Course Features
What is the Electrical Engineering and Robotics Course?
This course is designed to provide students with a basic knowledge of “energy and control” in areas related to
electrical engineering and robotics, and the ability to analyze and apply this knowledge to solve problems in the
fields of electricity and energy, system control and robotics, as well as electrical materials and devices.
Field-Specific Course Groups (sub-courses)
Electric Power and Energy
Students will learn technologies related to electricity and energy, including power systems, power electronics, and electric vehicles.
Energy
Building electric power infrastructure
Automobile
Pursuit of the ultimate electric vehicle
System Control and Robot
Learn about hardware such as power devices and robots and the algorithms that control them.
Hardware
Software
Creating new systems with original technology
Robot
Research and development of robot technology
Click here for more information on sub-course accreditation.
Course Introduction Video
Study and Research
Curriculum (Main Courses)
1st
Study basic subjects common to all courses, with a focus on
Electric Circuits 1A・1B・2A・2B / Electromagnetism 1A・1B / Engineering Practice
2nd
Deepen understanding of more specialized content through lectures and experiments
Electric Circuits 3A・3B / Electromagnetism 2A・2B・3A・3B / Basic Experiments 1・2 / Analog Electronic Circuit / Digital Circuit / Introduction to Electrical Engineering and Robotics Research / Fundamentals of Electronic Physics / Electric Measurements / International Internship on Electrical Engineering A・B
3rd
Join a laboratory and enhance your expertise through lectures and experiments, focusing on your area of interest.
Electric Power System Engineering / Power Electronics / Electric Materials / Electric Motor Control / Control Engineering / Mechatronics / Robotics / Digital Signal Processing / Advanced Experiments 1・2 / Electrical Engineering Technical English / Graduation Thesis 1・2
4th
Develop graduation research and complete a thesis
Electric Regulation / Radio Law, Rules & Regulation / Radio Wave Engineering / Radio Communication Devices / Graduation Thesis 3・4
Click here for curriculum details
research laboratories
- Motor Drive System Laboratory
- Space Robot System Laboratory
- Robotics Laboratory
- Space Electric Propulsion Laboratory
- Applied Electric Appliance System Laboratory
- Active Functional Devices Laboratory
- Electromagnetic Actuator Laboratory
- Lowtemperaturephysics Laboratory
- Power Electronics Laboratory
- Energy Materials Laboratory
- Field Robot Laboratory
- Power System Laboratory
- Intelligent System Laboratory
- Robot Task & System Laboratory
- Human Interaction Laboratory
※Lab information is for the year 2024.
Career and Employment
Employability Ranking at Top 400 Companies
“Employability Ranking at Top 400 Companies” is based on the Nikkei Stock Average Index, company size, name recognition, and ranking of the most popular companies among university students. Shibaura Institute of Technology was ranked 12th in Japan and 5th among private universities in the 2023 ranking published by DAIGAKUTSUSHIN Corporation, which surveyed the top 400 companies in Japan. In addition, it was ranked 4th among universities with more than 1,000 graduates.
Employability Ranking at Top 400 Companies (among private universities)
THE World University Rankings 2024
THE (Times Higher Education) has been providing “THE World University rankings” every year since 2004. It uses the data from universities and ranks with the following indicators: teaching (the learning environment); research environment (volume, income and reputation); research quality (the outputs of research); industry (knowledge transfer) and international outlook (staff, students and research). The table shows the ranking of the major private universities in Japan. Shibaura Institute of Technology was ranked 4th in the research environment ranking and it was ranked 6th in the international outlook.