◆ Electrical Engineering and Computer Science Course
(Electrical and Electronic Engineering)
The mission of the Department of Electrical and Electronic Engineering is to offer the
significant research and education in the fields of power electronics, energy system
engineering, and communications and transmissions system engineering. In these fields, this
department conducts comprehensive research on the development of power electronics, the
generation and application of pulsed power and high energy density plasma, autonomous
systems and energy management. As for communication applications, we achieve research on
functional electromagnetic and lightwave circuits, which include antennas, semiconductor
lasers and ultra-fast optical switching devices, along with active researches of
sophisticated signal processing for highly functional communication sysytems including mobile
communications. With these research activities, we have developed a large number of
researchers and engineers who can open doors to novel possibility with creative mind and
leadership.
(Physical Electronics)
Systems such as computer and communication consist of devices which provide useful functions for
systems. Devices such as transistors and lasers consist of materials which have useful characteristics
for devices. Physical Electronics covers wide range from materials to systems. The function of the
device and characteristics of the materials all base on physics relating with the electron and the light
wave. Physical Electronics course provides foundations and their application abilities, explores
research frontiers and integrates the academic knowledge in these fields. Keywords are
semiconductor, magnetic material, dielectric material, superconductor, organic material, bio-
material, analysis of material property, creation of novel material synthesis of material property,
transistor, laser, memory and storage devices, isolator, molecular device, drastic performance
improvements of these devices, hardware and process designs of integrated circuits, display device,
sensor system, device concept creation using quantum effects in nanometer-size structures,
architecture creation of information processing. We welcome you who are interested in one of fields,
physics, materials, devices, functions, circuits and systems and want to explore in these fields
intensively.
(International Graduate Course)
Major classes in departments of Electrical and Electronic Engineering (Table 1)
and Physical Electronics (Table 2) are offered for the International Graduate Course program. All
students are required to take classes which are selected for systematic study in the specified area. All
students must get guidance by both their supervisor and each lecturer.
Table 1 Electrical and Electronics Engineering
Classes |
Credit |
Lecturer |
Semester |
Remarks |
Advanced Electromagnetic Waves |
2-0-0 |
M. Ando & J. Hirokawa |
Spring |
*2) |
Wireless Communication Engineering I |
2-0-0 |
K. Araki |
Spring |
*2) |
Wireless Communication Engineering II |
2-0-0 |
H.Murata |
Spring |
|
Guided Wave Circuit Theory |
2-0-0 |
T. Mizumoto |
Spring |
*2) |
Optical Communications |
2-0-0 |
S. Arai |
Autumn |
|
Advanced Course of Power Electronics |
2-0-0 |
H. Fujita |
Spring |
|
Electric Power and Motor Drive System Analysis |
2-0-0 |
H. Akagi |
Autumn |
*2) |
Advanced Electric Power Engineering |
2-0-0 |
K.Yamamoto & H. Ino |
Autumn |
|
Advanced Power Semiconductor Devices |
2-0-0 |
H. Ohashi & al. |
Autumn |
|
Pulsed Power Technology |
2-0-0 |
K. Yasuoka |
Autumn |
|
Energy Management |
2-0-0 |
T. Nanahara |
Spring |
|
Innovation Engineering and Management |
2-0-0 |
Y.Ikeda |
Autumn |
|
Design for High-Performance and Low-Power Microprocessors |
2-0-0 |
K. Uchiyama & F. Arakawa |
Autumn |
|
Analog Integrated Circuits |
2-0-0 |
S. Takagi |
Autumn |
*1) |
Advanced Signal Processing |
2-0-0 |
A. Nishihara |
Spring |
*1) *2) |
Advanced Topics in Mobile Communications |
2-0-0 |
H. Suzuki & K. Fukawa |
Autumn |
*1) |
Note: *1) Given in other graduate course. *2) Given in English.
Table 2 Physical Electronics
Classes |
Credit |
Lecturer |
Semester |
Remarks |
Electronic Materials A |
2-0-0 |
M. Abe & S. Nakagawa |
Spring |
*2) |
Electronic Materials B |
2-0-0 |
M. Abe & Y. Majima |
Spring |
*2) |
Electronic Materials C |
2-0-0 |
M. Konagai & A. Yamada |
Autumn |
|
Electronic Materials D |
2-0-0 |
M. Iwamoto & S. Nakagawa |
Autumn |
*2) |
High-Tech Electronic Material |
2-0-0 |
M. Abe & al. |
Spring |
|
Advanced Semiconductor Devices I |
2-0-0 |
O. Sugiura |
Spring |
|
Advanced Semiconductor Devices II |
2-0-0 |
Y. Miyamoto |
Autumn |
|
Advanced Electron Devices |
2-0-0 |
S. Oda |
Autumn |
*2) |
Advanced Electron Device Simulation |
2-0-0 |
H.Mizuta |
Autumn |
*2) |
VLSI Technology |
2-0-0 |
A.Matsuzawa & al. |
Spring |
|
Information Storage Engineering |
2-0-0 |
Y. Sugita & M. Sugie |
Autumn |
|
Optical and Quantum Electronics |
2-0-0 |
K. Furuya |
Spring |
|
Electronic Measurement |
2-0-0 |
T. Nakamoto |
Spring |
|
Nonlinear Dynamical Systems |
1-0-0 |
N. Tanaka & H. Kawaguchi |
Autumn |
|
Advanced Electronic Circuits |
2-0-0 |
N. Fujii |
Spring |
*2) |
Mixed Signal Systems and Integrated Circuits |
2-0-0 |
A.Matsuzawa |
Autumn |
*2) |
Analog Integrated Circuits |
2-0-0 |
S. Takagi |
Autumn |
*1) |
Advanced Signal Processing |
2-0-0 |
A. Nishihara |
Spring |
*1) *2) |
Advanced Topics in Mobile Communications |
2-0-0 |
H.Suzuki & K.Fukawa |
Autumn |
*1) |
Fundamentals of Technical English for Electrical and Electronic Engineers |
2-0-0 |
A. Sandhu & J. Baniecki |
Autumn |
*2) |
Note: *1) Given in other graduate course. *2) Given in English.
Table 3 Electrical and Electronics Engineering Experiments, Seminars
Classes |
Credit |
Lecturer |
Semester |
Remarks |
Special Experiments I on Electrical and Electronic Engineering |
0-0-2 |
Mentor |
Spring |
Master course |
Special Experiments II on Electrical and Electronic Engineering |
0-0-2 |
〃 |
Autumn |
〃 |
Seminar I on Electrical and Electronic Engineering |
1 |
〃 |
Spring |
Master course |
Seminar II on Electrical and Electronic Engineering |
1 |
〃 |
Autumn |
〃 |
Seminar III on Electrical and Electronic Engineering |
1 |
〃 |
Spring |
〃 |
Seminar IV on Electrical and Electronic Engineering |
1 |
〃 |
Autumn |
〃 |
Seminar V on Electrical and Electronic Engineering |
2 |
Mentor |
Spring |
Doctor Course |
Seminar VI on Electrical and Electronic Engineering |
2 |
〃 |
Autumn |
〃 |
Seminar VII on Electrical and Electronic Engineering |
2 |
〃 |
Spring |
〃 |
Seminar VIII on Electrical and Electronic Engineering |
2 |
〃 |
Autumn |
〃 |
Seminar IX on Electrical and Electronic Engineering |
2 |
〃 |
Spring |
〃 |
Seminar X on Electrical and Electronic Engineering |
2 |
〃 |
Autumn |
〃 |
Special Lecture I on Electrical and Electronic Engineering |
1 〜 2 |
Mentor |
Spring & Autumn |
|
Special Lecture II on Electrical and Electronic Engineering |
1 〜 2 |
〃 |
Spring & Autumn |
|
Special Lecture III on Electrical and Electronic Engineering |
1 〜 2 |
〃 |
Spring & Autumn |
|
Special Lecture IV on Electrical and Electronic Engineering |
1 〜 2 |
〃 |
Spring & Autumn |
|
Special Lecture V on Electrical and Electronic Engineering |
1 〜 2 |
〃 |
Spring & Autumn |
|
Special Lecture VI on Electrical and Electronic Engineering |
1 〜 2 |
〃 |
Spring & Autumn |
|
Table 4 Physical Electronics Experiments, Seminars
Classes |
Credit |
Lecturer |
Semester |
Remarks |
Special Experiments I on Physical Electronics |
0-0-2 |
Mentor |
Spring |
Master course |
Special Experiments II on Physical Electronics |
0-0-2 |
〃 |
Autumn |
〃 |
Seminar I on Physical Electronics |
1 |
〃 |
Spring |
Master course |
Seminar II on Physical Electronics |
1 |
〃 |
Autumn |
〃 |
Seminar III Physical Electronics |
1 |
〃 |
Spring |
〃 |
Seminar IV on Physical Electronics |
1 |
〃 |
Autumn |
〃 |
Seminar V on Physical Electronics |
2 |
Mentor |
Spring |
Doctor Course |
Seminar VI on Physical Electronics |
2 |
〃 |
Autumn |
〃 |
Seminar VII on Physical Electronics |
2 |
〃 |
Spring |
〃 |
Seminar VIII on Physical Electronics |
2 |
〃 |
Autumn |
〃 |
Seminar IX on Physical Electronics |
2 |
〃 |
Spring |
〃 |
Seminar X on Physical Electronics |
2 |
〃 |
Autumn |
〃 |
Special Lecture I on Physical Electronics |
1 〜 2 |
Mentor |
Spring & Autumn |
|
Special Lecture II on Physical Electronics |
1 〜 2 |
〃 |
Spring & Autumn |
|
Special Lecture III on Physical Electronics |
1 〜 2 |
〃 |
Spring & Autumn |
|
Special Lecture IV on Physical Electronics |
1 〜 2 |
〃 |
Spring & Autumn |
|
Special Lecture V on Physical Electronics |
1 〜 2 |
〃 |
Spring & Autumn |
|
Special Lecture VI on Physical Electronics |
1 〜 2 |
〃 |
Spring & Autumn |
|