IEICE Technical Committee Submission System
Conference Schedule
Online Proceedings
[Sign in]
Tech. Rep. Archives
    [Japanese] / [English] 
( Committee/Place/Topics  ) --Press->
 
( Paper Keywords:  /  Column:Title Auth. Affi. Abst. Keyword ) --Press->

All Technical Committee Conferences  (Searched in: All Years)

Search Results: Conference Papers
 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 20 of 48  /  [Next]  
Committee Date Time Place Paper Title / Authors Abstract Paper #
WPT 2025-03-10
10:10
Kyoto Kyoto-Univ. (Uji campus) (Kyoto, Online)
(Primary: On-site, Secondary: Online)
Outdoor Demonstration Experiment of Microwave Snow Melting Using a Snow-Melting Iron Device
Koyo Hatazawa (NIT, Hakodate College), Rihito Kawakami, Suzuno Ishigooka (NIT, Akita College), Tamami Maruyama (NIT, Hakodate College), Keiichi Ito (NIT, Akita College), Tsunayuki Yamamoto (NIT, Tsuyama College), Takahiko Nakamura, Masashi Nakatsugawa (NIT, Hakodate College)
 [more]
WPT 2025-03-10
16:40
Kyoto Kyoto-Univ. (Uji campus) (Kyoto, Online)
(Primary: On-site, Secondary: Online)
Filter Theoretical Analysis of Dielectric Medium Effects on Magnetically Coupled Wireless Power Transfer
Akari Kamada, Tamami Maruyama, Masashi Nakatsugawa (NIT, Hakodate College), Ikuo Awai (Fuji Wave), Masayuki Okamoto (NIT, Ube College), Katsuya Nakahira (NIT, Okinawa College)
 [more]
AP, WPT
(Joint)
2025-01-23
13:10
Shimane Rokan, Matsue (Shimane, Online)
(Primary: On-site, Secondary: Online)
Analysis of the Effects of Water and Snow on EBG Waveguides for Microwave Snow-Melting to Prevent Radio Wave Leakage
Koyo Hatazawa, Tamami Maruyama, Takahiko Nakamura, Masashi Nakatsugawa (NIT Hakodate College), Tsunayuki Yamamoto (NIT Tsuyama College), Manabu Omiya (Hokkaido University) WPT2024-34
In this study, an electromagnetic band gap structure (EBG) was proposed to prevent electromagnetic wave leakage when sno... [more] WPT2024-34
pp.7-11
WPT 2024-12-12
09:40
Ishikawa Ohgigaoka Campus, Kanazawa Institute of Technology (Ishikawa, Online)
(Primary: On-site, Secondary: Online)
Characterization of Dielectric Embedded Looped Rectenna Array for Multiple Simultaneous Wireless Power Transfer
Noa Ebita, Tamami Maruyama, Masashi Nakatsugawa (HNCT), Masaya Tamura (oyohashi University of Technology), Noriharu Suematsu (Tohoku University) WPT2024-24
The Yagi-Uda antenna, when a parasitic element is placed near the feeder, causes the parasitic elements to act as direct... [more] WPT2024-24
pp.1-5
WPT 2024-12-12
10:05
Ishikawa Ohgigaoka Campus, Kanazawa Institute of Technology (Ishikawa, Online)
(Primary: On-site, Secondary: Online)
Fundamental Study on Electrical Characteristics for Wireless Power Transfer in Underwater Using Moment Method Electromagnetic Field Analysis
Akari Kamada, Tamami Maruyama, Masashi Nakatsugawa (NIT, Hakodate College), Masaya Tamura (Toyohashi University of Technology), Ikuo Awai (Fujiwaves CO.,LTD) WPT2024-25
In this study, the basic characteristics of the electromagnetic field of the underwater magnetically coupled WPT were ob... [more] WPT2024-25
pp.6-11
MW, EMT, OPE, MWPTHz, EST, IEE-EMT [detail] 2024-07-12
09:10
Hokkaido otaru-shimin-kaikan (Hokkaido, Online)
(Primary: On-site, Secondary: Online)
Analysis of the Effect of Snow on EBG Waveguides for Microwave Snow Melting to Prevent Electromagnetic Wave Leakage
Koyo Hatazawa, Tamami Maruyama, Takahiko Nakamura, Masashi Nakatsugawa (National Institute of Technology, Hakodate College), Tsunayuki Yamamoto (National Institute of Technology, Tsuyama College), Manabu Omiya (Hokkaido University) EMT2024-34 MW2024-58 OPE2024-37 EST2024-35 MWPTHz2024-41
An electromagnetic band gap structure (EBG) was proposed to prevent leakage of electromagnetic waves when snow is taken ... [more] EMT2024-34 MW2024-58 OPE2024-37 EST2024-35 MWPTHz2024-41
pp.137-140
MW, EMT, OPE, MWPTHz, EST, IEE-EMT [detail] 2024-07-12
09:35
Hokkaido otaru-shimin-kaikan (Hokkaido, Online)
(Primary: On-site, Secondary: Online)
Experimental Evaluation of the Transmission Performance between a Circuit-Shape Slotted Waveguide and a λ/2 dipole antenna
Masashi Nakatsugawa (National Institute of Technology, Hakodate College), Yuga Sasaki (former National Institute of Technology, Hakodate College), Tamami Maruyama (National Institute of Technology, Hakodate College), Manabu Omiya (Hokkaido Univ.), Yasuhiro Tamayama (Nagaoka Univ. of Technology) EMT2024-35 MW2024-59 OPE2024-38 EST2024-36 MWPTHz2024-42
The validity of the FDTD simulation results for the wireless power transmission between a circuit-shape slotted waveguid... [more] EMT2024-35 MW2024-59 OPE2024-38 EST2024-36 MWPTHz2024-42
pp.141-145
WPT 2024-06-13
14:30
Hokkaido Hakodate Citizen Hall (Hokkaido, Online)
(Primary: On-site, Secondary: Online)
Analysis of the Effects of Different Media on Transmission and Reception in Magnetic Coupling Wireless Power Transfer
Tamami Maruyuama, Olan Heinen, Masashi Nakatsugawa (National Institute of Technology, Hakodate College), Katsuya Nakahira (National Institute of Technology, Okinawa College), Masayuki Okamoto (National Institute of Technology, Hakodate College), Ikuo Awai (Fuji wave corporation) WPT2024-9
Smart fisheries, which involve the ocean current and fish school observation using IoT sensors and drones, have attracte... [more] WPT2024-9
pp.7-11
MW, WPT 2024-04-18
11:35
Kanagawa Kanagawa University (Kanagawa, Online)
(Primary: On-site, Secondary: Online)
Experiment of Simultaneous Illumination of Multiple LEDs by Receiving the Radio Waves of Wi-Fi Tethering with Rectenna Array
Olan Heinen, Tamami Maruyama, Noa Ebita, Akari Kamada, Masashi Nakatsugawa (NIT, Hakodate College), Masaya Tamura (Toyohashi University of Technology), Noriharu Suematsu (Tohoku University) WPT2024-2 MW2024-2
A new analytical model of the cross dipole rectenna array was presented for the prototype structure and dimensions, and ... [more] WPT2024-2 MW2024-2
pp.7-11
WPT 2024-03-15
09:10
Kyoto Kyoto-Univ. (Uji campus) (Kyoto, Online)
(Primary: On-site, Secondary: Online)
Novel Microwave Snow Melting Waveguide Utilizing EBG to Prevent Electromagnetic Leakage
Koyo Hatazawa, Tamami Maruyama, Akari Kamada, Noa Ebita, Takahiko Nakamura (NIT, Hakodate College), Tsunayuki Yammoto, Nanami Kobayakawa, Fuka Yoshii, Yuna Higasa (NIT, Tsuyama College), Masashi Nakatsugawa (NIT, Hakodate College), Manabu Omiya (Hokkaido University) WPT2023-46
This paper introduces a novel snow melting method that involves directing microwaves onto snow without outward electroma... [more] WPT2023-46
pp.59-62
WPT 2024-03-15
15:50
Kyoto Kyoto-Univ. (Uji campus) (Kyoto, Online)
(Primary: On-site, Secondary: Online)
Analysis and LED Illumination Using Wi-Fi Tethering for Novel Crossed Dipole Rectenna Array
Tamami Maruyama, Olan Heinen, Noa Ebita, Akari Kamada, Masashi Nakatsugawa (NIT, Hakodate College), Masaya Tamura (Toyohashi University of Technology), Noriharu Suematsu (Tohoku University) WPT2023-58
This study proposes a novel cross-dipole type rectenna array that utilizes the lead wires of two LEDs and rectifying dio... [more] WPT2023-58
pp.111-116
MW 2024-02-29
13:00
Okayama Okayama Prefectural University (Okayama, Online)
(Primary: On-site, Secondary: Online)
Coil Orientation Impact on Efficiency in Double-Sided WPT with Magnetic Field Coupling
Akari Kamada, Tamami Maruyama, Masashi Nakatsugawa, Noa Ebita (NIT, Hakodate College), Masaya Tamura (Toyohashi University of Technology), Noriharu Suematsu (Tohoku University) MW2023-178
The coils used in magnetic field-coupled wireless power transfer (WPT) exhibit a higher absolute coupling coefficient wh... [more] MW2023-178
pp.21-24
WPT 2023-11-10
11:25
Tokyo Hachijomachi-Shokokai (Tokyo, Online)
(Primary: On-site, Secondary: Online)
Novel compact rectenna array by integrating power-receiving and waveguide elements with loaded inductor
Tamami Maruyama, Noa Ebita, Akari Kamada, Hiroto Ishiguro, Masashi Nakatsugawa (NIT, Hakodate College), Masaya Tamura (Toyohashi University of Technology), Noriharu Suematsu (Tohoku University) WPT2023-25
When arranging an array of half-wavelength dipole antenna-type rectennas, it has been reported that each element not onl... [more] WPT2023-25
pp.12-16
AP 2023-10-20
09:55
Iwate Iwate University (Iwate, Online)
(Primary: On-site, Secondary: Online)
Impedance Loaded Rectenna Array
Tamami Maruyama, Hiroto Ichiguro, Noa Ebita, Akari Kamada, Koyo Hatazawa, Masashi Nakatsugawa (NIT, Hakodate College), Masaya Tamura (Toyohashi University of Technology), Noriharu Suematsu (Tohoku University) AP2023-121
Half-wavelength dipole-type rectennas can be miniaturized through impedance loading. Conversely, when these half-wavelen... [more] AP2023-121
pp.123-126
EST, MW, EMT, OPE, MWPTHz, IEE-EMT [detail] 2023-07-20
13:25
Hokkaido Muroran Institute of Technology (Hokkaido, Online)
(Primary: On-site, Secondary: Online)
Miniaturization of Yagi-Uda rectenna by impedance loading
Tamami Maruyama, Hiroto Ishiguro, Noa Ebita, Akari Kamada, Masashi Nakatsugawa (NIT, Hakodate College), Masaya Tamura (Toyohashi University of technology) EMT2023-29 MW2023-47 OPE2023-29 EST2023-29 MWPTHz2023-25
By applying the principle of the Yagi-Uda antenna, it is possible to extend the wireless power feeding distance. However... [more] EMT2023-29 MW2023-47 OPE2023-29 EST2023-29 MWPTHz2023-25
pp.111-114
WPT 2023-06-30
14:55
Tokyo (Tokyo, Online)
(Primary: On-site, Secondary: Online)
Measurement of Near-Field Electromagnetic Distribution Radiated from Slotted Circuit-Shape Waveguides to Melt Snow with Microwave
Tamami Maruyama, Kota Unyu, Yuga Sasaki, Masashi Nakatsugawa, Takahiko Nakamura (NIT,Hakodate College), Manabu Omiya (Hokkaido University), Yasuhiro Tamayama (Nagaoka University of Technology) WPT2023-12
This paper investigates the near-field electromagnetic distribution radiated from slotted circuit-shape waveguide. The w... [more] WPT2023-12
pp.9-12
WPT 2023-03-16
14:30
Kyoto Kyoto-Univ. (Uji campus) (Kyoto, Online)
(Primary: On-site, Secondary: Online)
Experiments study on extending LED-Cube lighting distance by impedanceloaded magnetic field coupled wireless power transmission.
Akari Kamada, Noa Ebita, Tamami Maruyama, Masashi Nakatsugawa, Masaya Tamura (NIT, Hakodate College) WPT2022-37
In magnetic field coupling wireless power transmission (WPT), it has been reported that wireless power transmission effi... [more] WPT2022-37
pp.37-40
WPT 2023-03-17
15:00
Kyoto Kyoto-Univ. (Uji campus) (Kyoto, Online)
(Primary: On-site, Secondary: Online)
Novel C-shaped loop rectenna arrays for LED accessories
Noa Ebita, Akari Kamada, Tamami Maruyama, Masashi Nakatsugawa (NIT, Hakodate College), Masaya Tamura (Toyohashi University of Technology) WPT2022-60
Although microwaves leaking from a microwave oven can be converted into energy to light up the LEDs of resin accessories... [more] WPT2022-60
pp.129-132
MW 2023-03-03
09:50
Tottori Tottori Univ. (Tottori, Online)
(Primary: On-site, Secondary: Online)
Transient Response of Circuit Shape Right- and Left-Handed Waveguide for Microwave Snow Melting
Kota Unyu, Tamami Maruyama, Masashi Nakatsugawa (NIT, Hakodate College), Manabu Omiya (Hokkaido University), Tamayama Yasuhiro (Nagaoka University of Technology) MW2022-172
Transient response of the circuit shape waveguide was analyzed with the FDTD method. The waveguide was composed of the r... [more] MW2022-172
pp.88-91
MW 2023-03-03
10:30
Tottori Tottori Univ. (Tottori, Online)
(Primary: On-site, Secondary: Online)
Research on Arc-shaped Composite Right-/Left-handed Leaky Wave Antenna for Snow Melting System
Takeo Kobashi, Keto Togawa, Tsunayuki Yamamoto (NIT, Tsuyama), Tamami Maruyama, Masashi Nakatsugawa, Takahiko Nakamura (NIT, Hakodate), Keiichi Ito (NIT, Akita College), Mitsuru Muramoto, Yutaka Nasuno (NIT, Tomakomai College), Kohzoh Ohshima (NIT, Asahikawa College), Manabu Omiya (Hokkaido Univ.), Yasuhiro Tamayama (Nagaoka Univ. of Tech.) MW2022-173
In our research of a microwave snow melting system, it is expected that electromagnetic wave is fed and transmitted in a... [more] MW2022-173
pp.92-97
 Results 1 - 20 of 48  /  [Next]  
Choose a download format for default settings. [NEW !!]
Text format pLaTeX format CSV format BibTeX format
Copyright and reproduction : All rights are reserved and no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission in writing from the publisher. Notwithstanding, instructors are permitted to photocopy isolated articles for noncommercial classroom use without fee. (License No.: 10GA0019/12GB0052/13GB0056/17GB0034/18GB0034)


[Return to Top Page]

[Return to IEICE Web Page]


The Institute of Electronics, Information and Communication Engineers (IEICE), Japan