Electrical Engineering and Robotics
Course Overview
Creating a “new electricity era” for a sustainable society
This course is designed to develop students' basic knowledge of energy and control in the fields related to electrical and robotics engineering, and their ability to analyze the fields of electricity and energy, system control and robotics, as well as electrical materials and devices, and to apply their knowledge to solve problems. The curriculum is designed to provide students with broad and deep learning by taking specialized basic courses in the first and second years and specialized practical courses in the third and fourth years.
Research Fields/Areas
Electric power and energy
Students consider the benefits and future challenges of electric energy through the study of power generation, transport, conversion, and control technologies.
System control and robotics
Learn methods for designing, building, programming, and controlling robots consisting of sensors, motors, and computers.
Electric materials and devices
Learn the properties of advanced functional materials and how to create microscopic sensors and micromachines.
Keywords for Learning
- Electric vehicles
- Energy conversionvehicles
- Energy conservationvehicles
- Clean energyvehicles
- Solar cellsvehicles
- Robotsvehicles
- Linear motorsvehicles
- Power supplyvehicles
- Power electronicsvehicles
- Mechatronics control systemsvehicles
- Electric propulsionvehicles
- Soft machinesvehicles
- Machine learningvehicles
- Image recognition
Curriculum
Course Data
| Degree | Bachelor of Engineering | |
| Campus | 1st and 2nd year: Omiya 3rd and 4th year: Toyosu | |
| Number of people | Number of faculty members | Jump to Japanese page |
| Admission capacity | 208 | |
| Number of students | Jump to Japanese page | |
| Number of students entering graduate school | - | |