Electrical and Information Technology Field | Master's Program
Graduate school overview
Graduate School of Information Science
Research Field Overview
Based on electrical and electronic engineering and information and communication engineering, students acquire advanced technical skills in next-generation power systems, new functional devices, power electronics, information systems, communication networks, control systems, etc. The faculty is made up of outstanding individuals who are leaders in academia and industry, and their research results are highly regarded internationally.
Research Topics
Application of printed electronics technology to wireless communication field
Currently, an increasing number of electronic devices are connected to the Internet wirelessly. These electronic devices operate at high frequencies, and it is expected that printed electronics technology will be used in their production.
In this study, we created a microstrip antenna on a PET sheet using an inkjet printer and confirmed that its characteristics were equivalent to those of a conventional circuit board. Furthermore, we proposed a model that integrated the PET sheet and the board and confirmed its effectiveness. We are currently working on the design and fabrication of a low-profile, small 3D planar antenna.
Future vision:
An engineer who realizes a smart society through electrical and information technology
Pioneer of the future society by fusing electricity with other fields
Faculty introduction of Electrical and Information Technology Department
| full name | Research Field | Research Themes | |
|---|---|---|---|
| Terukazu Nishizaki | ◯ | Superconductivity, Nanostructure Science, Inorganic Materials Properties, Electrical and Electronic Materials Engineering | Research on superconducting quantum vortices, magnetic flux states in superconductors and nanoelectronic properties |
| Kimiaki Imasaka | ◯ | Electrical Energy, Pulsed Power, High Voltage, Electricity, Plasma | Development of electrical energy generation technology and its applications |
| Tatsuya Takeshita | ◯ | Electronic and electrical materials engineering, optical communication devices, thin-film transistors | Research on improving device performance, and device degradation using photoinduced current method |
| Takuhei Hashiguchi | ◯ | Power Engineering, Power Conversion, Electrical Equipment | Grid stabilization control method for next-generation networks incorporating renewable energy |
| Takeshi Matsuoka | ◯ | Educational Engineering, Communication Network Engineering, Measurement Engineering, Wave Information Engineering | Basic research on electromagnetic wave propagation and scattering |
| Yoshiteru Abe | Communication Engineering, Processing Engineering, Production Engineering | Research on optical communication technology related to SDGs and resilience, research on optical connection technology for spatial multiplexing transmission | |
| Masato Ogata | Power Engineering, Power Conversion, Electrical Equipment, Communication Network Engineering, Electrical Engineering | circuit theory | |
| Shigeyuki Takano | science education, astronomy | Physics of neutron stars, science and engineering education methods at universities | |
| Tetsuro Sueyoshi | Electrical and electronic materials engineering, thin films, surface and interface properties | Optimization of nanostructure design for high critical current density of superconductors using computer simulator | |
* "◯" indicates a master's course research supervisor
For details on entrance exam dates, etc.
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