Division Ⅱ
division-2Division Ⅱ
Smart Robotics Course
01 Engineers We Aim to Develop
In this program, students learn the knowledge and technologies related to robotics, which has become indispensable in modern society, and develop the ability to create the future as creative, development-oriented engineers. Robots are built from a combination of various integrated technologies. Therefore, students acquire well-balanced, comprehensive skills by studying both mechanical engineering related to robot hardware and fields such as measurement, control, and information processing related to software. We aim to develop engineers with broad expertise who can contribute to the advancement of a wide range of industries.
02 What Makes Us Unique
This program emphasizes the practical implementation of robotics in society. Students learn both fundamental technologies required for manufacturing robots and advanced technologies necessary for smart robotics development. For example, students study automatic control for precisely operating robots, as well as intelligent engineering fields such as AI and machine learning. By integrating these technologies, they develop the ability to design and build robotic systems. The curriculum also features abundant experiments and hands-on training from the early years, allowing students to steadily build their skills step by step.
Advanced Electronics Course
01 Engineers We Aim to Develop
In this course, we aim to develop creative engineers who can make society more convenient, promote environmentally friendly technologies, and drive innovation through AI semiconductors. Students learn a wide range of knowledge and technologies in electronics, which support modern society, while also acquiring practical skills essential for manufacturing through experiments and hands-on training. Upon graduation, students pursue careers or further studies in various fields, contributing to the advancement of semiconductors, energy, electronics, and communications.
02 What Makes Us Unique
Students acquire advanced technologies such as AI semiconductors that drive technological innovation, renewable and environmentally friendly energy systems, and electronics used in devices such as smartphones. In addition, they study cutting-edge information technologies including AI, data science, IoT, and communications, and develop the ability to integrate these technologies in manufacturing and system development. To support this, the curriculum provides ample opportunities for experiments and hands-on training from the early years, enabling students to gradually build their skills in manufacturing and research and development.
Teaching Staff and Courses
Teaching Staff
| 職名 | 氏名 | 教育研究分野 | 主な担当科目 |
|---|---|---|---|
| Professor/Dr. of Eng. | OKU, Takahiro | Superconductors, Thin Films Manufacturing Process, Solid State Physics |
Semiconductor Engineering Ⅰ・Ⅱ, Electronic Circuits Design |
| Professor/Dr. of Eng. | KASHINE, Kenji | Energy Conversion Technology, Plasma Application Technology | Electric Circuits Ⅳ・Ⅴ, Electrical Machinery Ⅰ・Ⅱ |
| Professor/Dr. of Eng. | SAKASEGAWA, Eiichi | Power Electronics | Power Electronics, Electrical machines |
| Professor/Dr. of Eng. | SHIMANA, Kenji | Control Technology of Machining | Control Technology of Machining |
| Professor/Dr. of Eng. | TABATA, Takahide | Fluid Engineering | Fluid Engineering, Fluid Dynamics |
| Professor/Dr. of Eng. | TOKUNAGA, Hitoo | Engineering Materials | Engineering Materials |
| Professor/Dr. of Eng. | NAKAMURA, Itaru | Educational Technology, Engineering Ethics, History of Electrical Engineering, Electric Power Engineering |
Social Responsibility of Engineers, Electric Power Transmission Engineering |
| Professor/Dr. of Eng. | NITTA, Atsushi | Electronic Device, Electronic Material Science & Engineering |
Control Engineering Ⅰ, Electromagnetics Ⅱ・Ⅲ |
| Professor/Dr. of Eng. | YOSHIMITSU, Shinichi | Monitoring Technology of Machining |
Manufacturing Technology Ⅰ, |
|
Associate Professor/Dr. of Eng. |
ODAHARA, Satoru | Dynamics of Machinery | Dynamics of Machinery, Engineering Mechanics |
|
Associate Professor/Dr. of Eng. |
KOBARU, Yuya | Precision Machining | Manufacturing Technology Ⅲ, Strength of Materials Ⅱ ・ Ⅲ |
| Associate Professor/Dr. of Eng. | SHII, Yasuyuki | Fluid Engineering, Mechanical Energy Engineering |
Applied Machine Design, Mechanical Energy Engineering |
| Associate Professor/Dr. of Eng. | SUGIMURA, Natsuko | Computer simulation, Tribology, Coarse-grained modeling |
Machine Design,Creative Activities |
| Associate Professor/Dr. of Eng. | SETOYAMA, Yasuyuki | Control Engineering | Applied Mathematics Ⅰ・Ⅱ, Control Engineering Ⅱ・Ⅲ |
| Associate Professor/Dr. of Eng. | TANIGUCHI, Koutaro | Rehabilitation Engineering, 3D CAD/ Printing Technology |
Design and Drafting Ⅱ(CAD), Electronic Circuit Ⅱ |
| Associate Professor/Dr. of Eng. | HAJI, Kenichi | High Voltage, EMC | Electric Circuits Ⅰ, Mathematics for Electrical Ⅱ |
| Associate Professor/Dr. of Eng. | HIGASHI, Yuichi | Mechanical Technology, Welding・Joining Engineering, CAE (Structural Analysis) |
Mechanical Technology, Hands-on Technical Training |
| Associate Professor/Dr. of Eng. | YAJI, Kohei | Computational Electromagnetics, Applied Mathematics |
Numerical Analysis, Data Processing |
| Associate Professor/Dr. of Information Engineering | WATANABE, So | Control Engineering, Mechatronics | Control Engineering, Mechatronics |
| Associate Professor/B. of Eng. | IMAMURA, Yuki | Surface Chemistry, Electro chemistry | Electromagnetics Ⅰ, Information Processing Ⅰ |
Nonregular employed Staff
| 職名 | 氏名 | 主な担当科目 |
|---|---|---|
| Associate Professor/Dr. of Eng. | TANAKA,Kuniaki | Electromagnetism Ⅳ, Applied Mathematics |
| Nonregular employed Staff/Ph.D. | NAKIYAMA, Yasuhiro | Mechanics of Materials, Mechanical Design and Drawing |
