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All Technical Committee Conferences (Searched in: Recent 10 Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| MW | 2025-03-07 11:45 |
Shimane | Taisha Urara-kan Culrural Hall (Primary: On-site, Secondary: Online) |
Ka-band high-power rectification with GaAs E-pHEMT gated anode diode Yuya Hirose, Naoya Kakutani, Fumiya Komatsu, Naoki Sakai, Masaomi Tsuru, Kenji Itoh (Kanazawa IT.)  MW2024-188 |
[more] | MW2024-188 pp.106-112 |
| US | 2024-08-27 13:35 |
Tokyo | Tokyo Tech Front, Tokyo Tech (Ookayama Campus) | Numerical analysis of underwater acoustic propagation of noise from floating offshore wind turbines Takenbu Tsuchiya, Fumiya Komatsu, Junichi Mori, Nobuyuki Endoh (Kanagawa Univ,) US2024-36 |
[more] | US2024-36 pp.13-16 |
| HCGSYMPO (2nd) |
2023-12-11 - 2023-12-13 |
Fukuoka | Asia pacific Import Mart (Kitakyushu) (Primary: On-site, Secondary: Online) |
Reproducing the anchoring effect with Bayesian updating Airi Ono, Fumiya Komatsu, Kazuki Takahashi, Takashi Takekawa (Kogakuin Univ.) |
The anchoring effect is a cognitive bias known for unconsciously distorting judgments based on previously presented info... [more] | |
| HCGSYMPO (2nd) |
2023-12-11 - 2023-12-13 |
Fukuoka | Asia pacific Import Mart (Kitakyushu) (Primary: On-site, Secondary: Online) |
Individual response prediction with the Anchoring effect model. Fumiya Komatsu, Tomoaki Hamada, Airi Ono, Kazuki Takahashi, Takashi Takekawa (Kogakuin Univ.) |
In the anchoring effect, we predicted individual response values to anchors. In addition to modeling the anchoring effec... [more] | |
| MW | 2023-05-19 10:50 |
Kyoto | Ritsumeikan University (Primary: On-site, Secondary: Online) |
5.8 GHz band 10 W rectenna on the aluminum nitride antenna for thermal dispersion Naoki Sakai, Naoki Furutani, Yuya Hirose, Kaito Uchiyama, Fumiya Komatsu, Kenji Itoh (KIT) MW2023-15 |
This paper presents the 5.8 GHz band 10W rectenna with GaAs E-pHEMT gated anode diode (GAD) on the aluminum nitride (AlN... [more] | MW2023-15 pp.33-37 |
| HCGSYMPO (2nd) |
2022-12-14 - 2022-12-16 |
Kagawa | Onsite (Sunport Takamatsu) and Online (Primary: On-site, Secondary: Online) |
Analysis of Individual Characteristics Using Anchoring Effect Model with Bayesian Updating Fumiya Komatsu, Tomoaki Hamada, Isao Ozawa, Yoshihito Yasaki, Takashi Takekawa (KUTE-TOKYO) |
The anchoring effect is a phenomenon in which later judgments are influenced by previously presented numbers. There is a... [more] | |
| AP, MW (Joint) |
2022-09-15 10:35 |
Ehime | The Museum of Art, EHIME (Primary: On-site, Secondary: Online) |
5.8GHz band 10W-class double voltage rectifier MMIC with E-pHEMT gated anode diode Yuya Hirose, Ryohei Takaya, Fumiya Komatsu, Naoki Sakai, Kenji Itoh (KIT) MW2022-73 |
[more] | MW2022-73 pp.25-29 |
| AP, MW (Joint) |
2022-09-15 11:00 |
Ehime | The Museum of Art, EHIME (Primary: On-site, Secondary: Online) |
Power characteristics of 5.8GHz band 5W rectenna with a GaAs GAD Naoki Furutani, Kaito Uchiyama, Fumiya Komatsu, Kouichi Kikkawa, Naoki Sakai, Kenji Itoh (KIT) MW2022-74 |
In this report, power characteristics of the 5.8 GHz band 5 W rectenna are discussed. The rectenna is consisting of the ... [more] | MW2022-74 pp.30-35 |
| MW | 2022-03-03 11:25 |
Online | Online | A 5.8-GHz band 5-W rectenna with a heat-dissipation antenna Fumiya Komatsu, Koichi Kikkawa, Akihiko Mugitani, Naoki Sakai, Kenji Itoh (KIT) MW2021-117 |
In this paper, a 5.8 GHz band 5 W rectenna with a heat-dissipation antenna is described. The rectenna consists of a shor... [more] | MW2021-117 pp.36-41 |
| MW | 2021-12-16 14:15 |
Kanagawa | Kawasaki City Industrial Promotion Hall (Primary: On-site, Secondary: Online) |
30 GHz band double voltage rectifier MMIC with the 0.1 μm E-pHEMT gated anode diode Naoya Kakutani, Fumiya Komatsu, Yuya Hirose, Naoki Sakai, Kenji Itoh (KIT) MW2021-90 |
In this paper, the 30 GHz band double voltage rectifier MMIC with the 0.1 μm E-pHEMT is demonstrated for the millimeter ... [more] | MW2021-90 pp.31-36 |
| MW | 2021-11-19 14:20 |
Kagoshima | Kagoshima University (Primary: On-site, Secondary: Online) |
5.8 GHz band high power rectenna with a monopole antenna on an artificial magnetic conductor Naoki Furutani, Keisuke Miyashita, Shigeru Makino, Fumiya Komatsu, Naoki Sakai, Kenji Itoh (KIT) MW2021-82 |
In this report, 5.8 GHz band high-power rectenna with the monopole antenna on the artificial magnetic conductor (AMC) su... [more] | MW2021-82 pp.86-91 |
| MW, AP (Joint) |
2020-09-24 15:00 |
Online | Online | 5.8 GHz band high power rectifier MMIC with passive E-pHEMTs Fumiya Komatsu, Naoki Sakai, Kenji Itoh (KIT) MW2020-35 |
This paper describes a 5.8 GHz band high power rectifier MMIC with passive E-pHEMTs. The E-pHEMT that has normally-OFF c... [more] | MW2020-35 pp.1-6 |
| EE | 2020-01-16 12:45 |
Kagoshima | HOUZAN HALL | Commercial Power Optimization using Li-ion Batteries for Green Base Stations Fumiya Komatsu, Masaki Nakamura, Kazuhiko Takeno (NTT Docomo) EE2019-70 |
[more] | EE2019-70 pp.125-127 |
| WPT (2nd) |
2019-10-31 - 2019-11-02 |
Overseas | Xidian University | Simulated limitations on rectification efficiency of 5.8 GHz band bridge rectifiers Naoki Sakai, Fumiya Komatsu, Kenji Itoh (KIT) |
This paper presents limitations on rectification efficiency of 5.8 GHz band bridge rectifiers. In simulations, lossless ... [more] | |
| WPT, EE (Joint) |
2019-10-10 15:00 |
Shiga | Ryukoku Extension Center, Ryukoku University | Simulated limitations on rectification efficiency in bridge rectifiers Naoki Sakai, Fumiya Komatsu, Kenji Itoh (KIT) WPT2019-42 |
This paper presents the limitations of rectification efficiency of bridge rectifier for the diode performance (Breakdown... [more] | WPT2019-42 pp.83-87 |
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