Educational purpose
The rapid expansion of various info-communication services in step with the advanced information society of the 21st century is placing increasing emphasis on the importance of the function and role of information. Thus, the demand for such services is increasing geometrically worldwide, leading to the rapid development of info-communication engineering technology. The educational purpose of the Department of Electronic Engineering is to foster human resources in the info-communication field who can lead the information society of the 21st century by researching, developing, and educating essential original and applied technologies that are required to confront the rapid technical development and changes. Furthermore, this department not only cultivates advanced technicians by improving the technology of national knowledge-based industries, thereby attracting manpower via related companies and carrying out specialized research and education, but also promotes organic relations with companies and strengthens the competitiveness of knowledge-based industries in Korea.
Curriculum
Major | Program | Semester | Mandatory/Optional | Course | Credit/Hours |
---|---|---|---|---|---|
Electronic Engineering | M.A | 1 | Wireless System Design I | 3 | |
Direct Circuit Design I | 3 | ||||
Signal & System | 3 | ||||
Antenna Engineering | 3 | ||||
Communication Direct Circuit Design | 3 | ||||
Advanced Research Seminar 1 | 3 | ||||
Embedded System Design | 3 | ||||
Communication Signal Processing | 3 | ||||
Advanced Electronic Mathematics I | 3 | ||||
Advanced Computer Network | 3 | ||||
Advanced Wireless System Design I | 3 | ||||
Advanced Direct Circuit Design I | 3 | ||||
Advanced Embedded System | 3 | ||||
Advanced Signal & System | 3 | ||||
Advanced Mobile Communication Engineering | 3 | ||||
Advanced Probability Theory | 3 | ||||
Multimedia Application S/W | 3 | ||||
Multimedia System Design I | 3 | ||||
Next-Generation Communication System Design | 3 | ||||
Next-Generation Computer Network Design | 3 | ||||
Advanced SOC Design | 3 | ||||
Healthcare Service Robot | 3 | ||||
Introduction to Rehabilitation Engineering | 3 | ||||
Radio Resource Management Technology * | 3 | ||||
Optical Information Engineering * | 3 | ||||
Color Engineering * | 3 | ||||
Adaptive Filter & Control System Design * | 3 | ||||
Fourier Optical Engineering * | 3 | ||||
2 | Advanced Research Seminar II | 3 | |||
Next-Generation Network Protocol | 3 | ||||
Wireless System Design II | 3 | ||||
Direct Circuit Design II | 3 | ||||
Multimedia Signal Processing | 3 | ||||
Advanced Communication Theory | 3 | ||||
Advanced Communication Protocol Design | 3 | ||||
Advanced Antenna Engineering | 3 | ||||
Advanced Direct Circuit Design for Communication | 3 | ||||
Advanced Embedded Programming | 3 | ||||
Advanced Digital Signal Processing | 3 | ||||
Multimedia System Design II | 3 | ||||
Advanced Electronic Mathematics II | 3 | ||||
Digital Communication System Design | 3 | ||||
Next-Generation Network Protocol Design | 3 | ||||
Advanced Wireless System Design II | 3 | ||||
Advanced Direct Circuit Design II | 3 | ||||
Advanced Embedded System Design | 3 | ||||
Advanced Multimedia Signal Processing | 3 | ||||
Advanced Embedded Application | 3 | ||||
Advanced Communication Signal Processing | 3 | ||||
Advanced Communication Mathematics | 3 | ||||
Mobile Healthcare System | 3 | ||||
Biomedical Signal Processing * | 3 | ||||
Rehabilitation Assistance Robot * | 3 | ||||
Advanced Wireless Access Technology * | 3 | ||||
Optical Communication Engineering * | 3 | ||||
IT Convergence System * | 3 | ||||
Advanced Semiconductor Engineering * | 3 | ||||
Next-Generation Audio Signal Processing * | 3 | ||||
Total : 58classes | / |
* refers to newly established courses
Curriculum outline
Course | Korean | 생체신호처리 |
---|---|---|
English | Biomedical Signal Processing | |
Educational Purpose | Learn characteristics of signals and systems required in the field of medical engineering and acquire/apply knowledge of discrete signals and systems | |
Description | Biomedical signal is a time-varying concept that possesses very low amplitude and frequency. In particular, as most of the signals must be gained through noninvasive methods, specially devised algorithms must be used. This course teaches the basic information about signals and systems, such as Laplace transformation, Fourier Series, convolution and linear system response, frequency responses, board diagram, and sampling theory. In this course, students will study and discuss theories regarding adaptive signal processing algorithm and its applications in analyzing biomedical signals, such as ECG, EMG, and brain wave. |
Course | Korean | 재활보조공학개론 |
---|---|---|
English | Introduction to Rehabilitation Engineering | |
Educational Purpose | Acquire general understanding of services related with rehabilitation engineering and explore specialized rehabilitation engineering equipment to achieve successful rehabilitation | |
Description | Rehabilitation engineering is an academic field that develops technologies that enable the disabled to enjoy more productive and convenient lives by using compensation measures and adaptive equipment for functions lost through disability. This course investigates the concepts and types of rehabilitation and assistance engineering. The curriculum is composed of content to understand various rehabilitation engineering devices for supporting communication, work, and leisure activities of the disabled. |