Ando M | Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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概要
関連著者
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Ando M
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Ando Makoto
The Authors Are With The Department Of Electrical And Electronic Engineering Tokyo Institute Of Tech
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Ando M
Tokyo Institute Of Technology
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HIROKAWA Jiro
Tokyo Institute of Technology
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Hirokawa Jiro
Department Of Electrical & Electronic Engineering Faculty Of Engineering Tokyo Institute Of Tech
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Ando Makoto
Department Of Applied Physics Faculty Of Engineering Tokyo University Of Agriculture And Technology
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Ando Makoto
Department Of Cardiovascular Surgery Sakakibara Heart Institute
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HIROKAWA Jiro
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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ANDO Makoto
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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Hirokawa J
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Ando Makoto
Department Of Cardiovascular Surgery The Sakakibara Heart Institute
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Ando Makoto
Faculty Of Engineering Tokyo Institute Of Technology
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Ando Makoto
Dept. Of Electrical And Electronic Eng. Graduate School Of Science And Engineering Tokyo Institute O
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Hirokawa Jiro
Department Of Electrical & Electronic Engineering Tokyo Institute Of Technology
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Hirokawa Jiro
Dept. Of Electrical And Electronic Eng. Graduate School Of Science And Engineering Tokyo Institute O
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Ando Makoto
Tokyo Inst. Of Technol. Tokyo Jpn
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Hirokawa Jiro
Dept. Of Electrical Amp Electronic Eng. Tokyo Institute Of Technology
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Ando Makoto
Dept. Of Electrical & Electronic Eng. Tokyo Institute Of Technology
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She Yuanfeng
Dept. Of Electrical And Electronic Eng. Tokyo Institute Of Technology
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Hirano T
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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SHE Yuanfeng
Dept. of Electrical and Electronic Engineering, Tokyo Institute of Technology
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ANDO Makoto
Tokyo Institute of Technology
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ANDO Makoto
Dept. of Electrical and Electronic Engineering, Tokyo Institute of Technology
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HIROKAWA Jiro
Dept. of Electrical and Electronic Engineering, Tokyo Institute of Technology
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Zhang Miao
Dept. Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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KAI Takafumi
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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Kai Takafumi
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Huong Tran
Dept. Of Electrical And Electronic Eng. Tokyo Institute Of Technology
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SAKURAI Kimio
Tokyo Institute of Technology
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Sakakibara K
Department Of Electrical And Electronic Engineering Faculty Of Engineering Tokyo Institute Of Techno
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Lee Jae-ho
Dept. Of Electrical & Electronic Eng. Tokyo Institute Of Technology
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Zhang Miao
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Sakurai Kimio
Dept. Of Electrical And Electronic Eng. Graduate School Of Science And Engineering Tokyo Institute O
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HASHIMOTO Koh
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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HIRANO Takuichi
Department of International Development Engineering, Tokyo Institute of Technology
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Hirano Takuichi
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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SHE Yuanfeng
Tokyo Institute of Technology
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Sakurai K
Tokyo Institute Of Technology
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Fujimoto Masahiro
Hirai Seimitsu Kogyo Corporation
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Ueda Hideki
Department Of Electrical & Electronic Engineering Tokyo Institute Of Technology
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Hanatani Daisuke
Hirai Seimitsu Kogyo Corporation
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Hashimoto Koh
Department Of Complexity Science And Engineering The Graduate School Of Frontier Scierces University
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ZHANG Miao
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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Hirano Takuichi
Dept. of International Development Eng., Tokyo Institute of Technology
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Lee Jae-ho
Tokyo Institute Of Technology
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SAMARDZIJA Miroslav
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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Kim Dongjin
Dept. Of Electrical And Electronic Eng. Graduate School Of Science And Engineering Tokyo Institute O
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HIRANO Takuichi
Tokyo Institute of Technology
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Hirachi Yasutake
AMMSYS Inc.
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Samardzija Miroslav
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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FUJIMOTO Masahiro
Hirai Precision Ind. Co. Ltd.
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HANATANI Daisuke
Hirai Precision Ind. Co. Ltd.
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常光 康弘
日本無線株式会社研究開発本部技術開発部アンテナグループ
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HUONG Tran
Dept. of Materials Science, Toyohashi University of Technology
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常光 康弘
横浜国立大学工学部
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常光 康弘
拓殖大学工学部電子工学科
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Park S‐h
Tokyo Inst. Technol. Tokyo Jpn
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UEDA Hideki
Tokyo Institute of Technology
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NAKANO Hiroshi
Strategic device group, Eudyna devices Inc.
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HIRACHI Yasutake
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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PARK Sang-Hune
Pohang University of Science and Technology (POSTECH)
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Goto N
Radial Antenna Laboratory
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Park Sang‐hune
Pohang University Of Science And Technology (postech)
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Yoshida Goro
Jrc
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HIROKAWA Jiro
the Department of Electrical and Electronic Engineering, Ando & Hirokawa Lab., Tokyo Institute of Te
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ANDO Makoto
the Department of Electrical and Electronic Engineering, Ando & Hirokawa Lab., Tokyo Institute of Te
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Park Se-hyun
Department Of Electrical And Electronic Tokyo Institute Of Technology
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TSUNEMITSU Yasuhiro
JRC
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MIURA Yohei
JRC
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SUDO Kaoru
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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Nagatsuma Tadao
Dept. Of Systems Innovation Graduate School Of Engineering Science Osaka University
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Ando Makoto
Department Of Electrical & Electronic Engineering Tokyo Institute Of Technology
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Tung Nguyen
Department Of Electrical & Electronic Engineering Tokyo Institute Of Technology
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Ueda Hideki
Department Of Cardiovascular Surgery Kkr Sapporo Medical Center
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Sudo Kaoru
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Kazama Yasuhiro
Japan Radio Co. Ltd. Mitaka‐shi Jpn
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Jayawardene Rushanthi
Dept. Of Electrical & Electronic Engineering Tokyo Institute Of Technology
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Nakano Hiroshi
Strategic Device Group Eudyna Devices Inc.
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Ando Makoto
The Department Of Cardiovascular Surgery Seirei Hamamatsu General Hospital
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Zhang Miao
Dept. Of Electrical And Electronic Eng. Graduate School Of Science And Engineering Tokyo Institute Of Technology
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LEE Jae-Ho
Dept. of Civil Eng., Kobe Univ.
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ZHANG Miao
Dept. of Electrical and Electronic Engineering, Tokyo Institute of Technology
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Ueda Hideki
Department of Surgery, Course of Interventional Medicine (E1), Osaka University Graduate School of M
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KIMURA Yuichi
Department of Neurology and First Department of Internal Medicine, Dokkyo University School of Medic
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ALBANI Matteo
University of Siena
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Tran Thi
Department Of Veterinary Medicine College Of Agriculture And Applied Biology Campus Ii Cantho Univer
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Hashimoto Koh
Dept. Of Electrical And Electronic Eng. Tokyo Institute Of Technology
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Kimura Yuichi
Dept. Of Electrical And Electronic Systems Saitama University
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Sasaki Atsushi
Department Of Applied Pharmacology Graduate School Of Medicine And Pharmaceutical Sciences Universit
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松田 秀雄
Graduate School of Engineering Science, Osaka University
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KATOU Yusuke
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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MATSUDA HIDEO
Graduate School of Engineering Science, Osaka University
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Tran Thi
Dept. of Electrical and Electronic Eng. Tokyo Institute of Technology
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Tung Nguyen
Department Of Mechanical Engineering Doshisha University
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AZUMA Kazufumi
Advanced LCD Technology Development Center Co., Ltd.
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Ide Tetsuya
Advanced Lcd Technologies Development Center Co. Ltd.
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SASAKI Atsushi
Advanced Compound Semiconductors R&D Center, ROHM Co. Ltd.
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TRAN Thi
Tokyo Institute of Technology
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KOGAMI Yoshinori
Utsunomiya University
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Huey Koh
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Park Sehyun
Chung‐ang Univ. Seoul Kor
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Park Sehyun
School Of Electrical And Electronics Engineering Chung-ang University
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Amano Osamu
Space Engineering Division Nec/toshiba Space Systems Ltd.
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Katou Yusuke
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Matsuda H
Graduate School Of Information Science And Technology Osaka University
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Matsuda Hideo
Graduate School Of Engineering Science Osaka University
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Azuma Kazufumi
Advanced Lcd Technologies Development Center Co. Ltd.
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Akiyama Yutaka
Second Department Of Pathology Faculty Of Medicine University Of Miyazaki
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Haneishi Misao
Department Of Electrical And Electronic Saitama University
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SAKURAI Kimio
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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NAKATA Yukihiko
Advanced LCD Technologies Development Center Co. Ltd.
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PARK Se-Hyun
Department of Electrical and Electronic, Tokyo Institute of Technology
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PARK Se-Hyun
the Department of Electrical and Electronic, Tokyo Institute of Technology
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AKIYAMA YUTAKA
Computational Biology Research Center, National Institute of Advanced Industrial Science and Technol
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Kazama Yasuhiro
Japan Radio Company
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GOTO Naohisa
Radial Antenna Laboratory
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TSUNEMITSU Yasuhiro
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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PARK SeHyun
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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KAZAMA Yasuhiro
JRC
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GOTO Naohisa
Takushoku University
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YOUNG John
Japan Radio Corporation, Ltd.
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IRANO Takuichi
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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ANDO MAKOTO
NKK Corporation
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SUDO Kaoru
the Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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AKIYAMA Akira
the Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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SAKINA Ken-ichi
The authors are with the Department of Electrical and Electronic Engineering, Tokyo Institute of Tec
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CUI Suomin
The authors are with the Department of Electrical and Electronic Engineering, Tokyo Institute of Tec
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Kimura Y
Department Of Electrical And Electronic Systems Saitama University
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Kim Dongjin
Dept. of Electrical and Electronic Eng., Graduate School of Science and Engineering, Tokyo Institute
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Young John
Japan Radio Corporation Ltd.
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Cui Suomin
The Authors Are With The Department Of Electrical And Electronic Engineering Tokyo Institute Of Tech
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Akiyama A
The Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Koh KimHuey
Tokyo Institute of Technology
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TAKAHASHI Masanari
Department of Electrical and Electronic Systems, Saitama University
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Kogami Yoshinori
Utsunomiya Univ. Utsunomiya‐shi Jpn
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Kimura Yuichi
Department Of Electrical And Electronic Systems Saitama University
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Akiyama Yutaka
Computational Biology Research Center
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Takahashi Masanari
Department Of Electrical And Electronic Systems Saitama University
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Sakina Ken-ichi
The Authors Are With The Department Of Electrical And Electronic Engineering Tokyo Institute Of Tech
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Sasaki Atsushi
Department Of Applied Pharmacology Graduate School Of Medicine And Pharmaceutical Sciences Universit
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Sasaki A
Advanced Lcd Technologies Development Center Co. Ltd.
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Irano Takuichi
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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SHE Yuanfeng
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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She Yuanfeng
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Tran Thi
Department Of Nutrition School Of Medicine The University Of Tokushima
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Okada Kenichi
Tokyo Inst. Of Technol. Yokohama‐shi Jpn
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Kazama Yasuhiro
Japan Radio Co. Ltd.
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Kimura Yuichi
Department Of Clinical Cariology And Endodontology Showa University School Of Dentistry
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Takada Takuma
Dept. of Systems Innovation, Graduate School of Engineering Science, Osaka University
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Takada Takuma
Dept. Of Systems Innovation Graduate School Of Engineering Science Osaka University
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Mohibul Hasan
Dept. of Electrical & Electronic Engineering Tokyo Institute of Technology
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Jayawardene Rushanthi
Dept. of Electrical & Electronic Engineering Tokyo Institute of Technology
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Mohibul Hasan
Dept. Of Electrical & Electronic Engineering Tokyo Institute Of Technology
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Sasaki Atsushi
Advanced Compound Semiconductors R&d Center Rohm Co. Ltd.
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ONO Yuya
Tokyo Institute of Technology
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Fujino Ryusuke
Tokyo Institute of Technology
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Jayawardene Rushanthi
Tokyo Institute of Technology
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Nguyen Tung
Tokyo Institute of Technology
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Takano Yasutomo
Tokyo Institute of Technology
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Amano Osamu
NEC-Toshiba Space Systems
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Matsuzaki Takaomi
NEC-Toshiba Space Systems
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Koreeda Shuichi
NEC-Toshiba Space Systems
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MIURA Yohei
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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IGARASHI Kazufumi
Development Department, Research & Development Center, Japan Radio Co., Ltd.
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YOSHIDA Goro
Development Department, Research & Development Center, Japan Radio Co., Ltd.
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HANATANI Daisuke
LTCC Lab, Ogaki plant, Hiraiseimitsu Cooperation
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FUJIMOTO Masahiro
LTCC Lab, Ogaki plant, Hiraiseimitsu Cooperation
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Haneishi Misao
Saitama Univ. Saitama Jpn
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Igarashi Kazufumi
Development Department Research & Development Center Japan Radio Co. Ltd.
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木村 雄一
Department of Electrical and Electronic Systems, Saitama University
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羽石 操
Department of Electrical and Electronic Systems, Saitama University
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安藤 誠
NKK Corporation
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秋山 泰
Computational Biology Research Center (CBRC), National Institute of Advanced Industrial Science and Technology (AIST)
著作論文
- Broadband Design and Fabrication of Partially-Corporate Feed Double-Layer Waveguide Slot Antennas with Magnetic Wall Terminations due to Symmetrical Waveguide Connections
- A Coaxial Line to Post-Wall Waveguide Transition for a Cost-Effective Transformer between a RF-Device and a Planar Slot-Array Antenna in 60-GHz Band(Antennas and Propagation)
- B-1-59 Antenna Efficiency Estimation according to the Loss Evaluation of Post-Wall Waveguides in Millimeter-Wave Bands
- C-2-70 Prediction of Transmission Losses in Microstrip Lines and Post-wall Waveguides in Various Frequency Bands by using Effective Conductivity and Complex Permittivity obtained by a Whispering Gallery Mode Resonator Technique
- C-2-44 CONFORMATION OF EFFECTIVE CONDUCTIVITY MEASURED BY A WHISPERING GALLERY MODE RESONATOR IN THE MILLIMETER-WAVE BAND BY MICROSTRIP-LINE TRANSMISSION LOSSES EVALUATION
- Fabrication of Alternating-Phase Fed Single-Layer Slotted Waveguide Arrays Using Plastic Materials with Metal-Plating
- A Three-Way Divider for Partially-Corporate Feed in an Alternating Phase-Fed Single-Layer Slotted Waveguide Array(Antennas and Propagation)
- Analysis of a Waveguide with a Round-Ended Wide Straight Slot by the Method of Moments Using Numerical-Eigenmode Basis Functions(Antenna and Propagation)
- Evaluation of Effective Conductivity of Copper-Clad Dielectric Laminate Substrates in Millimeter-Wave Bands Using Whispering Gallery Mode Resonators
- Design of 1m^2 Order Plasma Excitation Single-Layer Slotted Waveguide Array with Conducting Baffles and Quartz Glass Strips Using the GSM-MoM Analysis(Antennas and Propagation)
- B-1-57 Design of Sequentially Rotated Circularly Polarized 2x2 Patch Antenna Arrays for Monopulse Operation
- B-1-167 Limitation of a Solid-Wall Waveguide Approximation in the Design of a Post-Wall Waveguide Linear Array
- B-1-130 Slot Coupling Equivalence between MoM Analysis using One Basis Function and Higher-Order Basis Functions
- A Design of a Leaky Waveguide Crossed-Slot Linear Array with a Matching Element by the Method of Moments with Numerical-Eigenmode Basis Functions(Antennas and Propagation)
- Simple Analysis of a Slot and a Reflection-Canceling Post in a Rectangular Waveguide Using only the Axial Uniform Currents on the Post Surface(Antenna and Propagation)
- A Planar Cross-Junction Power Divider for the Center Feed in Single-Layer Slotted Waveguide Arrays(Regular Section)
- A Post-Wall Center-Feed Waveguide Circuit Consisting of T-Junctions for Reducing the Slot-Free Area in a Parallel Plate Slot Array Antenna
- Connected Post-Wall (C-PW) Waveguide for Efficient Design of Broad Wall Slots by Using Equivalent Solid-Wall Waveguide
- Design of Post-Wall Feed Waveguide for a Parallel Plate Slot Array by an Analysis Model with Corrected Solid-Walls
- Design of Narrow Wall Windows in a Waveguide to Feed Partially-Dielectric-Filled Oversized-Rectangular Waveguide Based on 2-Dimensional Analysis of Two Orthogonal Directions
- B-1-154 Power Divider for Feed of Oversized Dielectric-Coated Rectangular Waveguide
- The Ridged Cross-Junction Multiple-Way Power Divider for Small Blockage and Symmetrical Slot Arrangement in the Center Feed Single-Layer Slotted Waveguide Array
- B-1-69 Design of a Circularly Polarized Patch Antenna on the Thick Resin of a Silicon Chip
- Reflection Characteristics of Center-Feed Single-Layer Waveguide Arrays(2004 International Symposium on Antennas and Propagation)
- A Cost-Effective Transition between a Microstrip Line and a Post-Wall Waveguide Using a Laminated LTCC Substrate in 60-GHz Band(Microwaves, Millimeter-Waves)
- Moment Method Analysis of a Plane Wave Generator in an Oversized Rectangular Waveguide(Antennas and Propagation)
- B-1-83 Partially-dielectric-filled Single Layer Feed-waveguide for Excitation of the Dominant Quasi TEM-wave in Oversized-rectangular Waveguide
- B-1-54 Full Array Optimization of a Linear, Edge Slot Array with Low Sidelobes
- Feed through an Aperture to a Post-Wall Waveguide with Step Structure(Antennas and Propagation)
- A Transformer between a Thin Post-Wall Waveguide and a Standard Metal Waveguide via a Dielectric Substrate Insertion with Slits Etched on It(Antenna and Propagation)
- A Radial Line Slot Antenna Fed by a Rectangular Waveguide through a Crossed Slot(Antenna and Propagation)
- Conformational Search and Analysis of β-hairpin Formation by High-Speed Exhaustive Tree Search
- A Millimeter-Wave Radial Line Slot Antenna Fed by a Rectangular Waveguide through a Ring Slot(Special Issue on Millimeter-Wave Circuits and Fabrication Technologies Opening up the 21st Century)
- Mathematical Derivation of Modified Edge Representation for Reduction of Surface Radiation Integral
- B-1-72 120GHz-band Design of a Corporate-feed Plate-laminated Waveguide Slot Array Antenna
- B-1-73 LTCC Partially-Filled Oversized Rectangular Waveguide-Fed Slot Array in the Millimeter-Wave Band
- B-1-57 Radial Line Slot Antenna with an Elliptical Beam
- A Coaxial Feeder with Two Pairs of Parasitic Pins for Realizing Rotationally Symmetric Aperture Illumination in Spiral Array Radial Line Slot Antennas
- Practical Slot Array Design by Method of Moments Using One Basis Function and Constant Correction Length
- A Center-Feed Linear Array of Reflection-Canceling Slot Pairs on Post-Wall Waveguide
- Loss of Post-Wall Waveguides and Efficiency Estimation of Parallel-Plate Slot Arrays Fed by the Post-Wall Waveguide in the Millimeter-Wave Band
- Full-Wave Design Considering Slot Admittance in 2-D Waveguide Slot Arrays with Perfect Input Matching
- Design of a Partially-Corporate Feed Double-Layer Slotted Waveguide Array Antenna in 39GHz Band and Fabrication by Diffusion Bonding of Laminated Thin Metal Plates
- An Alternating-Phase Fed Single-Layer Slotted Waveguide Array in 76 GHz Band and Its Sidelobe Suppression(Recent Devices, Circuits, and Systems for Millimeter-wave ITS Applications)
- B-1-150 Transmission Loss of the LTCC Partially-Filled Single Mode Waveguide in the Millimeter-Wave Band
- B-1-44 Effect of Localized Rain on Rain Attenuation in Tokyo Tech Millimeter-wave Model Network
- B-1-152 Numerical Optimization for Flat Elliptical Beam Radial Line Slot Antenna
- Design and Measurement of a Corporate-feed Plate-laminated Waveguide Slot Array Antenna for 120 GHz-band
- Eigenmode Analysis of Propagation Constant for a Microstrip Line with Dummy Fills on a Si CMOS Substrate
- Loss Reduction by Air-Region Insertion to LTCC Rectangular-Waveguide Slot Array Antenna in the Millimeter-Wave Band (アンテナ・伝播)
- Loss Reduction by Air-Region Insertion to LTCC Rectangular-Waveguide Slot Array Antenna in the Millimeter-Wave Band (放送技術)
- B-1-71 Design of Dual-polarization Corporate-feed Waveguide Slot Array Antenna using Diffusion Bonding of Laminated Thin Plate for 60 GHz-band
- B-1-70 Loss Evaluation and Bandwidth Enhancement of LTCC Single-mode Waveguide Slot Array with Air Region in the Millimeter-Wave Band
- B-1-66 Study of Cylindrical wave propagation in Honeycomb for use in mm-wave RLSA
- A High-Efficiency Circularly-Polarized Aperture Array Antenna with a Corporate-Feed Circuit in the 60GHz Band
- Loss Reduction by Air-Region Insertion to LTCC Rectangular-Waveguide Slot Array Antenna in the Millimeter-Wave Band (アンテナ・伝播)