A new department of electrical engineering, electronics, and applied physics (EEAP) starts from April 2018.
Education
Electronic and electronics engineering are essential not only in industries but also in our daily living. The Department and Course in Electrical and Electronic Systems works on education and research on computer systems, VLSI circuit design, fundamentals on information and communication, development of wireless circuits, artificial intelligence (AI), high-efficient energy systems, and development and analysis of new semiconductor devices.
The Department and Course of Electrical and Electronic Systems offer undergraduate program (4 years) and graduate program including master course (2 years) and doctoral course (3 years), respectively. The Department of Electrical and Electronic Systems is intended to facilitate students to understand fundamental theories and basic knowledge about Electrical and Electronic Systems. The Course in Electrical and Electronic Systems, on the other hand, is intended to educate students as qualified researchers who will certainly make contributions to Electrical and Electronic Systems.
Degrees Offered
The following degress are offered to successful candidates:
- B. Eng. : The Department of Electrical and Electronic Systems offers regular four year programs leading to the B. Eng. degree. This includes completion of the research work and at least one year supervised work in one of the laboratories designated by the Department.
- M. Eng. : The Graduate School of Science and Engineering offers regular two years master course leading to M. Eng. This includes at least two years supervised work in one of the laboratories designated by the Course, completion of the course work and successful defence of the final thesis.
- D. Eng. : The Graduate School of Science and Engineering offers regular three years master course leading to M. Eng. This includes at least three years supervised work in one of the laboratories designated by the Course, completion of the course work and successful defence of the final thesis.
Undergraduate Program
1st grade
- Fundamentals of Calculus I
- Fundamentals of Calculus II
- Fundamentals of Linear Algebra
- Fundamentals of Vector Analysis
- Fundamentals of Probability and Statistics
- Fundamentals of Mechanics
- Fundamentals of Electric Circuit
- Exercises on Fundamentals of Electric Circuit
- Exercises on Mathematics I
- Exercises on Mathematics II
- The Physics of Oscillations and Waves
- Fundamentals of Mechanical Engineering
- Exercises on Computer Programming
- Introductory Seminar on Engineering
- Computer Literacy
- Ethics for Engineers
2nd grade
- Electromagnetism I
- Electromagnetism II
- Exercises in Electromagnetism I
- Exercises in Electromagnetism II
- Electric Circuits
- Exercises of Electric Circuits
- Fundamentals of Electronic Circuits
- Logic Circuits
- Fundamentals of Electronic Physics
- Fundamentals of Electrical Energy Engineering
- Fundamentals of Quantum Mechanics
- Measurement
- Electronic Devices
- Electrical Machinery I
- Electrical and Electronic System Experiments I
- Differential Equation
- Statistical Mechanics
- Basic Chemistry I
- Computer System
- Numerical Analysis and Algorithms
- Exercises on Numerical Analysis and Algorithms
3rd and 4th grades
- Electrical and Electronic System Experiments II
- Electrical and Electronic System Experiments III
- Automatic Control Theory
- Electrical Machinery II
- Power Transmission and Distributions Technology
- High Voltage and Plasma Engineering
- Power Electronics
- Robotics and Control
- Electric Power Generation Engineering
- Physics of Solid State Materials
- Materials for Electrical and Electronics Engineering
- Sensors Engineering
- Optoelectronics
- Electronic Circuits I
- Electronic Circuits II
- Microwave Engineering
- Electromagnetic Waves Engineering
- Introduction to Systems Innovation
- Information & Communication Engineering I
- Information & Communication Engineering II
- Digital Signal Processing
- Technology and Systems Innovation
- Law for Electric Power Utilities
- Law for Radio Communications
- Electrical and Electronic Design and Drawing
- Technology and Intellectual Property
Graduate Program
Electric Power / Control Systems
- Advanced Automatic Control System
- Advanced Power System Engineering
- Advanced Energy Control Engineering
- Advanced Lectures on Human Assistive Systems
Circuit Systems / Information Communications
- Advanced Theory and Design Methods of Microwave Circuits
- Advanced Electromagnetic Wave Engineering
- Advanced Analysis Methods for Electromagnetic Field Problems
- Advanced Information and Communication Systems
- Advanced Digital Systems
- Advanced Optical Sensing Systems
Materials and Devices
- Advanced Principle on Computer Systems
- Advanced Superconducting Imtegrated Circuits Engineering
- Advanced Lectures on Optoelectronics
- Advanced Electronic Materials
- Advanced Semiconductor Engineering
- Advanced Theory of Electronic Applied Measurement
- Organic Semiconductor Engineering
