Features of the program

Takashi Yoshimi
Director, Electrical and Electronic Engineering Program

We cultivate individuals with rich humanity who can act independently and possess skills in the electrical and electronic fields in response to increasingly sophisticated technology and complex industries.

Acquired capabilities

Our goal is to nurture humanistic engineers who can respond to structural changes and technological advances in an industry that is becoming increasingly high-level and high-tech, and who are able to work independently.

Point

Responding to structural changes in industry and
and technological advances

Keywords

The Electrical and Electronic Engineering program fosters the following discipline-specific items throughout the curriculum

Energy

Tackling the human proposition

Material

New materials for the future

Robot

Development of robot technology

Medical

Challenging the limits of life

Automobile

Pursuit of the ultimate automobile

Ecology

Coexistence with the earth

Multi

Borderless activity

Hardware

Information industry revolution in the new century

Software

New common sense with original technology

Industries in which you are expected to work

In the Electrical and Electronic Engineering program, students will acquire competencies that are expected to be used primarily in the following industries

Home appliance,
heavy electrical
appliances
manufacturers

Semiconductor,
electronic
components
manufacturing
equipment
manufacturers

Automakers

Camera
manufacturers

Medical device,
measuring
equipment,
communication
equipment
manufacturers

Transportation
(Rail and air)

ICT
Infrastructure

Electric power
company

Courses

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.

Advanced Electronic Engineering Course

The course covers semiconductors, electronics, integrated circuits, optical communications, brain waves, medical sensing technology, and intelligent robots. The goal is to comprehensively acquire advanced electronics engineering in terms of both hardware and software, with “electronics and optics” as the keywords.

Policies of the Electrical and Electronic Engineering Program

Please refer to the official Shibaura Institute of Technology website for policy information.