Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
AP |
2017-04-21 09:55 |
Osaka |
Osaka university |
Printed Inverted L Antenna on Dielectric Substrate Excited by Microstrip Line Kono Tsubasa, Mitsuo Taguchi, Takafumi Fujimoto (Nagasaki Univ.) AP2017-13 |
A printed inverted L antenna on a dielectric substrate excited by a microstrip line is proposed and numerically analyzed... [more] |
AP2017-13 pp.65-68 |
AP (2nd) |
2017-01-26 - 2017-01-27 |
Overseas |
Malaysia-Japan International Institute of Technology (MJIIT) |
Center-fed Traveling-wave Microstrip Array Antenna Using Elliptically-shaped Radiating Elements in Quasi-millimeter-wave Band Kazumasa Shida, Yuta Mouri, Kunio Sakakibara, Nobuyoshi Kikuma (NITech) |
A center-feeding travelling-wave comb-line antenna is developed to realize a high-gain and broadband two-dimensional mic... [more] |
|
SANE |
2017-01-27 13:00 |
Nagasaki |
Nagasaki Prefectural Art Museum |
Antenna system for estimation of fresh concrete components -Part 3- Takahiro Hirano, Takafumi Fujimoto, Toshiyuki Tanaka (Nagasaki Univ.) SANE2016-111 |
Authors have studied on the component estimation of fresh concrete. We detected that dielectric distribution of the fres... [more] |
SANE2016-111 pp.87-92 |
EMCJ, IEE-EMC, MW, EST [detail] |
2016-10-20 11:45 |
Miyagi |
Tohoku Univ. |
A Method for Reducing a Coupling between Feed Lines of an Array Antenna Akimichi Hirota, Hikaru Watanabe, Naofumi Yoneda, Moriyasu Miyazaki (Mitsubishi Electric Corp.) EMCJ2016-65 MW2016-97 EST2016-61 |
In this paper, a method for reducing an unwanted coupling between feed lines of array antennas is presented. When patch ... [more] |
EMCJ2016-65 MW2016-97 EST2016-61 pp.31-34 |
AP, MW (Joint) |
2016-09-16 15:10 |
Ibaraki |
AIST |
A Consideration on Frequency Control of a Single-Layer Multi-Ring Microstrip Antenna with Varactor Diodes Toru Ikeda, Hanae Tateno, Sakuyoshi Saito, Yuichi Kimura (Saitama Univ.) AP2016-104 |
This paper presents design of a frequency-tunable multiband microstrip antenna with varactor diodes. In order to realize... [more] |
AP2016-104 pp.85-90 |
AP |
2016-08-22 13:25 |
Nagasaki |
Nagasaki Univ. |
Configuration Study of Circularly Polarized Antennas Integrated with a Double-Balanced Multiplier Takahiro Ino, Eisuke Nishiyama, Ichihiko Toyoda (Saga Univ.) AP2016-72 |
Circularly polarized antennas based on a new principle using a double balanced multiplier are proposed to achieve small ... [more] |
AP2016-72 pp.25-30 |
AP |
2016-08-22 13:50 |
Nagasaki |
Nagasaki Univ. |
Antenna system for estimation of fresh concrete components -Part 2- Takahiro Hirano, Takafumi Fujimoto, Toshiyuki Tanaka (Nagasaki Univ.) AP2016-73 |
Authors have studied on the component estimation of fresh concrete. We detected that dielectric distribution of the fres... [more] |
AP2016-73 pp.31-36 |
SCE |
2016-08-08 13:00 |
Saitama |
Saitama Univ. (Omiya sonic city) |
Development of Broadband Microstrip Crossover for Millimeter Wave Akira Masuda, Masato Naruse, Tohru Taino, Hiroaki Myoren (Saitama Univ.), Yutaro Sekimoto (NAOJ), Tomu Nitta (Tsukuba Univ.) SCE2016-16 |
We have been developing multi-color superconducting cameras for the survey observations at millimeter and sub-millimeter... [more] |
SCE2016-16 pp.25-28 |
AP, SAT, SANE (Joint) |
2016-07-21 13:25 |
Hokkaido |
Otaru port marina |
Comparison of Connection Circuits of Upper Microstrip Line and Lower Waveguide Composed of Microstrip-to-waveguide Transitions and Waveguide Bends in Different Planes Kasper Kuusisto, Kunio Sakakibara, Nobuyoshi Kikuma (NITech.) AP2016-48 |
A connection circuit of a microstrip line and a lower parallel waveguide is necessary to connect a microstrip
antenna a... [more] |
AP2016-48 pp.67-72 |
AP |
2016-05-20 10:20 |
Hyogo |
kobe Univ. |
(Oral Presentation) Printed inverted L antenna on dielectric substrate excited by microstrip line Takanobu Taniguchi, Mitsuo Taguchi (Nagasaki Univ.) |
The feeding dielectric substrate bottom of the microstrip line and the slot provided inside, was of 24GHz band antenna m... [more] |
|
AP |
2016-05-20 15:15 |
Hyogo |
kobe Univ. |
Design of a linearly polarized radial line MSA array with a microstrip line inside the element for radiation phase control Yuki Kimura, Sakuyoshi Saito, Yuichi Kimura (Saitama Univ.), Yuzuru Inose, Gen Hagiwara (Link Circuit Inc.) AP2016-29 |
This paper presents design of a linearly-polarized radial line microstrip array antenna (RL-MSAA). A circular microstrip... [more] |
AP2016-29 pp.71-76 |
AP |
2016-04-21 14:25 |
Aichi |
Chub university |
Efficiency Enhancement of Beam-switching Antenna Optimizing Beam Shape of Taper Structure in Rotman-lens Phase Shifter Yuta Suzuki, Yasuhiro Imade, Kunio Sakakibara, Nobuyoshi Kikuma (NITech.) AP2016-4 |
Multiple-beam antennas can cover wide angle with high gain, therefore, are attractive for high-speed wireless mobile com... [more] |
AP2016-4 pp.19-24 |
AP |
2016-04-21 15:15 |
Aichi |
Chub university |
Two-dimensional Design of Center-feeding Microstrip Comb-line Antenna with Travelling-wave Operation in Quasi-millimeter-wave Band Kazumasa Shida, Shigenori Kitanaka, Yuta Mouri, Kunio Sakakibara, Nobuyosi Kikuma (NITech) AP2016-6 |
A center-feeding travelling-wave comb-line antenna is developed to realize a high-gain and broadband two-dimensional mic... [more] |
AP2016-6 pp.31-34 |
AP |
2016-03-11 10:25 |
Yamanashi |
Isawa Onsen (Kanpo no Yado) |
A consideration on a 15 GHz beam adjustable microstrip antenna array Shunsuke Kamimura, Sakuyoshi Saito, Yuichi Kimura (Saitama Univ.), Riichiro Nagareda, Masayuki Nakano (KDDI Labs.) AP2015-218 |
This paper presents beam adjustable microstrip antenna arrays (BA-MSAAs). The BA-MSAA consists of a microstrip antenna (... [more] |
AP2015-218 pp.81-84 |
AP (2nd) |
2016-03-01 10:05 |
Overseas |
Telecommunications University, Nha Trang, Vietnam |
[Invited Talk]
Metamaterials for Antenna Applications
-- Wideband Left-Handed Metamaterial: Analysis, Modelling, and Testing for Antenna Gain Enhancement -- Minh Thuy LE, Nhu Huan Nguyen (HUST) |
Low efficiency and volumetric expansion have limited the applicability of conventional array technique for high-gain ant... [more] |
|
AP |
2016-01-15 16:30 |
Tokyo |
Takushoku University, Hachiouji Campus |
Characterization of a Tunable Circularly Polarized Microstrip Antenna With Varactor Diodes Toshihiro Yamada, Eisuke NIshiyama, Ichihiko Toyoda (Saga Univ.) AP2015-188 |
In this paper, characterization of a tunable circularly polarized microstrip antenna which employs varactor diodes is pr... [more] |
AP2015-188 pp.115-120 |
MW |
2015-12-18 13:45 |
Tokyo |
Tokyo Univ. of Science |
Radiation Characteristics of Microstrip Line Antenna Supported by Dielectric Pieces in UHF Frequency Bands Kengo Nakajima, Kengo Kunishige, Futoshi Kuroki (NIT, Kure College) MW2015-154 |
Generally, small-sized antennas are needed for specified low-power radios. Because antennas were usually placed on the n... [more] |
MW2015-154 pp.117-120 |
MW |
2015-12-18 14:10 |
Tokyo |
Tokyo Univ. of Science |
Consideration on Microstrip Line Array Antenna in 60GHz Bands Kaiji Nakahara, Futoshi Kuroki (NIT, Kure College) MW2015-155 |
The vertical strip transmission line primary radiator was proposed for use in array antenna systems, and the usefulness ... [more] |
MW2015-155 pp.121-126 |
AP |
2015-12-10 15:10 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
[Memorial Lecture]
50 years of antenna R&D; History of antenna development for specification of wireless communications Hiroyuki Arai (YNU) AP2015-160 |
This article describes the history of antenna development for specification of wireless communications, focusing on smal... [more] |
AP2015-160 pp.33-36 |
AP, RCS, WPT, SAT (Joint) |
2015-11-05 14:35 |
Okinawa |
Okinawa Prefectural Museum & Art Museum |
Design of Rotman-lens-feeding Low-profile Beam-scanning Millimeter-wave Microstrip Antenna Using Bow-tie Slot Coupling Double-layer Microstrip Connection Yasuhiro Imade, Kunio Sakakibara, Nobuyoshi Kikuma (Nagoya Inst. of Tech.) AP2015-139 |
Rotman-lens feeding-circuit is popular for broadband beam forming networks (BFN) in multi-beam antennas. However, the si... [more] |
AP2015-139 pp.167-171 |