Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
WPT |
2024-03-14 11:05 |
Kyoto |
Kyoto-Univ. (Uji campus) (Primary: On-site, Secondary: Online) |
Development of Wireless Power Receiving System for the Advanced WPT Demonstration Teruo Fujiwara (SHO), Hiroki Yanagawa, Shinichi Shimazaki (JSS), Akihito Ogawa (IA), Kazuo Hasegawa, Ida Takayuki (SHO) WPT2023-38 |
[more] |
WPT2023-38 pp.16-19 |
WPT |
2023-03-16 16:30 |
Kyoto |
Kyoto-Univ. (Uji campus) (Primary: On-site, Secondary: Online) |
Development of Microwave Power Charging System assisted by Drone Teruo Fujiwara (SHO), Yoshiaki Iijima (TAKUWA), Takashi Tomura (Tokyo Tech), Kazuo Hasegawa, (SHO) WPT2022-41 |
[more] |
WPT2022-41 pp.58-62 |
WPT |
2021-03-05 11:35 |
Online |
Online |
Small-Size Rectenna Drone and Magnetron Transmitter Naoki Hasegawa (SB), Teruo Fujiwara (Sho-Engineering), Yuta Nakamoto, Yoshichika Ohta (SB) WPT2020-46 |
This work discusses the microwave-power transfer (MPT) to a small done for the first step of research program on
wirele... [more] |
WPT2020-46 pp.62-66 |
WPT |
2020-03-07 11:30 |
Kyoto |
(Cancelled but technical report was issued) |
Application of WPT Technologies to Ground Temperature Measurement Teruo Fujiwara (SHO Engineering), Shunzo Kawajiri (KIT), Naoki Shinihara (KU), Kenji Sasaki (JSS), Naoya Momohara (OYO), Atsushi Kishimoto, Kazuo Hasegawa, Teruo Fujiwara (SHO Engineering) WPT2019-77 |
[more] |
WPT2019-77 pp.107-110 |
AP, RCS (Joint) |
2019-11-21 10:55 |
Saga |
Saga Univ. |
Power Receiving Eight-Power-Dividing Radial Line Slot Array Antennas for 5.8-GHz-Band Beam-Type Wireless Power Transmission System Takashi Tomura, Jiro Hirokawa (Tokyo Tech), Minoru Furukawa, Teruo Fujiwara (Sho Engineering Corp.) AP2019-121 |
In this paper, we design an power receiving eight-power-dividing radial line slot antenna (RLSA) for 5.8-GHz-band beam-t... [more] |
AP2019-121 pp.87-90 |
WPT |
2019-03-07 10:30 |
Kyoto |
Kyoto Univ. Uji Campus |
Evaluation of Receiving Array Antenna Efficiency for Microwave Power Transfer with Drone Nobuyuki Takabashi, Naoki Shinohara (Kyoto Univ.), Teruo Fujiwara (Sho Engineering) WPT2018-67 |
Drones have been recently applied to various kind of industries. We proposed to combine drones with microwave power tran... [more] |
WPT2018-67 pp.17-22 |
WPT, AP (Joint) |
2019-01-17 12:55 |
Aichi |
Toyota Automobile Museum |
Study on 5.8-GHz band Beam-Type Wireless Power Transmission by Radial Line Slot Antennas Takashi Tomura, Jiro Hirokawa (Tokyo Tech), Minoru Furukawa, Teruo Fujiwara (Sho Engineering Corp.) AP2018-156 |
In this paper, we propose beam-type wireless power transmission by two radial line slot antennas. The radiation elements... [more] |
AP2018-156 pp.29-32 |
MW (2nd) |
2018-06-27 - 2018-06-29 |
Overseas |
KMITL, Bangkok, Thailand |
Study on Microwave Power Transmission to Observation Equipment at Volcanoes with a Drone Nobuyuki Takabayashi, Naoki Shinohara (Kyoto Univ.), Teruo Fujiwara (Sho Engineering Corp.) |
Microwave power transmission (MPT) is one of the wireless power transfer technologies. We apply it to charging observati... [more] |
|
MW |
2017-12-20 13:45 |
Tokyo |
|
Optimization of Transmitting Array Antenna for Multicopter Assisted Wireless Power Transfer for Measurement Systemt at Volcanoes Nobuyuki Takabayashi, Naoki Shinohara (Kyoto Univ.), Teruo Fujiwara (Sho Engineering Corp.) MW2017-160 |
We suggest the system for wireless power transfer to observation machines located at vol- canoes, where we use a multico... [more] |
MW2017-160 pp.107-112 |
WPT |
2017-03-07 15:40 |
Kyoto |
Kyoto Univ. Uji Campus |
UAV Assisted WPDT Application to Mountaineering Accident Sufferer Search System Teruo Fujiwara (SHO), Naoki Shinohars (Kyoto Univ.), Shigeyuki Ogawa (Kikuchi), Akiyoshi Ono (OMC) WPT2016-84 |
[more] |
WPT2016-84 pp.101-106 |
WPT |
2016-03-07 13:55 |
Kyoto |
Kyoto Univ. Uji Campus |
Study on Beamforming of Transmission Antenna for Multicopter Assisted Wireless Batteryless System Naoki Kamiyoshikawa, Naoki Shinohara (Kyoto Univ.), Teruo Fujiwara (Sho Engineering Corp.), Akiyoshi Ono (Orient Microwave Corp.) WPT2015-78 |
We propose the application of Multicopter Assisted WBLS(Wireless Batteryless Sensing) for victim search in the mountaino... [more] |
WPT2015-78 pp.11-14 |
WPT |
2015-03-25 15:15 |
Kyoto |
Kyoto Univ. Uji Campus |
Development of Receiving Section of Microwave Power Transmission Test Model Yuichiro Ozawa, Naohiro Tanaka, Teruo Fujiwara (IHI AEROSPACE), Naoki Shinohara, Tomohiko Mitani (Kyoto Univ.), Kenji Sasaki, Shuji Nakamura (J-spacesystems) WPT2014-111 |
The receiving section of microwave power transmission(MPT) test model has been developed since 2009. In this paper, we w... [more] |
WPT2014-111 pp.85-88 |
WPT |
2014-12-19 11:30 |
Oita |
Daihen Tech. |
Development of high-efficiency rectenna control device Yuichiro Ozawa, Teruo Fujiwara, Naohiro Tanaka (IHI AEROSPACE), Kenji Sasaki, Shuji Nakamura (J-spacesystems) WPT2014-72 |
High-efficiency technology of microwave transfer system is needed. The RF-DC conversion efficiency is one of the most im... [more] |
WPT2014-72 pp.47-50 |
WPT |
2014-06-06 14:20 |
Tokyo |
Univ. of Tokyo |
Prototype of GaN schottky diode for a rectenna Teruo Fujiwara, Yuichiro Ozawa, Naohiro Tanaka (IHI AEROSPACE), Masaaki Kuzuhara (Univ. of Fukui), Kazuhiro Fujimori (Okayama Univ.), Shuichi Yagi (POWDEC), Keisuke Naito (NDK), Shoichiro Mihara, Shuji Nakamura (J-spacesystems) WPT2014-26 |
Schottky Barrier Diode based on GaN semiconductor is developing for high effciency 5.8GHz rectenna toward Space Solar Po... [more] |
WPT2014-26 pp.11-16 |
ED, LQE, CPM |
2009-11-20 15:25 |
Tokushima |
Univ. of Tokushima (Josanjima Campus, Kogyo-Kaikan) |
Development of GaN Schottky Diodes for Microwave Wireless Ubiquitous Power Distribution Kensuke Takahashi, Jin-Ping Ao (Tokushima Univ.), Naoki Shinohara (Kyoto Univ.), Naoki Niwa (Kajima Corp.), Teruo Fujiwara (Sho Engineering Corp.), Yasuo Ohno (Tokushima Univ.) ED2009-158 CPM2009-132 LQE2009-137 |
For microwave power rectification circuits(rectenna), high power, high conversion efficiency and compact size rectifying... [more] |
ED2009-158 CPM2009-132 LQE2009-137 pp.145-150 |