Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
US |
2010-07-23 09:40 |
Tokyo |
Institute of Industrial Science, the University of Tokyo |
Convective Motion in Binary Fluid Mixture with Through-flow [ I ]
-- Pattern Selection in Linear Growth Regime -- Li Guodong (Xian Univ. Tech.), Akimitu Harada, Yoshihiro Yoshikawa (ALOKA LABO), Yoshifumi Harada (former Fukui Univ.) US2010-37 |
In this presentation, we would like to reviews recent progress in our convective motion in binary fluid mixtures with... [more] |
US2010-37 pp.25-28 |
US |
2010-07-23 10:05 |
Tokyo |
Institute of Industrial Science, the University of Tokyo |
Convective Motion in Binary Fluid Mixture with Through-flow [ II ]
-- Pattern Selection in Nonlinear Growth Regime -- Li Guodong (.Xian Univ. Tech.), Akimitsu Harada (Xian Univ. Tech.), Yoshihiro Yoshikawa (ALOKA LABO), Yoshifumi Harada (Fukui Univ.) US2010-38 |
In this presentation, we would like to reviews recent progress in our convective motion in binary fluid mixtures with... [more] |
US2010-38 pp.29-32 |
NLP |
2010-03-10 13:50 |
Tokyo |
|
Exponential transient oscillations and their stabilization in a bistable ring of unidirectionally coupled maps Yo Horikawa, Hiroyuki Kitajima (Kagawa Univ.) NLP2009-178 |
We study properties of traveling waves and oscillations in a bistable ring of unidirectionally coupled maps. A kinematic... [more] |
NLP2009-178 pp.115-120 |
RCS, AN, MoNA, SR (Joint) |
2010-03-05 09:20 |
Kanagawa |
YRP |
An Adaptive Data Gathering Method for Wireless Sensor Network Based on a Certain Traveling Wave Patterns Kiyotake Tetsuka, Hisa-Aki Tanaka (Univ. of Electro-Comm.) AN2009-77 |
In wireless sensor networks, data gathering method using traveling wave pattern has been proposed.
Previous data gather... [more] |
AN2009-77 pp.47-51 |
EA, US (Joint) |
2010-01-25 14:35 |
Osaka |
|
Miniature Ultrasound Motor Using Helical Coiled Waveguide Masayuki Tanabe, Kan Okubo, Norio Tagawa (Tokyo Metro. Univ.) US2009-94 EA2009-102 |
Miniaturization of motors is required because the electric devices are also becoming smaller. In the previous work, a mo... [more] |
US2009-94 EA2009-102 pp.39-42(US), pp.21-24(EA) |
NLP |
2010-01-22 13:50 |
Gifu |
|
Design of a periodic force for eliminating a traveling pulse in a one-dimensional piecewise-linear FHN model Tsuyoshi Shimizu, Keiji Konishi, Hideki Kokame, Naoyuki Hara (Osaka Prefecture Univ.) NLP2009-154 |
A serious cardiac arrhythmia is a main cause of cardiac sudden death. It is well known that the arrhythmia would be indu... [more] |
NLP2009-154 pp.79-83 |
ED |
2009-10-16 09:00 |
Fukui |
|
Influence of periodic magnetic field nonuniformitiy on electron beam in helix traveling wave tube Tetsunori Nagata (Kyusyu Inst. of Tech.), Shinji Hatta (MUSCAT Space Engineering Co., Ltd.), Mengu Cho (Kyusyu Inst. of Tech.) ED2009-123 |
Helix type traveling wave tube (TWT) is a microwave amplifier device widely used for tele-communication satellites. Heli... [more] |
ED2009-123 pp.37-42 |
ED |
2009-10-16 09:25 |
Fukui |
|
Development of Ka-band 250Wpeak power Mini TWT Manabu Harigae, Tetsuo Machida, Takashi Kanamoto, Mitsuru Yoshida, Kunio Tsutaki (NEC Microwave Tube, Ltd.) ED2009-124 |
This paper describes the development of Ka-band 250Wpeak/150WCW miniaturized helix traveling wave tube (TWT) for the exp... [more] |
ED2009-124 pp.43-46 |
US |
2009-09-29 14:55 |
Hokkaido |
Noboribetsu Grand Hotel |
Miniaturization of traveling wave ultrasonic linear motor Shuichi Kondo, Daisuke Koyama, Kentaro Nakamura (Tokyo Inst. of Tech.) US2009-42 |
For replacing samll air cylinders less than 10 mm in diameter, we investigated miniaturization of ultrasonic linear moto... [more] |
US2009-42 pp.25-30 |
LQE |
2009-05-22 09:00 |
Toyama |
Kanazawa Univ. |
Characterizations of Optical Emission Excited by Traveling Electron Beam Hesham Fares, Takeshi Kanai, Ippei Matsumoto, Yuji Kuwamura, Minoru Yamada (Kanazawa Univ.) LQE2009-2 |
Characteristics of the optical emission utilizing a traveling electron beam and a high refractive index waveguide were q... [more] |
LQE2009-2 pp.7-12 |
US |
2009-04-24 16:15 |
Tokyo |
The University of Electro-Communications |
Analysis of Surface Particle Motion in Helical Coiled Waveguide Ryo Tanaka, Masayuki Tanabe, Kan Okubo, Norio Tagawa (Tokyo Met Univ.) US2009-6 |
Authors developed a traveling-wave-type ultrasound motor using a helical coiled waveguided as a stator.The motor has an ... [more] |
US2009-6 pp.29-33 |
PN, OPE, EMT, LQE |
2009-01-29 11:10 |
Kyoto |
Kyoto Institute Technology (Matsugasaki Campus) |
Designing and fabrication of shifting frequency multiplier Takaaki Konishi, Shintaro Hisatake, Tadao Nagatsuma, Tetsuro Kobayashi (Osaka Univ.) PN2008-47 OPE2008-150 LQE2008-147 |
Previously we proposed and demonstrated a novel electrooptic frequency shifter which provides unity-conversion efficienc... [more] |
PN2008-47 OPE2008-150 LQE2008-147 pp.27-30 |
ED |
2008-08-04 14:55 |
Shizuoka |
Sizuoka Univ. Hamamatsu Campus |
Simulation of Charging process of dielectric props by stray electron of helix type traveling wave tube
-- Influence of stray electron -- Tetsunori Nagata (Kyusyu Institute of Technology), Shinji Hatta (MUSCAT Space Engineering), Mengu Cho (Kyusyu Institute of Technology) ED2008-113 |
Helix type traveling wave tube (TWT) is a microwave amplifier device widely used for tele-communication satellites. Heli... [more] |
ED2008-113 pp.21-26 |
ED |
2008-08-04 15:20 |
Shizuoka |
Sizuoka Univ. Hamamatsu Campus |
Development of DBS-band high power TWT Akihiko Nemoto (NEMT), Kazuhito Soga (KEC), Mitsuru Yoshida, Kunihiro Tomikawa, Kunio Tsutaki (NEMT) ED2008-114 |
NEMT(NEC Microwave Tube, Ltd.) is developing a DBS band high power traveling-wave tube (TWT) as an amplifier in the syst... [more] |
ED2008-114 pp.27-30 |
USN, IPSJ-UBI |
2008-07-18 13:15 |
Tokyo |
Tokyo Denki University (Tokyo) |
A Traveling Wave-based Data Gathering Scheme Adaptive to Sensing Requirements for Wireless Sensor Networks Yoshiaki Taniguchi, Naoki Wakamiya, Masayuki Murata (Osaka Univ.), Takashi Fukushima (Kobe Steel., LTD) USN2008-29 |
In wireless sensor networks, frequency of sensing and data gathering depends on application requirements and dynamic sur... [more] |
USN2008-29 pp.105-110 |
NS, RCS (Joint) |
2007-07-19 10:30 |
Hokkaido |
Kitami Institute of Tech. |
Implementation and Evaluation of Traveling Wave based Communication Mechanism for Wireless Sensor Networks Yoshiaki Taniguchi, Naoki Wakamiya, Masayuki Murata (Osaka Univ.) NS2007-40 |
We have proposed a distributed and self-organizing communication mechanism for a wireless sensor network which can organ... [more] |
NS2007-40 pp.1-6 |
AP |
2007-04-19 15:20 |
Hyogo |
Kwansei Gakuin Univ. |
The characteristics of traveling wave small antennas with resistive loading Masahiro Yamamoto (Osaka Electro-Communication Univ.), Masaru Tsunasaki (Osaka Gas), Masanobu Kominami (Osaka Electro-Communication Univ.) AP2007-10 |
Generally, a traveling wave antenna uses the longer element by several wavelengths than the using wavelength. However, b... [more] |
AP2007-10 pp.53-58 |
ED |
2006-08-04 10:50 |
Osaka |
Osaka Univ. Convention Center |
Development of mini-TWT for S-band 1kW pulse MPM Takatsugu Munehiro, Mitsuru Yoshida, Atsushi Kajiwara, Kunihiro Tomikawa, Kunio Tsutaki (NEC) |
It is required for the microwave power module (MPM), which can be used for many systems, to be broadband, small lightwei... [more] |
ED2006-131 pp.67-71 |
RCS, NS (Joint) |
2006-07-19 11:50 |
Hokkaido |
Hokkaido Univ. |
A distributed and self-organizng communication mechanism based on traveling wave phenomena for wireless sensor networks Yoshiaki Taniguchi, Naoki Wakamiya, Masayuki Murata (Osaka Univ.) NS2006-48 |
In this paper, we propose a distributed and self-organizing communication mechanism for a wireless sensor network where ... [more] |
NS2006-48 pp.17-20 |
ED |
2005-12-22 15:20 |
Tokyo |
|
- Mitsuru Yoshida, Shintaro Arai, Akihiko Kasahara, Masaaki Takahashi, Kunio Tsutaki (NEMT) |
Applications for helix TWTs with wide band characteristics are varied. And the studies of more wide band TWTs have been ... [more] |
ED2005-188 pp.33-37 |