Department of Electrical and Electronic Engineering
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The Department offers three distinct programs: Electronics Program, Energy Design Program, and Communications Program.
All students are required to select one of the three programs at the beginning of the second year.
Each Program provides students with unique curriculum necessary for an electrical and electronics engineer to meet the current and future challenges of a professional career.
All students will obtain a common mathematical and physical foundation, including linear algebra, differential equations, electrical circuits, and electromagnetics.
In addition to classroom experience, the curriculum is planned also to provide laboratory experience in electrical and electronic circuits, control systems, electron devices, material physics, electromagnetics, communications, signal processing, and so forth.
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| Electronics Program |
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The Electronics Program is concerned with the application of material physics and the design and analysis of electron devices. The curriculum provides students with a strong foundation focusing on analysis and application of modern electronic technology.
Integrated circuit for a sound localization system and light emitting diodes fabricated from nitride semiconductors on silicon substrates
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| Key Words |
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Electronic Material, Electronic Device, Semiconductor, Optoelectronics, Integrated Circuit
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| Energy Design Program |
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The Energy Design Program is concerned with the analysis and design of energy systems and control systems. The curriculum provides with coherent educations on traditional and modern electrical engineering such as electric machinery, generation, transmission and conversion of electric power, digital signal processing, and control theory.
Wind Turbine Plant , "Aoyama highland wind farm": We have been supporting this kind of total energy system integrations technology.
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| Key Words |
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System Integration, Energy System, Mechatronics, Power Electronics, Control System
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| Communications Program |
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The Communications Program is concerned with the analysis and design of modern communications systems. The curriculum provides students with a wide background in the fundamental theory of communications engineering and scientific tools necessary for a communications engineer. The feature of this curriculum is to cover software and hardware necessary for modern communications.
Experiment in a radio anechoic chamber: An anechoic chamber prevents the radio-wave reflection and provides a quiet, free-space like environment. The chamber is used for testing the radiation patterns of newly-designed antennas.
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| Key Words |
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Circuits, Electromagnetic Wave, Wireless and Electromagnetic Compatibility, Signal Processing, Digital Communications System
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Faculty Members
(Each name is shown in the order of the family name and the given name.)
| Electronics Program |
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| Professors |
Associate Professors |
Assistant Professors |
Egawa Takashi
Eryu Osamu
Ichimura Masaya
Jimbo Takashi
Maeda Masaki
Mibu Ko
Sakamoto Isao
Soga Tetsuo
Yasuda Kazuhito
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Abe Koji
Hayashi Tomohiro
Hayashi Yasuhiko
Hirasawa Mikami
Ishikawa Hiroyasu
Iwata Makoto
Kato Masashi
Kawaguchi Takeshi
Niraula Madan
Ohara Shigeo
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Aoyagi Rintaro
Ebisu Hiroshi
Kishi Naoki
Tanaka Masaaki
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| Energy Design Program |
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| Professors |
Associate Professors |
Assistant Professors |
Hirai Hiromu
Kando Hisashi
Mizuno Yukio
Takeshita Takaharu
Ukai Hiroyuki
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Iwasaki Makoto
Kosaka Takashi
Morita Yoshifumi
Yasui Shinji
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Aoki Mutsumi
Fuwa Katsuhiko
Kawafuku Motohiro
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| Communications Program |
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| Professors |
Associate Professors |
Assistant Professors |
Fujiwara Osamu
Iwanami Yasunori
Kikuma Nobuyoshi
Sakurai Masaru
Wang Jianqing
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Hirano Satoshi
Hirata Akimasa
Okamoto Eiji
Sakakibara Kunio
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Goto Tomio
Hirayama Hiroshi
Taka Yoshinori
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For more information, please visit http://ee.web.nitech.ac.jp/english/
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Faculty