EXPLANATION OF CURRICULUM

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B46157 _ prboblility and Random Variable
3-3-0-0-0
This course gives an introductory treatment of probability theory for analysis of the system that inherently exhibits randomness. Covered topics include elementary probability theory, random variable, probability distribution and density function, correlation and spectral density function, and random processes. Those topics are applicable to a wide range of electrical engineering fields including information technology, control engineering, semiconductor, computer engineering, etc.
B57793 _ Fundamental Engineering Design
3-0-0-0-3
The goals of this course are to develop an understanding of basic engineering design projects from the recognition of a need and definition of various design objectives, and to broaden the student's concept of engineering problems to include all engineering disciplines and other non-engineering factors that have an impact on the final problem solution. This course sequence uses a combination of lectures, case studies, and design projects to prepare students for undertaking comprehensive, open-ended development projects.
B07335 _ Logic Circuit
3-3-0-0-0
This course covers combinational and sequential logic circuits which are bases for understanding and designing digital systems and computers.
B19842 _ Signal and Systems
3-3-0-0-0
Signals and Systems provides basic theory for mathematical modeling and analysis of electrical circuits, communications, control, image processing, and electromagnetics. Signals and systems are analyzed in the time and frequency domains. This course covers basic continuous and discrete time signals, system properties, linear time invariant systems, convolution, continuous and discrete time Fourier analysis.
B 29986 _ Electromagnetic Fields and Waves l
3-3-0-0-0
This first half of the course will treat the basic theory and related laws of electromagnetics. The contents of the course consist of static electromagnetic fields, physical prosperities of fields, and interaction between electromagnetic fields and materials. It is expected that the fundamental understanding of the electromagnetics could be utilized for further systematic studies in the electronics.
B41668 _ Basic Circuit Analysis
3-3-0-0-0
The basic circuit theories that are the base of electronics engineering are analyzed by time and frequency domain. Also, the networks are analyzed by node and mesh method, and the phasor is introduced for AC analysis.
B05340 _ Basic Circuit Experiments
2-0-0-4-0
This course is circuits and electronics lab covering basic electronics and principles of electrical measurements, and their usage. The theories about the circuits and the equipments are introduced in this lab.
(prerequisites: Physics & Lab I, Physics & Lab II)
B42345 _ Digital Circuit Experiments
3-2-0-0-1
This lab course covers experiments on combinational logic and sequential logic. Also, electrical characteristics about the logic circuits are measured in the digital circuits.
B30118 _ Electronic Circuits l
3-2-0-0-1
A first course in modeling, characterization, and application of semiconductor devices and integrated circuits. Linear and nonlinear electronic circuits using diodes, transistors, op-amps, amplifiers, feedback, filters, oscillators, nonlinear waveshaping, rectifiers, DC/DC conversions, A/D and D/A conversion
B58169 _Communication Laboratory
2-0-0-4-0
This course is essentially required to understand wireless communication systems and to achieve the ability of experiments and design of wireless communication systems. Firstly, this lab teaches the principle and operation of oscilloscope and spectrum analyzer, the basic principle of analog/digital communication (AM, FM, PAM, PCM, ASK, PSK, FSK) through H/W module based experiments as well as understanding wireless communication systems.
Secondly, this lab consists of experiments for microwave devices and circuits such as understanding S-parameter and measurement of S-parameter using network analyzer, transmission line characterization, RF impedance, Smith chart, impedance matching network design, and passive component characterization. Finally, microwave circuit design using microwave circuit design tools such as ADS.
B36122 _Computer Architecture
3-3-0-0-0
This course provides fundamental methods of designing computer systems including hardwared logic and microprogramming, data input-output techniques, and memory architecture. Also the parallel processing techniques such as MIMD, SIMD and pipeline are presented for designing advanced computer systems.
B11227 _Physical Electronics
3-3-0-0-0
This course will discuss refinery, purification, growth of single crystal, imperfection , diffusion of dopant, carrier density and transfer mechanism in crystal by basic concept of semiconductor material physical property.
B58170 _Digital circuit design and language
3-2-0-0-1
In order to implement complex electronic information systems, techniques for designing digital circuits should be learned. In this course, hardware design language which helps model and verify complex digital circuits efficiently for design reuse will be learned. Based on logic design principles, high-level design techniques and modelling for digital state machines using key components such as programmable logic arrays, ROMs, FPGAs are taught.
B29988 _Electromagnetic Fields and Waves 2
3-2-0-0-1
The second half of electromagnetic fields and waves will be covered. Faraday's law, magnetism, relations between electric and magnetic fields will be discussed. Maxwell's equations will be derived and discussed with their physical meanings. Derivation of the wave equation will be followed. After that, a conclusion of electromagnetic theory will be discussed in terms of phenomena of wave propagations. (prerequisites: Electromagnetic Fields and Waves I)
B13047 _Semiconductor Engineering
3-3-0-0-0
This course will discuss characteristics and application of resistance unit, transistor, opto-electronic device, semiconductor change device and semiconductor integrated circuit after learning refinery, purification, growth of single crystal, imperfection, diffusion of dopant, carrier density and transfer mechanism in crystal.
B41643 _Circuit Analysis
3-3-0-0-0
Topics are analysis of circuits, time response, frequency analysis of 1st and 2nd order circuits, sinusoids input analysis, coupling, resonance circuit, four-terminal circuit analysis. (prerequisites: B41668 Basic Circuit Analysis)
B46153 _Optical Engineering
3-3-0-0-0
This course is intended to familiarize the students with the basic concepts and applications of geometric optics and optical wave propagation. Moreover, students also learn underlying principles of common optical components and optical instruments such as microscopes and telescopes.
B58171 _Digital Communications
3-2-0-0-1
Students learn the basic functions of communication systems and how to analyze them based on the probability theory and time-domain and frequency-domain analysis of signals and systems. First, they learn the advantages of digital communications compared with analog communications and basic processes to obtain digital information such as sampling and quantization. Then, the course deals with baseband and bandpass modulation techniques to transmit digital information reliably over a channel. High order bandpass modulation techniques will be also introduced with their performance analysis. (prerequisites: B198421 Signals and Systems, B461571 Probability and Random Variables)
B46164 _Microprocessor
3-2-0-0-1
This course provides topics will include basic microcomputer hardware, software and the usage of recent popular applications. Hardware organization, memory addressing, input / output interface, interrupts, assembly language programming, peripheral support, hardware and software development.
B29885 _Transmission Line Theory
3-2-0-0-1
At high frequency range which can not be explained by ordinary circuit theory, microwave theory must be applied to transmit signals and energy effectively. This course will be guided to understand circuits used in communication(satellite, mobile, fixed), radar, broadcasting, electronic warfare, medical equipment, remote sensing, navigation, industrial equipment, and etc. this theory is necessary and provide creative abilities to solve problems.
B29015 _Automatic Controls
3-3-0-0-0
This course will treat of transfer function and variable which can be made to analyze the system characteristic. And students can make themselves familiar with stability criterion in time and frequency domain through the above concept. Also, they will be able to understand concept of feedback and make up the stable control systems.
B10481 _Multimedia System
3-2-0-0-1
This course provides the basic concepts and the requirements of the multimedia system, video coding and compression, and the technology for transmissions. This course also provides the required technology to design of the multimedia system and practical applications, followed by the performing the practices.
B36142 _Computer Networks
3-3-0-0-0
This course deals with layered models, characteristics, operations and management of networking devices. Also, the course introduces to the internetworking among networked devices. Students through this course can understand about configuration of computer network and its operations. As a core architecture, this course deals with OSI 7 layers and 4 layered architecture for Internet. So, students can obtain the capability to design LANs through theoretical understanding and analytical learning.
B08992 _Digital Signal Processing
3-2-0-0-1
This course will study basic theory, filter design about necessity for system analysis and apply method for computer simulation, acoustics, image processing and communication software. These are all done with signal and system background. The main topics are Z-transform, system transform coefficient, filtering, modulation, Fourier Transform, sampling theory, etc. (Prerequisite : B19842 Signals and Systems)
B29965 _Electronic Measurement
3-2-0-0-1
Introductory course in measurement and instrumentation. Explain the operation, performance, and applications of the most important measuring instruments normally encountered in an electronics laboratory, and to discuss electronic measuring techniques. Also included are discussions on transducers and data acquisitions for the modern instrumentation requirement.
B30120 _Electronic Circuits 2
3-2-0-0-1
Application electronic circuits composed of active devices such as transistors, FETs and the Op-Amps are implemented and tested to verify designing methods presented in the lecture.
B00283 _Digital Signal Processing and Simulation Experiments
2-0-0-4-0
Students learn how to use digital signal processors for synthesis, noise reduction, enhancement, and compression of digital image and speech signals. It includes analog to digital convertor and parallel processing techniques. (Prerequisite : B19842 Signals and Systems)
B30138 _Electronic Circuits Experments
2-0-0-4-0
This lab covers experiments about the linear and nonlinear circuits consisting of diodes, transistors, op-amps, amplifiers, feedback, filters, oscillators, nonlinear waveshaping circuits, rectifiers, DC/DC conversions, A/D and D/A conversion
B58173 _Creative Design 1
3-0-0-0-3
This course offers students an opportunity to study new and various subjects related to electronic and radio communication engineering as a group with their supervisor. The course includes seminar, internship, performing project, and writing research paper. This is the first course of two-semester long course, so that every student or group of students is expected to submit a survey report and a proposal of a project. The project is continued to 'Creative Design 2.'
B58174 _Creative Design 2
3-0-0-0-3
The proposed project in 'Creative Design 1' is completed in this course. Supervised by the supervisor, every student or group of student submits document in every step of engineering design. Final report should be accompanied with real world demonstration. Demonstration may include HW or SW system, qualified research paper published or to be published or patent.
B22748 _Quantum Electronic Engineering
3-3-0-0-0
Recently, the field of optoelectronics is being rapidly developed because it is now possible to grow ultra-thin films and nanostructures and to fabrication complex devices. For example, quantum cascade lasers and quantum dot lasers are developed. This course aims for understanding of quantum mechanics and quantum electromagnetic theory which are basic for nano-structure lasers and related optical phenomena.
B03306 _Optical Electronics Engineering
3-2-0-0-1
This course covers the operation concepts of optical fiber, optical sources (including laser diode), optical detector, and optical devices based on the basic theories of wave optics and solid-state physics. In addition, this course provides the design concepts of simple optical system and optical devices.
B03324 _Optical Fiber Communication
3-2-0-0-1
Operating principles of each elements of optical fiber communication system, i.e. diode laser, optical fiber, photodiode, will be discussed. Example systems such as optical LAN will also be introduced. And other diverse applications of optical fiber will be mentioned.
B66040 _Introduction to VLSI Deign
3-2-0-0-1
System-on-Chips (SoCs), which can integrate a complex system function in a chip, are increasingly demanded. In this lecture, basic knowledge about MOSFET, SoC design techniques and methodologies, memory systems are discussed. Also, term project associated with SoC design is given.
B42356 _Microprocessor Applications
3-2-0-0-1
This course provides principles and design of microprocessor-based computer system. Covers both hardware and software aspects of microprocessor system design, including standard and special interfacting techniques. Ability of system design and trouble-shooting will also be covered.
B66041 _SOC Design Application and Labs
3-2-0-0-1
With rapid development of semiconductor technologies and CAD tools, Most electronic functions in a system can implemented in one system-on-chip. In order to design SoC, SoC hardware and software techniqures should be learned: hardware design processes from high-level algorithms to lower physical layout and software layers such as operating system and device driver.
In this course, following basic SoC hardware and software techniques are learned; high-level algorithm verification using C++ or MATLAB or SystemC languages, RTL modelling using HDL, synthesis using libraries, layout for adding elements in the library, performance estimation such as area, speed, power dissipation, floor planning, and place and route, OS porting and device driver programming.
B34612 _Microwave Engineering
3-2-0-0-1
The objective of this lecture is to introduce the transmission line theory by which the propagation phenomenon of electromagnetic waves are analyzed with analog of circuit theory, and the impedance matching concepts and techniques are also presented.
B22327 _Antenna Engineering
3-2-0-0-1
This course will deal with principles on electromagnetic wave generation, radiation pattern, and impedance matching method of antennas with understanding of wave equation. After learning some fundamental theories, students will design, fabricate, and measure microstrip antennas for themselves.
B58176 _Radio Communications Integrated Circuit Theory
3-2-0-0-1
This course starts with the basic theory of the RF circuit for wirelss communication/broadcast system. The objective this course is to learn how to design and measure Hybrid Integrated circuits and Monolithic Integrated circuits by using CAD(HP-EEsof ADS).
B58177 _Digital Signal Processing in Communications
3-2-0-0-1
This course provides architecture of DSP processor and C language implementation of many DSP algorithms with design examples for digital FIR and IIR filter design, digital modulation schemes such as MPSK, FSK and ASK, correlation and OFDM system design.
B58178 _Wireless Communications Circuit Theory
This course introduces the RF./Microwave circuit and Digital signal modulaton, demodulation of wireless-communication systems. besides they are taught circuit topology and design of RF system. Also they study the characteristic and application of the bipolar transistor, field effect transistor. This Device is used RF/Microwave Power amplifier, up-converter, down-converter, oscillator, LNA etc. By experiments and simulation, students learn RF system and circuit.
B57794 _Wireless RF System Design
3-2-0-0-1
Systematic design method of RF part in Wireless system as a hand phone will be introduced in this course. Wireless RF system based on Antenna, Duplexer, Low Noise Amplifier, Power Amplifier, Frequency Converter, Oscillator, IF Amplifier, and Filters will be explained in terms of the way of system design. (Prerequisite 34612 Microwave Engineering)
B58172 _Digital Communications
3-2-0-0-1
This course provides various advanced techniques to improve the performance and/or spectral efficiency of digital communication systems. First, students learn and channel coding such as linear block codes and convolutional codes. Based on them, channel capacity and the tradeoffs between coding and modulation are introduced to design new systems. They also learn the fading effects of wireless channels on the performance and recent communication techniques to cope with fading. (prerequisites: B198421 Signals and Systems, B461571 Probability and Random Variables, B58171 Digital Communications I)
B45180 _Mobile Communications
3-2-0-0-1
To understand the mobile communication system, we study on the characteristics of wireless channel, the concept of cellular system and the architecture of mobile communication system. The course focuses on the cellular and PCS system based on cdma-One and next generation mobile communication system.
B10762 _Wireless Data Communications
3-2-0-0-1
The primary objective of this class is to understand fundamental concepts of wireless data communication. In particular, the class will cover wireless LAN, cellular systems, Bluetooth, Mobile IP, etc.Students learn how those systems work and design issues related to them.
B10498 _Multimedia Communications
3-2-0-0-1
Students learn characteristics of multimedia signals such as speech, audio, image, video, and graphic. Then, they learn theories and the international standards for multimedia data compression. They, also, learn how to analyse quantitatively characteristics and requirements for multimedia communications. (Prerequisite : B19842 Signals and Systems)
B23475 _Image Signal Processing
3-2-0-0-1
This course teaches representation of 2D digital image signal, basic processing steps of image signal, elements of image signal processing system, image transform including Fourier transform, FFT and DCT, enhancement and restoration of image signal.