Electrical and Electronic Engineering Course
Electrical and Electronic Engineering Course
Education is provided mainly in the fields of electricity, communications, information, electronics, and the electrical and electronic materials and devices that underlie these.
Research fields in the Electrical and Electronic Engineering course include bioinformation engineering, robotics, signal processing engineering, optical communications engineering, solid state physics (magnetic materials, superconducting materials, catalytic materials), bio-environmental electromagnetic engineering, microwave measurement engineering, power electronics, semiconductor application circuits, information and communication theory, semiconductor engineering (thin-film solar cells, thin-film materials and processes), control engineering, and systems theory.
Basic information Graduate School of Science and Engineering
The Graduate School of Science and Engineering website contains past entrance examination questions from Graduate School of Science and Engineering.
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Educational and research objectives and three policies
We would like to introduce the educational objectives of the Electrical and Electronic Engineering course and three policies, including our admissions policy.
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Course subjects and lecture contents
We would like to introduce the curriculum for the Electrical and Electronic Engineering course.
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Course model and main subject features
We will introduce the course of study and the features of the main subjects of Electrical Engineering and Electronics Course Graduate School of Science and Engineering.
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Completion requirements etc.
We will introduce the requirements for completing the Electrical and Electronic Engineering course and the course registration, including grading, promotion conditions, number of credits required to complete, and degree to be obtained.