Department of Electrical and Electronic Engineering (established before the department reorganization in April 2019)

Department of Department of Electrical and Electronic Engineering Diploma Policy

1. Have acquired the basic skills in natural sciences such as mathematics, physics, chemistry, earth science, and biology necessary to understand the fundamentals of electrical and electronic engineering.
2. 1) Having systematically acquired fundamental knowledge of electrical and electronic engineering. 2) Having acquired the specialized knowledge and ability to utilize it required for building cutting-edge system electronics and creating electronic, information and communication technology. 3) Having systematically acquired the experimental and analytical skills necessary for the essential understanding and development of electrical and electronic engineering.
3. Students should have the research and discussion skills to creatively solve problems related to electrical and electronic engineering.
4. 1) Acquire the communication skills and ability to contribute to the international development of industrial technology. 2) Acquire the ability to logically describe one's own ideas and communicate them to the international community in an easy-to-understand manner. 3) Acquire the communication skills and general education to cooperate with a variety of people in the international community.

Curriculum Policy of the Department of Department of Electrical and Electronic Engineering

In the Department of Department of Electrical and Electronic Engineering, where you can learn everything from the basics to cutting-edge technology, you can acquire everything from basic knowledge to cutting-edge specialist knowledge through the following three stages.
(1) Developing basic skills through lectures, exercises, and experiments
(2) Acquire advanced knowledge through specialized subjects
(3) Cutting-edge research in laboratories
In addition, the Department of Department of Electrical and Electronic Engineering offers two courses to choose from.
In the "System Electronics Course," students learn about the high-performance integration and intelligence of electronic devices, electrical energy systems, etc. They conduct research on new element materials, such as highly efficient photoelectric conversion materials, and apply these materials to research and development of next-generation energy and power systems, ultra-high-speed optical communications, 3D displays, laser measurement, and more.
In the "Electronics, Information and Communication Engineering Course," students learn about the high functionality, intelligence and integration of information transmission communication media and systems. They conduct research and development on wireless communication and networks, human-friendly information processing technology, integrated circuit design and more.