Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
AP, SANE (Joint) |
2014-08-28 09:30 |
Niigata |
Niigata University Satellite campus |
Fabrication of Horn Antenna using 3D Printer and its Evaluation Hirokazu Kobayashi, Ryu-ichi Kawamura (Osaka Inst. of Tech.), Hiroyoshi Yamada (Niigata Univ.) AP2014-72 |
Using 3D printer rapidly attracting our attention in the last few years, we fabricate small aperture horn antenna such a... [more] |
AP2014-72 pp.1-6 |
AP, SANE (Joint) |
2014-08-28 09:55 |
Niigata |
Niigata University Satellite campus |
A Calculation Method for Directions of 2D Multi-beams Rokuzo Hara, Toshio Wakayama, Toru Fukasawa (Mitsubishi Electric) AP2014-73 |
On a subarray DBF system, a beam-width is changeable by depending on a beam-direction. Because, random-element-positions... [more] |
AP2014-73 pp.7-12 |
AP, SANE (Joint) |
2014-08-28 10:20 |
Niigata |
Niigata University Satellite campus |
A Bilateral MIMO-OTA System for the Combined Antenna Evaluation Considering Uplink and Downlink Channels Kazuhiro Honda, Toshihiko Kabeya, Kento Karitani, Kun Li, Koichi Ogawa (Toyama Univ.), Yoshio Koyanagi, Hiroshi Sato, Shinji Ueda (Panasonic System Networks) AP2014-74 |
This paper presents a bilateral MIMO-OTA evaluation apparatus for measuring the channel capacity of uplink as well as do... [more] |
AP2014-74 pp.13-18 |
AP, SANE (Joint) |
2014-08-28 10:55 |
Niigata |
Niigata University Satellite campus |
Detection of urban areas using sublook POLSAR data Yuki Soma, Kazutomo Yamamoto, Yoshio Yamaguchi, Hiroyoshi Yamada (Niigata Univ) SANE2014-48 |
Discrimination of urban areas against vegetation areas are difficult in POLSAR image when buildings are not orthogonal t... [more] |
SANE2014-48 pp.1-6 |
AP, SANE (Joint) |
2014-08-28 11:20 |
Niigata |
Niigata University Satellite campus |
The Polarimetric Scattering Measurement of Fundamental Man-made Objects Models
-- The Experimental Study on the Scattering Characteristics for Squint and Incident Angle Variations -- Motoki Masaka, Ryoichi Sato, Yoshio Yamaguchi, Hiroyoshi Yamada (Niigata Univ.) SANE2014-49 |
In PolSAR data utilization, it is important to precisely detect urban areas, not only for monitoring the effect of urban... [more] |
SANE2014-49 pp.7-12 |
AP, SANE (Joint) |
2014-08-28 12:45 |
Niigata |
Niigata University Satellite campus |
[Invited Lecture]
Compact X-band Synthetic Aperture Radar for 100kg Class Satellite Hirobumi Saito, Prilando Rizki Akbar, Atsushi Tomiki (JAXA), Ravindra Vinay, Ryohei Naruse, Budhaditya Pyne (Univ. of Tokyo), Miao Zhang, Jiro Hirokawa, Makoto Ando (Tokyo Inst. of Tech.) AP2014-75 SANE2014-50 |
[more] |
AP2014-75 SANE2014-50 pp.19-24(AP), pp.13-18(SANE) |
AP, SANE (Joint) |
2014-08-28 13:10 |
Niigata |
Niigata University Satellite campus |
[Invited Lecture]
CS detection based on interleaved sub-images for the atmospheric correction of GB-SAR interferometry Kazunori Takahashi (Tohoku Univ.), Masayoshi Matsumoto (PASCO), Motoyuki Sato (Tohoku Univ.) AP2014-76 SANE2014-51 |
Ground-based synthetic aperture radar (GB-SAR) interferometry is principally capable of capturing a few tenths of millim... [more] |
AP2014-76 SANE2014-51 pp.25-30(AP), pp.19-24(SANE) |
AP, SANE (Joint) |
2014-08-28 13:35 |
Niigata |
Niigata University Satellite campus |
[Invited Lecture]
Flight Model Development of L-band Active Phased Array Antenna for ALOS-2 Takehito Iguchi, Araki Ono, Takeshi Sakura, Kenichi Hariu (Mitsubishi Electric), Yukihiro Kankaku, Shinichi Suzuki (JAXA) AP2014-77 SANE2014-52 |
Developed by the Japan Aerospace Exploration Agency (JAXA), "Daichi-2" (ALOS-2) is equipped with the PALSAR-2, which is ... [more] |
AP2014-77 SANE2014-52 pp.31-34(AP), pp.25-28(SANE) |
AP, SANE (Joint) |
2014-08-28 14:10 |
Niigata |
Niigata University Satellite campus |
Estimation of Short Range Target Position using Array Antenna and Multiple Frequencies Takurou Mamiya, Mitoshi Fujimoto, Toshikazu Hori (Univ. of Fukui), Takanobu Tabata, Satoshi Hori (Kojima Industry) AP2014-78 |
[more] |
AP2014-78 pp.35-38 |
AP, SANE (Joint) |
2014-08-28 14:35 |
Niigata |
Niigata University Satellite campus |
Study on Indoor Human Location Estimation using MIMO Doppler Radar with Khatri-Rao Product Virtual Array Yosuke Wakamatsu, Hiroyoshi Yamada, Yoshio Yamaguchi (Niigata Univ.) AP2014-79 |
Recently, Indoor location estimation of persons has been attracting attention for man-location monitoring and home secur... [more] |
AP2014-79 pp.39-44 |
AP, SANE (Joint) |
2014-08-28 15:10 |
Niigata |
Niigata University Satellite campus |
Estimating Multiple Living-Body Locations Using MIMO Radar Keita Konno, Dai Sasakawa, Naoki Honma (Iwate Univ.), Kentaro Nishimori (Niigata Univ.), Nobuyasu Takemura, Tsutomu Mitsui (Samsung R&D Institute Japan), Yoshitaka Tsunekawa (Iwate Univ.) AP2014-80 |
We have proposed a localization method using MIMO (Multiple-Input Multiple-Output) radar in indoor environment. In this ... [more] |
AP2014-80 pp.45-50 |
AP, SANE (Joint) |
2014-08-28 15:35 |
Niigata |
Niigata University Satellite campus |
2D-DOA Estimation of Patch Antenna Array Using USV - MUSIC Algorithm Vira Rahayu, Kei Yokokawa, Qiang Chen (Tohoku Univ), Yono Hadi Pramono (ITS) AP2014-81 |
Universal steering vector (USV) is applied to estimate directional of arrival (DOA) using multiple signal classi... [more] |
AP2014-81 pp.51-54 |
AP, SANE (Joint) |
2014-08-28 16:10 |
Niigata |
Niigata University Satellite campus |
[Special Talk]
Earth observation by fully polarimetric radar Yoshio Yamaguchi (Niigata Univ.) |
[more] |
|
AP, SANE (Joint) |
2014-08-29 09:00 |
Niigata |
Niigata University Satellite campus |
[Invited Lecture]
Phase calibration of Pi-SAR2 POLSAR data by using interferometric data Toshifumi Moriyama (Nagasaki Univ.) AP2014-82 SANE2014-53 |
Pi-SAR2 is an X-band airborne SAR system capable of acquiring polarimetry and interferometry data, simultaneously. The b... [more] |
AP2014-82 SANE2014-53 pp.55-59(AP), pp.29-33(SANE) |
AP, SANE (Joint) |
2014-08-29 09:25 |
Niigata |
Niigata University Satellite campus |
[Invited Lecture]
Ship detection by Pi-SAR2 Along-Track Interferometry Shoichiro Kojima, Akitsugu Nadai, Toshihiko Umehara (NICT) AP2014-83 SANE2014-54 |
[more] |
AP2014-83 SANE2014-54 pp.61-66(AP), pp.35-40(SANE) |
AP, SANE (Joint) |
2014-08-29 09:50 |
Niigata |
Niigata University Satellite campus |
[Invited Lecture]
Theoretical characterization of X-band full polarimetric SAR data from rice paddies in terms of incidence angles Motofumi Arii, Tomomi Komatsu, Takeshi Nishimura (MSS), Takuma Watanabe, Hiroyoshi Yamada (Niigata University), Tatsuharu Kobayashi (NICT) AP2014-84 SANE2014-55 |
[more] |
AP2014-84 SANE2014-55 pp.67-72(AP), pp.41-46(SANE) |
AP, SANE (Joint) |
2014-08-29 10:25 |
Niigata |
Niigata University Satellite campus |
Development of speckle filter based on the four-component scattering power decomposition Takuya Ochiai, Yoshio Yamaguchi, Hiroyoshi Yamada, Cui Yi (Niigata Univ.) SANE2014-56 |
Speckle noise in SAR images makes the image interpretation difficult and reduces the accuracy of terrain classification.... [more] |
SANE2014-56 pp.47-52 |
AP, SANE (Joint) |
2014-08-29 10:50 |
Niigata |
Niigata University Satellite campus |
On the Doppler Effect for Radar Application Hirokazu Kobayashi (Osaka Inst. of Tech.) SANE2014-57 |
In terms of the Doppler effect, many well-known books and papers are published in physics, astronomy other than engineer... [more] |
SANE2014-57 pp.53-58 |
AP, SANE (Joint) |
2014-08-29 11:15 |
Niigata |
Niigata University Satellite campus |
Study on the estimation of complex permittivity using by AFF method Shun-ichi Takaoka (Niigata Univ.), Hirokazu Kobayashi (Osaka Inst. of Tech.), Yoshio Yamaguchi (Niigata Univ.) SANE2014-58 |
In this study, we discuss the estimation method of complex permittivity using by the Array Factor Focusing (AFF), which ... [more] |
SANE2014-58 pp.59-64 |
AP, SANE (Joint) |
2014-08-29 12:40 |
Niigata |
Niigata University Satellite campus |
[Tutorial Lecture]
Gain Measurement of Antennas Immersed in Solutions Nozomu Ishii (Niigata Univ.), Lira Hamada, Soichi Watanabe (NICT) AP2014-85 |
The effective wavelength in the solution, becomes shorter than free space, but it is not able to ignore the loss due to ... [more] |
AP2014-85 pp.73-78 |