Faculty Members / Research Areas
Professor
OHSAKI Hiroyuki
Professor
Kashiwa Campus
Grad: SOE-EEIS, (※)
Dept: EE
Superconducting technology for next-generation energy equipment
We are conducting research on electrical energy equipment and systems with excellent characteristics, utilizing advanced materials such as superconductors and high-performance permanent magnets, with the aim of efficient use of electric energy and the realization of advanced electromagnetic applied systems.
OHSAKI Hiroyuki
Professor
Superconducting technology for next-generation energy equipment
We are conducting research on electrical energy equipment and systems with excellent characteristics, utilizing advanced materials such as superconductors and high-performance permanent magnets, with the aim of efficient use of electric energy and the realization of advanced electromagnetic applied systems.
TAKAMIYA Makoto
Professor
Komaba Campus
Grad: SOE-EEIS
Dept: ー
Small Chip Intelligently Managing Large Power
To achieve a carbon-free world by 2050, we are conducting research on integrated power management, in which a small IC chip can intelligently handle large amounts of power, with the goal of making power electronics systems more energy-efficient.
TAKAMIYA Makoto
Professor
Small Chip Intelligently Managing Large Power
To achieve a carbon-free world by 2050, we are conducting research on integrated power management, in which a small IC chip can intelligently handle large amounts of power, with the goal of making power electronics systems more energy-efficient.
BABA Jumpei
Professor
Kashiwa Campus
Grad: SOE-EEIS
Dept: EE
Create electricity using electricity -control of devices for smart grid-
We apply new technologies such as power electronics, energy storage technology, and ICT to the electric power field, and we are conducting research that contributes to the construction of better electric energy systems. We are conducting research close to hardware, such as actually going to remote islands and experiments.
BABA Jumpei
Professor
Create electricity using electricity -control of devices for smart grid-
We apply new technologies such as power electronics, energy storage technology, and ICT to the electric power field, and we are conducting research that contributes to the construction of better electric energy systems. We are conducting research close to hardware, such as actually going to remote islands and experiments.
MATSUHASHI Ryuji
Professor
Hongo Campus
Grad: SOE-EEIS
Dept: IC
Research on energy systems analysis and carbon-neutral societies
Matsuhashi Lab has conducted researches on energy systems and measures to mitigate global warming, and various researches related to energy policies. Currently, we are developing models of power systems that takes into account the large scale introduction of renewable energies, and the construction of novel energy economic models in consideration of bounded rationality, and integrating them.
MATSUHASHI Ryuji
Professor
Research on energy systems analysis and carbon-neutral societies
Matsuhashi Lab has conducted researches on energy systems and measures to mitigate global warming, and various researches related to energy policies. Currently, we are developing models of power systems that takes into account the large scale introduction of renewable energies, and the construction of novel energy economic models in consideration of bounded rationality, and integrating them.
Project Professor
FUJII Takashi
Project Professor
Hongo Campus
Grad: SOE-EEIS, (※)
Dept: EE
革新的レーザ計測技術の開発と高電圧研究への適用
直流グリッドが共存した次世代電力システムの実現に向け、光を用いた電界計測やレーザプラズマを用いた設備診断技術など、レーザの特長を生かした様々な応用研究や、レーザ特有の非線形現象の解明を行っています。
FUJII Takashi
Project Professor
革新的レーザ計測技術の開発と高電圧研究への適用
直流グリッドが共存した次世代電力システムの実現に向け、光を用いた電界計測やレーザプラズマを用いた設備診断技術など、レーザの特長を生かした様々な応用研究や、レーザ特有の非線形現象の解明を行っています。
Associate Professor
OHNISHI Wataru
Associate Professor
Hongo Campus
Grad: SOE-EEIS
Dept: EE
Toward Next Generation Mechatronics and Control
My team and I aim to achieve control performance that pushes the physical limits through innovations in control theory driven by the requirements of cutting-edge industrial and scientific applications. We pursue both performance and robustness through integrated optimization of the entire mechatronic system and controller design, including system identification and learning control. Our application includes precision mechatronics, electrical motors, power electronics, plasma, thermal systems, and pneumatic systems. Through domestic and international industry-academia collaboration, we propose and implement control theory and control system design methods for world-class control targets such as semiconductor manufacturing equipment, railroad systems, and power system equipments to support a sustainable and prosperous society.
OHNISHI Wataru
Associate Professor
Toward Next Generation Mechatronics and Control
My team and I aim to achieve control performance that pushes the physical limits through innovations in control theory driven by the requirements of cutting-edge industrial and scientific applications. We pursue both performance and robustness through integrated optimization of the entire mechatronic system and controller design, including system identification and learning control. Our application includes precision mechatronics, electrical motors, power electronics, plasma, thermal systems, and pneumatic systems. Through domestic and international industry-academia collaboration, we propose and implement control theory and control system design methods for world-class control targets such as semiconductor manufacturing equipment, railroad systems, and power system equipments to support a sustainable and prosperous society.
SATO Masahiro
Associate Professor
Hongo Campus
Grad: SOE-EEIS
Dept: EE
Phyisics and smart AI-aided electrical and electronic materials design
To achieve carbon neutrality in a materials limited world, we are designing new electrical and electronic materials with the aid of the laws of nature and artificial intelligence. By understanding the underlying phyisics of high electric field phenomena, we propose novel approaches for tailoring the material properties.
SATO Masahiro
Associate Professor
Phyisics and smart AI-aided electrical and electronic materials design
To achieve carbon neutrality in a materials limited world, we are designing new electrical and electronic materials with the aid of the laws of nature and artificial intelligence. By understanding the underlying phyisics of high electric field phenomena, we propose novel approaches for tailoring the material properties.