| <What is Electronic Systems Engineering> Electronic Systems Engineering aims at the systematic application of electonics to all fields of engineering. It covers the basics as well as the developments in advanced technology. One of the accomplishments of Communication Engineering is cellular phone and pager, now popular among high school students. The course of Information and Computer Engineering concentrates on instructing the basic principles of computers, now an important tool in everyday life. System and Control, which includes the area of power electronics, deals with super-express trains, electric vehicles and the ultimate intelligent machine, the robot. Such as IC playing a central role in products composed of various electronic elements.he systems and methods of these circuits are closely studied in the courses of Applied Solid State Physics and Electronic Circuit Engineering. On a more microscopic level, all of these functions are based on the behavior of electrons. The properties of such electrons are studied as part of the Fundamentals of Electronics Systems course. |
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| Courses & Features | Subjects offered |
| Fundamentals of Electronic Systems Basic discipline studies all branches relevant to electronic engineering. |
Electromagnetism I.II, Exercise in Electromagnetism I, Theory of Electric Circuits I.II, Practice of Electric Circuits I, Theory of Transmission Circuits, Quantum Mechanics I.II, Electronic Engineering Mathematics, Algorithms and Date Structure. |
| Applied Solid State Physics Courses fundamentals for understanding the electronic and optical properties of condensed matters and its applications based on solid state physics. |
Semiconductor Engineering I.II, Thermodynamics and Statistical Mechanics, Applied Solid State Physics I.II, Semiconductor and other materials for electronics, New-Materials Science, Integrated Circuits. |
| Electronic Circuits Engineering The fundamental courses to understand the electronic technology and basic courses on mechatronics which is a leading technology of today's engineering. |
Electronic Circuits Engineering I.II, Practice of Electronic Circuit I, Energy Conversion, Power Electronics, Mechatronics, Practical Applications of Electronic Circuits. |
| System and Control Courses to study the design, synthesis, control and application of electronic systems. |
Automatic Control I.II, Electrical Machinery, Electronic Metrology, Control Devices, Robotics, Digital Control, Controller Design, Information Mathematics, Mechatro-Systems. |
| Communication Engineering Basic and applied courses relevant to various kinds of information and communication systems. |
Communication Engineering I.II, Theory of Transmission Circuits, Optical Technology, Light-wave Transmission Engineering, Optical Information Processing for Communications. |
| Information and Computer Engineering Basic and applied courses on information processing by computer. |
Introduction to Information Processing, Introduction to Computer Architecture, Fundamentals of Intelligent Processing, Automation and Language Theory, System Software, Computer Hardware, Software Engineering, Multimedia Engineering, Information Theory. |
| Interdisciplinary Studies Experiments for application of knowledge to actual practice. |
Information Processing Practice I.II, Fundamental
Experiments on Electronics, Electronic Engineering Experiment I.II, Experiments on
Electronic Systems Engineering, Advanced Electronic Experiments, Factory Practice on
Electronic Systems Engineering, Graduation Research. |
| Yasuhiko Fujita (Professor, Dr. Eng.) Classes: Electronic Property Engineering, Solid State Property Theory, Applied Solid State Physics I.II. Research areas: Electronic and Optical Properties of Semiconductor, (e.g., Quantum Wire, Compounds and Amorphous Semiconductors etc.) and their Basic Applications (e.g., Solar Cell, Photo-devices). |
Kazuhiro Sato (Professor, Dr. Eng.) Classes: Multimedia Engineering, Electronic Circuit Engineering I, Practice of Electronic Circuit Engineering I, Electronics Experimental Technique. Research areas: Multimedia Electronic Engineering, Image Encoding Electronic Circuit Engineering for Analogue and Digital Systems, Image Signal Processing |
Tohoru Yamaguchi (Professor, Dr. Eng.) Classes: Introduction to Information Processing, Fundamentals of Intelligent Processing Theory, Information Theory, Automaton and Language Theory, Software Engineering. Research areas: Intelligent Information Processing Engineering, Fuzzy Systems, Neural Network and Intelligent Agent. |
Akira Kojima (Associated Professor, Dr. Eng.) Classes: Electronic Engineering Mathematics, Digital Control System Theory, Control System Theory. Research areas: Systems Control, H 8 / µ Robust Control, Predictive Control, the Control Theories and the Applications of Distributed Parameter Systems, etc. |
| Shintaro
Ishijima (Professor, Dr. Eng.) Classes: Theory of Electric Circuits I, practice of Electric Circuits I, Automatic Control I.II. Research areas: System and Control, Nonlinear Control Theory, Measurement, Social Systems, design and control of high-tech products (i.e. robots, aerospace constructions). |
Kensuke Sekihara (Professor, Dr. Eng.) Classes: Electromagnetism I.II, Practice of Electromagnetism I, Communication Engineering I.II. Research areas: Bioelectricity Magnetic Signal Measurement and Signal Processing, Magnetic Resonance Imaging Processing, Magnetic Field Measurement of Encephalon, Biological Images Signal Processing. |
Nobuyoshi Mutoh (Professor, Dr. Eng.) Classes: Electronic Circuit Engineering II, Power Electronics, Energy Conversion Engineering, Electronic Circuits Application. Research areas: Power Electronics, Environment Energy, AC Motor Control Method, Servo Systems, Inverter Systems. |
Masahiko Kamatani (Lecturer, Dr. Eng.) Classes: Electronic Circuits II, Electrical Machinery and Power Electronics. Research areas: Power Electronics, Electrical Machinery and Power Electronics. |
| Hideki
Murakoshi (Lecturer, Dr. Eng.) Classes: Introduction to Computer Architecture, Algorithms and Date Structures, Automation and Language Theory, System Software. Research areas: Computer Architecture, Parallel Processing, Multi-Processors, (high-speed) Programmable Controller, etc. |
