Online edition: ISSN 2432-6380
[TOP] | [2017] | [2018] | [2019] | [2020] | [2021] | [2022] | [2023] | [Japanese] / [English]
WPT2020-33
Demonstration experiment of power taper implementation using subarrays with gradually increasing number of elements method
Shotaro Katano (SOKENDAI), Ken-ichiro Maki, Takahide Mizuno (JAXA)
pp. 1 - 4
WPT2020-34
Evaluation Test of Deployable Antenna for Small SAR Demonstration Satellite 2 -Strix-β-
Naoto Onodera, Budhaditya Pyne, Akbar Prilando (Syns.), Hirobumi Saito (Waseda), Masato Tanaka, Ichitaro Arisaka, Toshihiro Obata (Syns.), Koji Tanaka (ISAS/JAXA)
pp. 5 - 9
WPT2020-35
Development of Wideband Antennas
Hideki Ujihara (NICT), Tomohiko Mitani (Kyoto Univ.)
pp. 10 - 13
WPT2020-36
Array antenna beamforming according to MIMO-WPT maximum power transfer
Qiaowei Yuan (TOHTECH)
pp. 14 - 19
WPT2020-37
Electromagnetic Energy Distribution nearby Distributed Microwave WPT System
Yuki Tanaka, Kazuki Kanai, Ryosuke Hasaba, Hirosi Sato, Takuma Ikeda, Manabu Gokan, Shoichi Kajiwara, Hiroyuki Tani, Yoshio Koyanagi (Panasonic)
pp. 20 - 25
WPT2020-38
Optimum Beam Synthesis for An Arbitrary Receiving Plane in Radiating Near Field
Seishiro Kojima, Tomohiko Mitani, Naoki Shinohara (Kyoto Univ.)
pp. 26 - 31
WPT2020-39
Direction and Distance Estimation of Moving Object for Highly-Efficient Near-Field Microwave Power Transmission
Hiroyuki Matsubara, Naoki Shinohara, Tomohiko Mitani, Seishiro Kojima (Kyoto Univ.)
pp. 32 - 35
WPT2020-40
Development of a Low Leakage Electromagnetic Coupling-Type Microwave Heating System
Ryosuke Momiki, Naoki Shinohara, Tomohiko Mitani (Kyoto Univ.)
pp. 36 - 37
WPT2020-41
Relationship between the subarray size of sequential array antenna and the axial ratio and the transmission efficiencies for wireless power transfer.
Nobuyuki Takabayashi, Yin Liu, Naoki Shinohara, Tomohiko Mitani (Kyoto Univ.)
pp. 38 - 41
WPT2020-42
Study on information and power fusion transmission system with OAM antenna
Bo Yang, Mizuki Mase, Tomohiko mitani, Naoki Shinohara (Kyoto Univ.)
pp. 42 - 45
WPT2020-43
EM Assessment of Human Body RF Exposure from 5.75GHz Radiative WPT Beamforming Antenna
Andrey Andrenko (NICT), Naoki Fujita (Aoyama Gakuin University), Yuto Shimizu, Kanako Wake, Soichi Watanabe (NICT), Ryosuke Suga, Osamu Hashimoto (Aoyama Gakuin University)
pp. 46 - 50
WPT2020-44
Development of a Closed-loop Controlled Position Following System Utilizing Harmonic Reradiation from Rectenna
Jie Chu, Bo Yang, Naoki Shinohara, Tomohiko Mitani (Kyoto Univ.)
pp. 51 - 55
WPT2020-45
A prototype of EVER system using radio controlled small car
Kaito Kusunoki (Kurume College), Kaito Sinozaki (Kyushu Institute of Technology), Aoki Ide, Wataru Nomura, Urin Toya (Kurume College)
pp. 56 - 61
WPT2020-46
Small-Size Rectenna Drone and Magnetron Transmitter
Naoki Hasegawa (SB), Teruo Fujiwara (Sho-Engineering), Yuta Nakamoto, Yoshichika Ohta (SB)
pp. 62 - 66
WPT2020-47
[Invited Lecture]
Dynamic Wireless Power Transfer via Electric and Magnetic Hybrid Fields Achieving Reception of Reflected Waves
Aoi Oyane, Daiki Kuramoto, Hiromichi Ohno, Masayoshi Yamamoto (Nagoya Univ.)
pp. 67 - 72
WPT2020-48
Novel Design of 2.4GHz Band Right- and Left-handed Waveguide Arrays for Snow Melting
Yuji Koita, Kazusa Ohno, Shunta Kasai, Tamami Maruyama, Masashi Nakatsugawa (NIT, Hakodate), Yasuhiro Tamayama (Nagoya Univ)
pp. 73 - 78
WPT2020-49
FDTD analysis of leaky waves from circuit-shaped waveguides for snowmelting using microwave
Shunta Kasai, Yuji Koita, Kazusa Ohno, Tamami Maruyama (NIT,Hakodate), Manabu Omiya (Hokkaido University), Masashi Nakatsugawa (NIT,Hakodate), Tamayama Yasuhiro (Nagaoka University of technology)
pp. 79 - 82
WPT2020-50
Novel simulations and theoretical analysis of single shunt rectifiers
Takashi Hirakawa, Naoki Shinohara (Kyoto Univ.)
pp. 83 - 87
WPT2020-51
Development of 920-MHz Band Rectifier Circuit on Wireless Power Transfer for Wearable Devices
Kawai Katsumi, Naoki Shinohara, Tomohiko Mitani (Kyoto Univ.)
pp. 88 - 92
Note: Each article is a technical report without peer review, and its polished version will be published elsewhere.