsuka, Norihiro Imai, Shingo Matsuo, Tsunekazu Kimura (NEC), Tomoko Ishii, Yoshitaka Oura (NEC Aerospace Systems), Masanobu Shimada (JAXA) SANE2010-135 |
This paper shows the first bistatic SAR observation experiment with the spaceborne SAR : PALSAR and the airborne SAR : P... [more] |
SANE2010-135 pp.49-52 |
CS |
2010-11-12 10:50 |
Ishikawa |
Wakura Hot Spring |
Target Detection with MSN Algorithm for the Bistatic Radar Using Digital Broadcasting Signals Junji Asada, Iwao Sasase (Keio Univ.) CS2010-50 |
In bistatic radar, it is important to suppress the undesired signals such as the direct propagated signal from transmitt... [more] |
CS2010-50 pp.77-82 |
AP, RCS (Joint) |
2010-11-12 13:00 |
Fukui |
Fukui Univ. |
Null-Steering Bistatic MIMO Radar Takao Sekiguchi, Kei Sakaguchi, Kiyomichi Araki (Tokyo Tech.), Shintaro Arata (Koden) AP2010-112 |
Recently, MIMO radar has been attracting attention owing to high resolution and ability of interference cancellation. At... [more] |
AP2010-112 pp.119-124 |
SANE |
2010-04-22 16:00 |
Okinawa |
Okinawa Subtropical Environment Remote-Sensing Center, NICT |
An improved bistatic observational system with Okinawa polarimetric weather radar COBRA Seiji Kawamura, Shigeo Sugitani, Hiroshi Hanado, Katsuhiro Nakagawa (NICT) SANE2010-3 |
The bistatic Doppler velocity measurement, with one traditional transmitting radar associated with one or more passive r... [more] |
SANE2010-3 pp.13-18 |
SANE |
2010-04-23 10:45 |
Okinawa |
Okinawa Subtropical Environment Remote-Sensing Center, NICT |
Accuracy Evaluation of Localization Method for Low-PRF Bistatic Radar Toshihiro Ito, Ryuhei Takahashi, Hisakazu Maniwa (Mitsubishi Electric) SANE2010-8 |
Bistatic radar system which consists of transmitter and receiver allocated wide area can localize a target position with... [more] |
SANE2010-8 pp.43-48 |
SANE |
2009-10-08 13:25 |
Tokyo |
Tohoku Univ. (Tokyo) |
Subsurface visualization without ground reflection and direct wave by using bistatic GPR Naoki Hayashi, Motoyuki Sato (Tohoku Univ.) SANE2009-66 |
A bistatic GPR system is proposed with an aim of a subsurface visualization without a ground reflection and a direct wav... [more] |
SANE2009-66 pp.7-12 |
SANE |
2008-10-31 17:30 |
Kanagawa |
ISAS:Sagamihara campus (JAXA) |
A Study on The Suppression Method of Undesired Wave in Digital TV-based Bistatic Radar Junji Asada, Iwao Sasase (Keio Univ.) SANE2008-62 |
In the bistatic radar using broadcasting waves, the sidelobes of the undesired waves can not be ignored compared to the ... [more] |
SANE2008-62 pp.53-58 |
SANE |
2007-10-25 11:00 |
Overseas |
KIST(Seoul) |
A Spatial-Frequency Filter Design to Suppress Direct Wave for Bistatic Radar Naoki Hayashi, Motoyuki Sato (Tohoku Univ.) SANE2007-63 |
Abstract Now, we are discussing a use of 2D filter in frequency-spatial frequency domain (f-k filter) in order to suppr... [more] |
SANE2007-63 pp.7-12 |
RCS, AP |
2004-10-30 11:10 |
Niigata |
Niigata University |
On Bistatic Measurement by Monostatic Radar using Dihedral Corner Reflector Yoichi Kato, Yoshio Yamaguchi, Kei Hayashi, Hiroyoshi Yamada (Niigata Univ.) |
The off-nadir angle of space-borne or air-borne SAR is set typically 20-60 degrees. Flat surface area such as sea or gro... [more] |
AP2004-183 RCS2004-204 pp.21-26 |