The advent of contemporary technology-oriented society is dependent on the academic contribution of electrical and electronic engineering, and information engineering. It is expected that more progress in information technology (IT), on the basis of electrical and electronic technology, will play an important role in the development of a highly information-oriented society in the future. Recently, these fields have confronted a sudden increase in problems, such as the development of frontier technologies involved in interdisciplinary fields, and the harmonization of the development of technology with the natural environment. These problems can not be solved by a single technology from a single field and must be transversely and systematically analyzed by multi-technologies of several fields.
This department is composed of two divisions; namely, the organic combination of electrical and electronic engineering, and information engineering. The divisions are Electrical and Computer Systems Engineering and Electronic and Computer Systems Engineering. The divisions aim at training engineers and researchers, who acquire a wide variety of knowledge and understanding of high-level technologies to cope with rapidly changing technologies. The divisions provide teaching and research routes which concentrate on new engineering dealing not only individually but also synthetically and systematically with multi-technologies of several fields, such as conversion, transport technology and control of electrical energy, environment measurement by images, high speed diagnosis of computer hardware, devices of optoelectrronics, environment electromagnetic instrumentation, living body instrumentation and information processing.
The technology of Electrical and Computer Systems Engineering has made great progress. This may be attributed to the rapid advancement of information processing and information electronic technologies which are supported by such IT technology as the computer. This division provides the instruction and research routes on Fundamental of Electrical Engineering, Electric Energy Engineering, Computer Simulation Engineering, Environmental Biomedical Engineering, Geometric Quantum Phases and Their Applications, Theoretical Study on Nonuniform Unconventional Superconductors, Control Engineering for the Servo System, Applied High Energy EM Interaction, Machinery Engineering for Electromagnetic Energy Conversion, Image Information for Engineering and Biological Information Processing, all of which aim at the organic combination of energy engineering considering the environment problem, application of image processing and information engineering centering on computer hardware.
The analyses of the various data in the electronic and information engineering fields and the analysis by mathematical principles contribute to human society by thoroughly integrating many fields and bringing about progress and development through technology in social life. In order to cope with highly information-oriented and rapidly progressing frontier technologies, this division offers instruction and research routes on Photonic and Electronic Device Engineering, Sub-Millimeter Wave and Far-Infrared Engineering, Semiconductor Materials and Devices Engineering, Electromagnetic Environment and Compatibility for Information Engineering, Computer Network Engineering, Ultrasonic Electronics, Applied Stochastic Processes, Applied Analytics, Applied Condensed Matter Physics and Diffusion Equations and Stochastic Processes.
Division | Electrical and Computer Systems Engineering | ||
Field of Instruction and Research | Quality | Faculty Member | Instruction Subject |
Electrical Energy Systems Engineering | Properties of Dielectrics and Electrical Insulating Materials for Electric Energy, Information Measurement of Dielectrics and Electrical Insulating Materials due to Image Processing Technology and Various Sensors | Fundamental of Electrical Engineering | |
Estimation and Design of Various Materials for Electric Energy Using Computer Simulation | Prof. Masafumi Suzuki |
Computer Simulation Engineering | |
Theory for control of geometric characteristics in quantal phase factors and its applications |
Prof. Masaru Onoda |
Advanced Course of Quantum Phase Control |
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Recent Trends of Conversion, Storage and Delivery of Electric Energy | Associate Prof. Masashi Sato |
Electric Energy Engineering | |
Theory of superconductivity phenomenon and anisotropic superconductivity and its applications |
Associate Prof. Yasunari Tanuma |
Phenomenological Theory of Anisotropic Superconductors | |
Development and Analysis of Devices |
Associate Prof. Seiji Kumagai |
Power Device and Materials Engineering |
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Control Systems Engineering | Control Method of Servo System using Servomotor and Stepping Motor | Control Engineering for Servo System | |
High Energy Electro-Magnetic Phenomena of Elementary Particles and Method of Measurement | Applied High Energy EM Interaction | ||
Application of Electromagnetic Field Analysis for Rotating Machine and Power Apparatus | Electromagnetic Apparatus and Systems Engineering |
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Application, Control and Design of Power Stationary Apparatus and Rotating Machine | Prof. Katsubumi Tajima |
Machinery Engineering for Electromagnetic Energy Conversion | |
Application of Artificial-Intelligence Type Algorithms Like Neural Networks and Genetic Algorithms for Control Systems | Associate Prof. Takeshi Miura |
Intelligent Electronic Control System Engineering | |
Information Systems Engineering | Analysis and Algorithms of Remote Sensing Data and Image Information Applications | Prof. Makoto Nishida |
Image Information for Engineering |
Biomedical Measurements of Sensory-Motor Systems and Development of Supportive Devices for Older People and Traffic Accident Prevention | Prof. Kazutaka Mitobe |
Advanced Sensory Information Engineering | |
Analysis and Application of Remote Sensing Data and Image Recognition | Prof. Yoichi Kageyama |
Advanced Remote Sensing Engineering | |
Traffic Engineering, Application Layer Flow Control, Network Topology Design | Associate Prof. Masashi Hashimoto |
Advanced Information Theory and Network Engineering in Industries |
Division | Electronic and Computer Systems Engineering | ||
Field of Instruction and Research | Quality | Faculty Member | Instruction Subject |
Creative Electronic Device System Engineering | Clarification and Application of Optical and Electronic Materials and Their Application to Optoelectronic Devices | Photonic and Electronic Device Engineering |
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Electronic Properties of Nanoscale Semiconductors and Insulators, and Their Application to Nanodevices |
Prof. Seiji Horiguchi |
Nanodevice Engineering |
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Wave Propagation Characteristics in Various Materials Including Solid-State Plasma and Their Device Applications in Millimeter Wave to Far-Infrared Region |
Prof. Toru Kurabayashi |
Sub-Millimeter Wave and Far-Infrared Engineering |
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Various Types of Compound Semiconductor Crystal Growth and Their Applications to Electronic Devices | Associate Prof. Yuichi Sato |
Semiconductor Materials and Devices Engineering | |
Organic Molecular Orientation and Their Application to Optoelectronic Devices |
Associate Prof. Rumiko Yamaguchi |
Organic Materials and Electronic Device Engineering |
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Creative Applied Electronic Systems Engineering | Applied Measurements of Electronic Devices and Electromagnetic Wave and Applied Systems in Electromagnetic Compatibility including Bio-medical Systems | Electromagnetic Environment and Compatibility for Information Engineering | |
Network Protocol, Network Management, Speech Processing and Image Processing for Information Communication Systems |
Computer Network Engineering | ||
Design and Performance Analysis of LAN, WAN and MAN Networks with Respect to Lower Layers | Prof. Hitoshi Obara |
Optical Network Engineering | |
Signal Processing for Information Communication Systems and Numerical Modeling on Signal Transmission, and These Applications |
Associate Prof. Motoshi Tanaka |
Advanced Signal Processing System Engineering | |
Inteligent Instrumentation System | Instrumentation of Measurement and Imaging for Acoustic Wave Signal | Prof. Kazuhiko Imano |
Ultrasonic Electronics |
Analysis of Counting Processes and Their Application to Characterization Random Traffic | Prof. Ryuji Igarashi |
Applied Stochastic Processes | |
Applied Mathematical Science | Algorithms in Mathematical Structures and Applications to Information Security and Computational Complexity | Prof. Akihiro Yamamura |
Mathematical Algorithms |
Constructions and Properties of Fundamental Solutions of Diffusion Equations on a Domain in a Manifold, and the Relation between Diffusion Equations and Stochastic Processes | Prof. Hajime Kawakami |
Diffusion Equations and Stochastic Processes |
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Quantum Mechanical Tunneling in Solids and Optical and Electrical Properties in Layered Materials |
Associate Prof. Kunihiko Yamaguchi |
Applied Condensed Matter Physics | |
Mathematical Aspects of Shape Analysis and Geometry/Topology of Mappings |
Associate Prof. Mahito Kobayashi |
Shape Analysis and Topology of Mappings |