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Department of Energy System Engineering

For more details on the courses, please refer to the Course Catalog

교육과정
Code Course Title Credit Learning Time Division Degree Grade Note Language Availability
ECE5939 Solar Cell Characterization 3 6 Major Master/Doctor 1-8 English Yes
The lecture covers solar cell material characterization, optical, chemical, physical, and electrical property characterization in solar cell fabrication process. Various device characterization methods including destructive and non-destructive analysis methods will be discussed for the fabrication completed solar cells. Electrical property influencing factors will be treated to achieve the higher efficiency of solar cell.
ECE5940 Mobile Computing 3 6 Major Master/Doctor 1-4 - No
In this course, the issues of mobile computing environments, which is introduced by technical advances in the development of portable computers and wireless communication technologies, are studied. We deal with design issues which stem from three essential properties of mobile computing: portability, mobility, and wireless communication. Especially, we study communication protocols for mobile computing environments, design methodologies of softwares for mobile computing environments, operating systems for mobile hosts, and some typical application softwares for mobile environments.
ECE5940 Mobile Computing 3 6 Major Master/Doctor 1-4 Electrical and Computer Engineering - No
In this course, the issues of mobile computing environments, which is introduced by technical advances in the development of portable computers and wireless communication technologies, are studied. We deal with design issues which stem from three essential properties of mobile computing: portability, mobility, and wireless communication. Especially, we study communication protocols for mobile computing environments, design methodologies of softwares for mobile computing environments, operating systems for mobile hosts, and some typical application softwares for mobile environments.
ECE5941 Internship Program Ⅰ 3 6 Major Master/Doctor 1-4 - No
The Internship Program allows students to integrate academics with relevant work experience through one or two semesters of work and study. Students apply classroom knowledge to a real-life work situation, allowing them to gain experience to help them make more informed decisions about their futures.
ECE5941 Internship Program Ⅰ 3 6 Major Master/Doctor 1-4 Electrical and Computer Engineering - No
The Internship Program allows students to integrate academics with relevant work experience through one or two semesters of work and study. Students apply classroom knowledge to a real-life work situation, allowing them to gain experience to help them make more informed decisions about their futures.
ECE5942 Internship Program Ⅱ 3 6 Major Master/Doctor 1-4 - No
The Internship Program allows students to integrate academics with relevant work experience through one or two semesters of work and study. Students apply classroom knowledge to a real-life work situation, allowing them to gain experience to help them make more informed decisions about their futures.
ECE5942 Internship Program Ⅱ 3 6 Major Master/Doctor 1-4 Electrical and Computer Engineering - No
The Internship Program allows students to integrate academics with relevant work experience through one or two semesters of work and study. Students apply classroom knowledge to a real-life work situation, allowing them to gain experience to help them make more informed decisions about their futures.
ECE5945 Error-Correction Coding Theory 3 6 Major Master/Doctor 1-4 - No
This course covers topics from traditional block and convolutional codes to modern capacity-approaching codes such as turbo and LDPC codes. Modern approach to coding including codes on graphs and iterative decoding will be discussed.
ECE5947 HCI Design 3 6 Major Master/Doctor 1-4 Korean Yes
HCI, the general concept defining the interaction between the user and the product, suggests that the initiative of product development is shifted from the knowledge of the developer to the satisfaction of the user. Consequently the product should be designed such that it is more appealing to diverse user groups and its use is easy to learn. This lecture provides students with principles and techniques of HCI necessary to design HW and SW component of the product to the user’s satisfaction.
ECE5947 HCI Design 3 6 Major Master/Doctor 1-4 Electrical and Computer Engineering Korean Yes
HCI, the general concept defining the interaction between the user and the product, suggests that the initiative of product development is shifted from the knowledge of the developer to the satisfaction of the user. Consequently the product should be designed such that it is more appealing to diverse user groups and its use is easy to learn. This lecture provides students with principles and techniques of HCI necessary to design HW and SW component of the product to the user’s satisfaction.
ECE5949 EMI/EMC 3 6 Major Master/Doctor 1-4 - No
This course covers the practical methods of noise suppression and control in electronic circuit and systems. The organization of the material is as follows. After brief introduction to the concept of noise suppression, the detailed noise reduction techniques are explained, which include shielding, grounding, balancing, decoupling, and filtering. Next, the course covers the noise characteristics of passive and active components and their uses in noise reduction circuitry. Finally, noise generation and propagation mechanisms in digital circuits and their reduction design techniques are explained. Finishing this course, the students will have a basic knowledge for solving the EMI/EMC problems at the design time which limit the final performance of modern complicated electronic components, circuitry, and systems.
ECE5949 EMI/EMC 3 6 Major Master/Doctor 1-4 Electrical and Computer Engineering - No
This course covers the practical methods of noise suppression and control in electronic circuit and systems. The organization of the material is as follows. After brief introduction to the concept of noise suppression, the detailed noise reduction techniques are explained, which include shielding, grounding, balancing, decoupling, and filtering. Next, the course covers the noise characteristics of passive and active components and their uses in noise reduction circuitry. Finally, noise generation and propagation mechanisms in digital circuits and their reduction design techniques are explained. Finishing this course, the students will have a basic knowledge for solving the EMI/EMC problems at the design time which limit the final performance of modern complicated electronic components, circuitry, and systems.
ECE5950 Microwave Engineering 3 6 Major Master/Doctor 1-4 English Yes
This course covers practical application of microwave theory. This course assumes the student has basic understanding of electromagnetic theory. Major topics include microwave circuits and networks-passive and active, wave propagation, and antennas. Detailed topics to be included are; Microwave Network theory, waveguides, multijunction networks, periodic structure ParameterMatrices, distributed network, coupled lines, capacitance matrix transformations, antena model (Green's function), aperture radiation, methods of moment, reflectors and arrays, and microwave solid state devices, microwave semiconductor.
ECE5950 Microwave Engineering 3 6 Major Master/Doctor 1-4 Electrical and Computer Engineering English Yes
This course covers practical application of microwave theory. This course assumes the student has basic understanding of electromagnetic theory. Major topics include microwave circuits and networks-passive and active, wave propagation, and antennas. Detailed topics to be included are; Microwave Network theory, waveguides, multijunction networks, periodic structure ParameterMatrices, distributed network, coupled lines, capacitance matrix transformations, antena model (Green's function), aperture radiation, methods of moment, reflectors and arrays, and microwave solid state devices, microwave semiconductor.
ECE5951 Display Optics 3 6 Major Master/Doctor 1-4 - No
Lectured in this class are basic principles of optics to understand and design various display systems. Lecture topics include superposition of light, polarization and its applications, liquid crystals, interference theory and optical systems, diffraction, Fourier transform and its application to optical system analysis and design.