College Of Engineering Department Of Electronic Engineering

College/Department info
Dept. location Engineering Building #503
Phone 02-2220-0350, 0360 Fax 02-2220-1886
Email 대표 / serioh@hanyang.ac.kr / - shinae4197@hanyang.ac.kr
Homepage
SNS

Introduction

Over the past few years, the trend of the global economy has followed the flow of IT technology. Personal IT devices such as smartphones are being launched almost every day, and the effects of them are increasing enough to determine the ups and downs of related companies. Complying with various demands of consumers, small and efficient IT devices offering more functions, products that combine IT into existing products, and new and innovative items are actively developed. In the future, more and more products will have electronic interfaces, so electronic engineering will become an essential field in future societies.

The course of study includes the understanding of the future technology and that reflect emerging trends in which students can experience integrated studies in addition to the previous curriculum of electronic communications engineering dealing with basic knowledge on semiconductors, displays, communications, and computers.   
 

Information

info Department Of Electronic Engineering

Highlights

Extensive Scholarship Programs, “Diamond 7” Departments
As a Diamond specialized department at Hanyang University, the department of electronic engineering offers scholarships to high-achieving freshmen, provides job opportunities at affiliated companies, full-time English camps, and even language training programs in the U.S.A. for top students at the English camps. Additional 4-year scholarships are offered through an industry-education affiliation program in addition to an opportunity to apply for the joint master’s and doctor’s degrees with full scholarship.

Research achievements and top Korean and foreign students leading in the field of information technology in Korea  
In the evaluation of the BK21 project team, which can measure the research ability of each school, our department ranked first place four consecutive times during the six year evaluations of large-scale IT projects, and the results of patent and technology transfer per professor also ranked top place. Students are also making outstanding achievements in various national exams. In 2014 a Hanyang graduate ranked top in the civil service examination technical post ranking. In the competitive civil service exams for science and technology positions, a student from this department was the nation’s top scorer in 2011, and Hanyang also ranked first place in the number of successful candidates for the exams. Hanyang also set the record for the youngest successful candidate in the data processing sector.
 

Outlook

진로
Corporations Various electronics related design company and manufacturer, various electronic equipment operation and maintenance company, high-tech medical equipment manufacturer,
Satellite communications and satellite broadcasting companies
Educational institutions Professorship in electronic engineering
Public and government agencies Electrical, computer, transmission engineer, Korea Electric Power Corporation, Korea Electric and Electronic Test, Radio, Telecommunications, Information and Korea Information Society Development Institute
Others  Patent attornies
Faculty info
Jongwha Chong

Jongwha Chong / Adjunct Professor

Oh-Kyong Kwon

Oh-Kyong Kwon / Professor

Suh, Il Hong

Suh, Il Hong / Professor

Je-Myung Jeong

Je-Myung Jeong / Professor

Lee Sang Sun

Lee Sang Sun / Professor

KIM, WHOI-YUL

KIM, WHOI-YUL / Professor

Sang Won Nam

Sang Won Nam / Professor

Seungwon Choi

Seungwon Choi / Professor

Jaehoon Choi

Jaehoon Choi / Professor

Jeong, Jechang

Jeong, Jechang / Professor

Jung, Jae-il

Jung, Jae-il / Professor

Sung-kwon Park

Sung-kwon Park / Professor

PARK JEA GUN

PARK JEA GUN / Professor

CHO, SUNG HO

CHO, SUNG HO / Professor

Kim, Hyeongdong

Kim, Hyeongdong / Professor

Dongweon Yoon

Dongweon Yoon / Professor

Kyeongyuk Min

Kyeongyuk Min / Research Assistant Professor

CHOI BYONGDEOK

CHOI BYONGDEOK / Professor

Kyung-Young Jung

Kyung-Young Jung / Associate Professor

Sang-Gyu Park

Sang-Gyu Park / Professor

Dong-Joon Shin

Dong-Joon Shin / Professor

Changsik Yoo

Changsik Yoo / Professor

KIM, TAEWHAN

KIM, TAEWHAN / Professor

Lee Seung-Beck

Lee Seung-Beck / Professor

Yun, Tae-Yeoul

Yun, Tae-Yeoul / Professor

Yong Ho Song

Yong Ho Song / Professor

Chung Ki-Seok

Chung Ki-Seok / Professor

Jae-Hoon Kim

Jae-Hoon Kim / Professor

Chang-Jae Yu

Chang-Jae Yu / Associate Professor

Kim, Sunwoo

Kim, Sunwoo / Professor

Kim, Dong Kyue

Kim, Dong Kyue / Professor

Park, Wanjun

Park, Wanjun / Professor

Song Yun Heub

Song Yun Heub / Professor

Joon-Hyuk Chang

Joon-Hyuk Chang / Professor

Hichan Moon

Hichan Moon / Associate Professor

Park, Jinsub

Park, Jinsub / Associate Professor

David Phillip Wagner

David Phillip Wagner / Associate Professor

Park, Panjong

Park, Panjong / Adjunct Professor

youngsoo son

youngsoo son / Adjunct Professor

Jae woan Byun

Jae woan Byun / Adjunct Professor

Jae Kyeong Jeong

Jae Kyeong Jeong / Professor

KIM Tae-Hyoung

KIM Tae-Hyoung / Visiting Professor

최선준

최선준 / Post-Doc.

Muhammad Ozair Mughal

Muhammad Ozair Mughal / Research Assistant Professor

Jaeha Kim

Jaeha Kim / Adjunct Professor

Jeong Jun Young

Jeong Jun Young / Adjunct Professor

HAN SUB YOON

HAN SUB YOON / Adjunct Professor

LEE GEONSONG

LEE GEONSONG / Adjunct Professor

김영조

김영조 / Emeritus Professor

임제탁

임제탁 / Emeritus Professor

LEE SANG SEOL

LEE SANG SEOL / Emeritus Professor

한영열

한영열 / Emeritus Professor

Sang Kyu Park

Sang Kyu Park / Emeritus Professor

College/Department curriculum
Year Term No. Curriculum Course Credits-lecture-experiential learning  
1 1 CUL0005 Korean Speaking and Writing (Compulsory) Requirement in Fundamental Studies 3-4-0
This class is opened in intention to express creative imagination though speech and writing. This class is divided by 2 parts explaining writing and thoughts, speech and culture. Writing and thoughts contains association training, structures of writing, description, compare and contrast and writing logical sentences. Speech and culture criticizes culture and literature. Both parts contains many programs that enables students to participate. That should make the class interesting and also valuable.
1 1 ELE1008 C PROGRAMMING Technique (Compulsory) Requirement in Fundamental Studies 3-2-2
Thisclassteachesthebasicprinciplesandtechniquesforsolvingrealwordproblemsusingcomputers.StudentscandeveloptheabilitytodesignefficientprogramsbylearningthesyntaxofC languages,theconceptsofandelementarymethodologyforprogramdesign,andimplementationtechniques.Topicstobecoveredincludetheconceptsofcomputerprogramming,basicprogrammingmethodology,datatypes,operators,expressions,controlflow,functions,programstructure,pointersandarrays.
1 1 GEN1012 General Chemistry (Compulsory) Requirement in Fundamental Studies 3-3-2
Chemistry is one of the most essential course in understanding the natural science. In this course, basic theories regarding chemistry in life, composition of matter, measurement, chemical formulae stoichiometry, thermal chemistry, solution, gas and solid state chemistry are introduced in order to understand chemistry and its applicability.
1 1 GEN1014 General Physics (Compulsory) Requirement in Fundamental Studies 3-3-2
This course covers the basic principles in mechanics and electromagnetism. Topics include the force and motion of objects, momentum and energy, charge and electronic fields, current and magnetic fields, and electromagnetic waves.
1 1 GEN2052 Calculus 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking.
1 1 GEN4091 Philosophical Understanding of Science and Technology (Compulsory) Requirement in Fundamental Studies 2-2-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
1 1 GEN5029 Career Development Ⅰ (Compulsory) Requirement in Fundamental Studies 1-1-0
The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development.
1 1 SYH0001 HUMAN LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Value Leadership(HELP1) is the core course for freshmen. This course is composed of 3 parts, "pride in Hanyang", "core values in global society" and "life planning." In "pride in Hanyang", students will review the history, values and vision of Hanyang University. In "core values in global society", students will study 6 core values and cases on the core values of global companies. In "life planning", students will reflect on their past and present and develop their vision and mission statement.
1 1 CUL0005 Korean Speaking and Writing (Compulsory) Requirement in Fundamental Studies 3-3-0
This course is to understand about the culture of the moderns, can be represented in the speaking and writing skills and a free imagination, and creative and critical reason for celebration. In addition, students can participate in lectures and presentations, a discussion of the end of class for free and a variety of writing and the correct writing of the progress and lessons will be conducted. Subjective reason ability and come in a variety of situations, each student through this class so that you can be a true and accurate communication, speaking and writing skills will be able to exert.
1 1 ELE1008 C PROGRAMMING Technique (Compulsory) Requirement in Fundamental Studies 3-2-2
Thisclassteachesthebasicprinciplesandtechniquesforsolvingrealwordproblemsusingcomputers.StudentscandeveloptheabilitytodesignefficientprogramsbylearningthesyntaxofC languages,theconceptsofandelementarymethodologyforprogramdesign,andimplementationtechniques.Topicstobecoveredincludetheconceptsofcomputerprogramming,basicprogrammingmethodology,datatypes,operators,expressions,controlflow,functions,programstructure,pointersandarrays.
1 1 GEN1012 General Chemistry (Compulsory) Requirement in Fundamental Studies 3-3-2
Chemistry is one of the most essential course in understanding the natural science. In this course, basic theories regarding chemistry in life, composition of matter, measurement, chemical formulae stoichiometry, thermal chemistry, solution, gas and solid state chemistry are introduced in order to understand chemistry and its applicability.
1 1 GEN1014 General Physics (Compulsory) Requirement in Fundamental Studies 3-3-2
This course covers the basic principles in mechanics and electromagnetism. Topics include the force and motion of objects, momentum and energy, charge and electronic fields, current and magnetic fields, and electromagnetic waves.
1 1 GEN2052 Calculus 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking.
1 1 GEN4091 Philosophical Understanding of Science and Technology (Compulsory) Requirement in Fundamental Studies 3-3-0
This course aims to survey some important theoretical results recently obtained in science and technology studies. We will carefully examine a number of concrete case studies studied by scholars from philosophy of science and technology, sociology of science and technology, and history of science and technology. The students taking the course shall learn various aspects of modern science and technology in the context of modern society. They shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of its unique features, which can be clearly distinguished from the science and technology of even, the eighteenth century. We will discuss in the class the significance of differences for proper understanding of science and technology of our time. The course will also encourage more interactions between humanities and natural sciences so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society. The target audience of the course is students studying natural sciences and/or engineering. The contents of the course will be stylized each term, considering the student';s needs and backgrounds.
1 1 GEN5029 Career Development Ⅰ (Compulsory) Requirement in Fundamental Studies 1-1-0
The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development.
1 1 SYH0001 HUMAN LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Human Leadership(HELP1) is a course offered to freshmen students. It is focused on helping them establish characters and values. By enhancing their humanistic sensitivities and knowledge they learn core values and leadership. Students discover themselves through HELP1 and are able to decide what kind of person they want to be. HELP1 helps students establish their values and prepare them to be balanced leaders who can adjust to new environments.
1 1 COE2022 Introduction to Engineering Design Core Major 3-2-2
To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles an master techniques to solve engineering problems.
1 1 CUL0005 Korean Speaking and Writing Compulsory General Studies 3-3-0
Through kiscussion this course ask the following questions: (1) What is free associaton?; (2) How do you compose and make a text? How do you talk about a certain issue?; (3) What is rational and logical thought?; (4) How do you enhance originality and rationlity? The course help students acquire an understanding of text and composition.
1 1 ELE1010 General Physics for Electronics Engineers 1 Basic Major 3-3-0
This course is for the undergraduate students majoring in electronic engineering. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture. The students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems.
1 1 GEN0072 General Chemistry & Experiment Basic Major 3-2-2
Chemistry is one of the most essential course in understanding the natural science. In this course, basic theories regarding chemistry in life, composition of matter, measurement, chemical formulae stoichiometry, thermal chemistry, solution, gas and solid state chemistry are introduced in order to understand chemistry and its applicability.
1 1 GEN2052 Calculus 1 Basic Major 3-3-0
Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking.
1 1 GEN4091 Philosophical Understanding of Science and Technology Compulsory General Studies 3-3-0
This course aims to cultivate among students the comprehensive understanding of science and technology in modern society, employing philosophical methods and concepts. To do this, the course offers a survey of some important theoretical results recently obtained in science and technology studies. We will carefully examime a number of concrete case-studies, ranging from the electrification of America, quantum revolution to the introduction of western science to traditional Korea. We will then discuss the intrinsic nature of modern science and technology as well as its socio-cultural aspects in the context of modern society. Students who take the course shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of unique characteristics, which can be clearly distinguished from the science and technology of even, the eighteenth century. We will discuss in the class the significance of this difference. The course will also highlights the importance of dialogue between experts with different background and encourage more interactions between humanities and natural sciences, so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society.
1 1 GEN5029 Career Development Ⅰ Compulsory General Studies 1-1-0
The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development.
1 1 SYH0001 HUMAN LEADERSHIP Compulsory General Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Hanyang Leadership(HELP1) is the core course for freshmen. This course is composed of 3 parts, "pride in Hanyang", "core values in global society" and "life planning". In "pride in Hanyang" students will review the history, values and vision of Hanyang University. In "core values in global society" students will study 6 core values and case study on the core values of global companys. In "life planning" students will reflect on their history and present and develop the vision and mission statement.
1 2 BIO3038 Biological Engineering (Compulsory) Requirement in Fundamental Studies 3-3-2
The present course is for the students of department of electronic engineering. This class provides the information on basic principles and concepts of biology to understand the materials and techniques applied to biotechnology. In addition, it discuss the connection between basic biological principles and biotechnology products and aims at training the students for their ability to think from several angles.
1 2 ECN1001 DIGITAL LOGIC DESIGN (Compulsory) Requirement in Fundamental Studies 4-3-2
Introductiontodigitallogicandcomputersystems.Topicsincluderepresentationofinformation,binaryarithmeticandarithmetic-logicunit,switchingalgebra,combinationalnetworkanalysisanddesign,sequentialnetworkanalysisanddesign,registersandcounters,programmablelogicdevice,asynchronouscircuitanalysisanddesign,andbasicdigitalinterface.
1 2 ELE1009 History of Modern Science and Technology Core Major 3-3-0
이 수업은 17세기 과학혁명 이후 서양의 과학기술이 역사적 지형 속에서 어떻게 발전해 왔는지 살펴보면서, 19세기 이후 본격적으로 등장한 전기와 자기에 대한 이해와 그 응용기술의 역사적 궤적을 주로 다룬다.
1 2 GEN2053 Calculus 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1.
1 2 GEN6032 PROFESSIONAL ACADEMIC ENGLISH (Compulsory) Requirement in Fundamental Studies 3-4-0
The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class.
1 2 GEN6044 Hanyang Community Service (Compulsory) Requirement in Fundamental Studies 1-0-2
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
1 2 PHY2008 Modern Physics Core Major 3-3-0
Thespecialrelativistictheoryandthequantumphysics have been introduced to understand thelimitoftheclassicalphysicsand the quantum physics of the quantum structures. Thespecialrelativistictheory,theparticlepropertiesofwaves,thewavepropertiesofparticles,andtheatomicstructure have been described. Theeigenvaluesandtheeigenfunctions of the various quantum structures with different potential well energies have been investigated by using the one-dimensional Schrödingerequation.The energy eigenvalues and energy eigenfunctions of the hydrogen atom have been investigated by using the three-dimensional Schrödingerequation. The formation of the next-generation quantum structure and the fabrication of the electronic and the optoelectronic devices based on the quantum structural materials have been discussed. The quantum physical properties of electronic and optoelectronic devices have been discussed, and the potential applications in the next-generation quantum devices have been are discussed.
1 2 BIO3038 Biological Engineering (Compulsory) Requirement in Fundamental Studies 3-3-2
The present course is for the students of department of electronic engineering. This class provides the information on basic principles and concepts of biology to understand the materials and techniques applied to biotechnology. In addition, it discuss the connection between basic biological principles and biotechnology products and aims at training the students for their ability to think from several angles.
1 2 COE2022 Introduction to Engineering Design Core Major 3-3-0
To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles an master techniques to solve engineering problems.
1 2 ECN1001 DIGITAL LOGIC DESIGN (Compulsory) Requirement in Fundamental Studies 4-3-2
Introductiontodigitallogicandcomputersystems.Topicsincluderepresentationofinformation,binaryarithmeticandarithmetic-logicunit,switchingalgebra,combinationalnetworkanalysisanddesign,sequentialnetworkanalysisanddesign,registersandcounters,programmablelogicdevice,asynchronouscircuitanalysisanddesign,andbasicdigitalinterface.
1 2 GEN2053 Calculus 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1.
1 2 GEN6032 PROFESSIONAL ACADEMIC ENGLISH (Compulsory) Requirement in Fundamental Studies 3-3-0
The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class. Professional Academic English (PAE) is a required course for all HYU students that develops students’ academic presentation and writing skills using major-related content. Instruction will focus on the concepts and strategies needed in order to both organize and deliver a presentation, along with informal and formal opportunities to practice them. Students will also learn to improve their academic writing through assignments that require the dem
1 2 GEN6044 Hanyang Community Service (Compulsory) Requirement in Fundamental Studies 1-0-2
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
1 2 PHY2008 Modern Physics Core Major 3-3-0
Thespecialrelativistictheoryandthequantumphysics have been introduced to understand thelimitoftheclassicalphysicsand the quantum physics of the quantum structures. Thespecialrelativistictheory,theparticlepropertiesofwaves,thewavepropertiesofparticles,andtheatomicstructure have been described. Theeigenvaluesandtheeigenfunctions of the various quantum structures with different potential well energies have been investigated by using the one-dimensional Schrödingerequation.The energy eigenvalues and energy eigenfunctions of the hydrogen atom have been investigated by using the three-dimensional Schrödingerequation. The formation of the next-generation quantum structure and the fabrication of the electronic and the optoelectronic devices based on the quantum structural materials have been discussed. The quantum physical properties of electronic and optoelectronic devices have been discussed, and the potential applications in the next-generation quantum devices have been are discussed.
1 2 ECN1001 DIGITAL LOGIC DESIGN Core Major 4-3-2
This course provides foundation in design and analysis of the operation of digital gates. The main goal of this course is to learn how to design and optimize combinational digital circuits and sequential digital circuits. Topics include representation of information, binary arithmetic and arithmetic-logic unit, switching algebra, combinational network analysis and design, sequential network analysis and design, registers and counters, various programmable logic devices, asynchronous circuit analysis and design, and basic digital interface. This course also provides an experimental program for 2 hours in a week. Students should perform building and testing weekly-topics using several experimental tools in the program. The topics are logic gates, Boolean algebra, Karnaugh map, MUX & DeMUX, encoder & decoder, latch & flipflop, counter & register, and so on.
1 2 ELE1011 General Physics for Electronics Engineers 2 Basic Major 3-3-0
his course is to make students familiar, at the conceptual and basic problem-solving level, with the physics of electricity and magnetisam, electro-magnetic circuits, electromagnetic waves, waves, optics and modern physics. The basic philosophy of this course can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving.
1 2 GEN1031 Creative Computing for Engineers Compulsory General Studies 3-2-2
In this class, students will learn how to solve real-world problems using computers. To do that, students will learn C programming language and will do programming exercises from the basic level to the medium level. The class will cover topics, such as data types, strings, operators, expressions, statements, functions, arrays, pointers, and so on.
1 2 GEN2053 Calculus 2 Basic Major 3-3-0
This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1.
1 2 GEN6032 PROFESSIONAL ACADEMIC ENGLISH Compulsory General Studies 3-3-0
The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class.
1 2 MAT2017 Probability & Statistics Basic Major 3-3-0
2 1 COE3051 Engineering Mathematics 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable.
2 1 CSE2010 Data Structures Core Major 3-3-0
Providesacomprehensiveintroductiontothemodernstudyofcomputeralgorithmsanddatastructure:formalspecificationsandrepresentationoflists,arrays,trees,graphs,andmulti-linkedstructures.Analysisofassociatedalgorithms.Sortingandsearchingfilestructuresandrelationaldatamodels.
2 1 ECC1004 CIRCUIT THEORY 1 Core Major 4-3-2
This course deals with the fundamental characteristics of linear circuits, emphasizing the analysis of simple electric circuits; resistive elements; response of RC, RL and RLC circuits; node voltage and mesh current techniques; superposition theorem and Norton equivalents; sinusoidal steady state response and AC power.
2 1 ECR2001 Probability & Statistics in Engineering Core Major 3-3-0
Theuseofprobabilitymodelsandstatisticalmethodsforanalyzingdatahasbecomea commonpracticeinvirtuallyallscientificandengineeringdisciplines,especiallyin modernelectrical,electronicandcommunicationsystems.ThiscoursecoversthesubjectssuchasSetTheoryandprobabilityspace,Independenteventsandconditionalprobability,Distributionanddensityfunctionsforrandomvariables,Gaussianrandomvariables,Mean,varianceandcovariance,Momentgeneratingandcharacteristicfunctions,SummationandtransformationofRVs,Jointdistributionanddensityfunctions,Samplingandsample'sdistribution,Pointandintervalestimation,Hypothesistesting,etc.
2 1 ELE4077 The Physics of Solid State Electronics Core Major 3-3-0
As a introduction of lecture about solid-state electronics, after learning the basis of the quantum theory about solid materials, explains device physics in detail. 1. Crystal properties and growth of semiconductors: Semiconductor materials, crystal lattices, bulk crystal growth, epitaxial growth 2. Atoms and electrons: The Bohr model, quantum mechanics, atomic structure and the periodic table 3. Energy bands and charge carriers in semiconductors: Bonding forces and energy bands in solids, charge carriers in semiconductors, carrier concentrations, drift of carriers in electric and magnetic fields, invariance of the Fermi level at equilibrium 4. Excess carriers in semiconductors: Optical absorption, luminescence, carrier lifetime and photoconductivity, diffusion of carriers 5. Junctions Fabrication of p-n junctions, equilibrium conditions, forward- and reverse-biased junctions; steady state conditions, reverse-bias breakdown, transient and A-C conditions, metal-semiconductor junctions, heterojunctions
2 1 PHY2013 ENGINEERING ELECTROMAGNETICS Core Major 3-3-0
This course covers the fundamentals of electromagnetics. The students are assumed to have completed the fundamental physics and calculus courses and, therefore, are expected to be competent at differentiation and integration. In the beginning, the basic vector analysis techniques are studied. The following subjects are covered: Coulomb’s law and electric field; Gauss’s law; electric potential and energy; Poisson’s and Laplace’s equations; dielectrics and conductor; capacitor; magnetostatics and Biot-Savart's law; magnetic vector potential; inductor
2 1 COE3051 Engineering Mathematics 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable.
2 1 CSE2010 Data Structures Core Major 3-3-0
Providesacomprehensiveintroductiontothemodernstudyofcomputeralgorithmsanddatastructure:formalspecificationsandrepresentationoflists,arrays,trees,graphs,andmulti-linkedstructures.Analysisofassociatedalgorithms.Sortingandsearchingfilestructuresandrelationaldatamodels.
2 1 ECC1004 CIRCUIT THEORY 1 Core Major 4-3-2
This course deals with the fundamental characteristics of linear circuits, emphasizing the analysis of simple electric circuits; resistive elements; response of RC, RL and RLC circuits; node voltage and mesh current techniques; superposition theorem and Norton equivalents; sinusoidal steady state response and AC power.
2 1 ELE4077 The Physics of Solid State Electronics Core Major 3-3-0
As a introduction of lecture about solid-state electronics, after learning the basis of the quantum theory about solid materials, explains device physics in detail. 1. Crystal properties and growth of semiconductors: Semiconductor materials, crystal lattices, bulk crystal growth, epitaxial growth 2. Atoms and electrons: The Bohr model, quantum mechanics, atomic structure and the periodic table 3. Energy bands and charge carriers in semiconductors: Bonding forces and energy bands in solids, charge carriers in semiconductors, carrier concentrations, drift of carriers in electric and magnetic fields, invariance of the Fermi level at equilibrium 4. Excess carriers in semiconductors: Optical absorption, luminescence, carrier lifetime and photoconductivity, diffusion of carriers 5. Junctions Fabrication of p-n junctions, equilibrium conditions, forward- and reverse-biased junctions; steady state conditions, reverse-bias breakdown, transient and A-C conditions, metal-semiconductor junctions, heterojunctions
2 1 MAT2003 Linear Algebra Core Major 3-3-0
Inthiscourse,wewillstudythematrixtheorywhichisindispensibletothewholeengineeringandscienceareassuchaselectricalengineering,computerengineering, physics,chemistry,biology,econimics,psychology,etc.ThesubjectscoveredinthiscourseincludeSystemsoflinearequations,Gaussianelimination,Vectorspaces, Fundamentalsupspacesofmatrix,Matrixarithmetic,Determinants,Eigenvaluesandeigenvectors,Orthogonality,Gram-Schmidtorthogonalization,Diagonalization,Similarity,Positivedefinite.
2 1 PHY2013 ENGINEERING ELECTROMAGNETICS Core Major 3-3-0
This course covers the fundamentals of electromagnetics. The students are assumed to have completed the fundamental physics and calculus courses and, therefore, are expected to be competent at differentiation and integration. In the beginning, the basic vector analysis techniques are studied. The following subjects are covered: Coulomb’s law and electric field; Gauss’s law; electric potential and energy; Poisson’s and Laplace’s equations; dielectrics and conductor; capacitor; magnetostatics and Biot-Savart's law; magnetic vector potential; inductor
2 1 COE3051 Engineering Mathematics 1 Basic Major 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable.
2 1 CSE2010 Data Structures Core Major 3-3-0
This course is an introduction to the theory and application of data structures. An important job of many computer programs is the ability to store, update, and process information. If the a large amount of information is not organized properly, then operations on the data can become unreasonably slow. Data structures are a method of organizing information so that important operations can be performed efficiently. This course introduces a variety of data structures and analyzes their efficiency, beginning with basic structures such as linked lists, stacks, and queues. Searchable data structures, such as binary search trees, balanced search trees, and hash tables are introduced followed by priority queue data structures, including binary heaps and mergable heaps. These concepts can then be expanded in more complex data structures, such as disjoint sets and graphs. Finally practical data structures, such as geometric and alphabetic data structures, may be studied.
2 1 ECC1004 CIRCUIT THEORY 1 Core Major 4-3-2
This course is a first part of two semester sequence of Circuit Theory 1 and 2 which covers a fundamental common concepts and methods for analysis and design used in entire branches of electrical engineering such as Communication Systems, Computer Systems, Control Systems, Power Systems and Signal Processing Systems and more. In Circuit Theory 1, the lectures are focused on “the Time Domain Analysis" while the Circuit Theory 2 lectures are extended to “the Frequency Domain Analysis”. Students will study following topics in Circuit Theory 1: ? Voltages and Currents in resistive circuits ? Kirchhoff’s Laws, Nodal and Mesh analysis, Linearity, Thevenin’s and Norton’s Theorems and Source transformation, Maximum power transfer ? Capacitance, Inductance, natural, forced and step responses of RC, RL, RLC circuits as well as sinusoidal responses, phasor notations. ? Introduction to Op Amp After successfully studying the course, the students will be able to: ? Determine the voltage and current in simple resistive networks containing dependent and independent sources by applying a variety of techniques, such as nodal analysis, mesh analysis, source transformation, superposition, and Thevenin’s and Norton’s equivalent circuits. ? Determine natural, forced and step responses of RL, RC, and RLC circuits ? Solve circuit problems containing operational amplifier. ? Carry out the analysis of simple AC circuits.
2 1 ELE4077 The Physics of Solid State Electronics Core Major 3-3-0
As a introduction of lecture about solid-state electronics, after learning the basis of the quantum theory about solid materials, explains device physics in detail. 1. Crystal properties and growth of semiconductors: Semiconductor materials, crystal lattices, bulk crystal growth, epitaxial growth 2. Atoms and electrons: The Bohr model, quantum mechanics, atomic structure and the periodic table 3. Energy bands and charge carriers in semiconductors: Bonding forces and energy bands in solids, charge carriers in semiconductors, carrier concentrations, drift of carriers in electric and magnetic fields, invariance of the Fermi level at equilibrium 4. Excess carriers in semiconductors: Optical absorption, luminescence, carrier lifetime and photoconductivity, diffusion of carriers 5. Junctions Fabrication of p-n junctions, equilibrium conditions, forward- and reverse-biased junctions; steady state conditions, reverse-bias breakdown, transient and A-C conditions, metal-semiconductor junctions, heterojunctions
2 1 MAT2003 Linear Algebra Basic Major 3-3-0
The course covers the basic subjects on matrix theory and linear algebra. Students will study useful topics for other disciplines such as systems of equations, vector spaces, determinants, eigenvalues, similarity, and positive definite matrices. Specifically, students will study following key computations and the ideas behind them: 1. Solving Ax = b for square systems by elimination (pivots, multipliers, back substitution, invertibility of A, factorization into A = LU) 2. Complete solution to Ax = b (column space containing b, rank of A, nullspace of A and special solutions to Ax = 0 from row reduced matrix R) 3. Basis and dimension (bases for the four fundamental subspaces) 4. Least squares solutions (closest line by understanding projections) 5. Orthogonalization by Gram-Schmidt (factorization into A = QR) 6. Properties of determinants (leading to the cofactor formula and the sum over all n! permutations, applications to inv(A) and volume) 7. Eigenvalues and eigenvectors (diagonalizing A, computing powers A^k and matrix exponentials to solve difference and differential equations) 8. Symmetric matrices and positive definite matrices (real eigenvalues and orthogonal eigenvectors, tests for x'Ax ˃ 0, applications) 9. Linear transformations and change of basis (connected to the Singular Value Decomposition - orthonormal bases that diagonalize A) 10. Linear algebra in engineering (graphs and networks, Markov matrices, Fourier matrix, Fast Fourier Transform, linear programming)
2 1 PHY2008 Modern Physics Extended Major 3-3-0
Thespecialrelativistictheoryandthequantumphysics have been introduced to understand thelimitoftheclassicalphysicsand the quantum physics of the quantum structures. Thespecialrelativistictheory,theparticlepropertiesofwaves,thewavepropertiesofparticles,andtheatomicstructure have been described. Theeigenvaluesandtheeigenfunctions of the various quantum structures with different potential well energies have been investigated by using the one-dimensional Schrödingerequation.The energy eigenvalues and energy eigenfunctions of the hydrogen atom have been investigated by using the three-dimensional Schrödingerequation. The formation of the next-generation quantum structure and the fabrication of the electronic and the optoelectronic devices based on the quantum structural materials have been discussed. The quantum physical properties of electronic and optoelectronic devices have been discussed, and the potential applications in the next-generation quantum devices have been are discussed.
2 1 PHY2013 ENGINEERING ELECTROMAGNETICS Core Major 3-3-0
This course covers the fundamentals of electromagnetics. The students are assumed to have completed the fundamental physics and calculus courses and, therefore, are expected to be competent at differentiation and integration. In the beginning, the basic vector analysis techniques are studied. The following subjects are covered: Coulomb’s law and electric field; Gauss’s law; electric potential and energy; Poisson’s and Laplace’s equations; dielectrics and conductor; capacitor; magnetostatics and Biot-Savart's law; magnetic vector potential; inductor
2 2 COE3052 Engineering Mathematics 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 CSE2011 Microprocessor Extended Major 4-3-2
Introductiontomicroprocessorandassemblylanguage.Thiscourseintegrates hardwareandsoftwareforreal-timemicroprocessorbaseddigitalsystems.Topicsincludebasicfunctionalblocksofmicroprocessor,assemblylanguageprogramming,interruptandinput-outputcontrol,developingPCBusingmicroprocessor. For experiments, 8051 which is a single chip microcontroller, will be used. Its internal architecture and instructions will be covered in the class. Simulators and Training Kits will be used for the lab experiments on assembly language programming.
2 2 ECC1006 CIRCUIT THEORY 2 Core Major 3-3-0
This course deals with complex frequency and frequency response; two port and magnetically coupled circuits; Fourier, Fourier transforms and their use in understanding modulation and sampling; Laplace transforms and application to circuit analysis; transfer functions and Bode plots.
2 2 ECE3008 Signals and Systems Core Major 3-3-0
Thiscourseintroducesbasicconceptsin(continuous-timeanddiscrete-time)signals&systemsandtheirassociatedmathemeticalandcomputationltools.Thepurposeofthiscourseistoprovideacommonbackgroundforsubsequentcourseworkinthestudyofcommunications,electroniccircuits,filterdesign,digitalsignalprocessing,andcontrol.Thecontentsofthiscourseincludelinearityandtime-invariance,convolutions,Fourierrepresentations(FourierseriesandFouriertransformation),Laplacetransform,andZtransform,alongwiththeirapplicationstocommunicationsystems,filtersandequalizers,andlinearfeedbacksystems.Also,thegeneralconceptsoncausalityandstability,relatedwithlineartime-invariantsystems,areconsidered.
2 2 ENE4029 Semiconductor Devices Extended Major 3-3-0
Study on the device physics and operation for p-n diode, field-effect transistor, bipolar transistor, and optoelectronic device as a semiconductor device 1. Junction (1) Fabrication of p-n Junctions (2) Equilibrium Conditions (3) Forward- and Reverse-Biased Junctions (4) Reverse-Bias Breakdown (5) Transient and A-C Conditions (6) Metal-Semiconductor Junctions (7) Heterojunctions 2. Field-effect transistor (1) Transistor Operation (2) The Junction FET (3) The Metal-Semiconductor FET (4) The Metal-Insulator-Semiconductor FET (5) The Metal-Oxide-Semiconductor FET 3. Bipolar junction transistor (1) Fundamentals of BJT Operation (2) Amplication with BJTs (3) BJT Fabrication (4) Minority Carrier Distributions and Terminal Currents (5) Generalized Biasing (6) Switching (7) Frequency Limitations of Transistors 4. Optoelectronic devices (1) Photodiodes (2) Light-emitting diodes (3) Lasers (4) Semiconductor lasers
2 2 PHY2014 Field & Wave Electromagnetics Core Major 3-3-0
This course covers Faraday’s Law and displacement current; fundamental concepts of Maxwell’s Equations; basic transmission line theory; basic properties and phenomenon of wave propagation on transmission line; develop equations for wave propagation on a transmission line; investigate wave reflection from terminated transmission line; power transmission and loss characterization; wave reflection at discontinuities; graphical methods and transient analysis; wave propagation; Poynting’s theorem and wave power; skin effect; standing wave ratio theory; plane wave propagation and plane wave reflection; wave propagation and pulse broadening in dispersive media
2 2 SYH0002 GLOBAL LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Global Leadership(HELP2) is the core course for sophomores. In the 21st century, we are moving into a global society where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital convergence is occurring. Global leaders are the key to success for all organizations. In the global society, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners and Global Mindset. Hanyang University students will be global leaders through HELP2.
2 2 COE3052 Engineering Mathematics 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 CSE2011 Microprocessor Extended Major 4-3-2
Introductiontomicroprocessorandassemblylanguage.Thiscourseintegrates hardwareandsoftwareforreal-timemicroprocessorbaseddigitalsystems.Topicsincludebasicfunctionalblocksofmicroprocessor,assemblylanguageprogramming,interruptandinput-outputcontrol,developingPCBusingmicroprocessor. For experiments, 8051 which is a single chip microcontroller, will be used. Its internal architecture and instructions will be covered in the class. Simulators and Training Kits will be used for the lab experiments on assembly language programming.
2 2 ECC1006 CIRCUIT THEORY 2 Core Major 3-3-0
This course deals with complex frequency and frequency response; two port and magnetically coupled circuits; Fourier, Fourier transforms and their use in understanding modulation and sampling; Laplace transforms and application to circuit analysis; transfer functions and Bode plots.
2 2 ECE3008 Signals and Systems Core Major 3-3-0
Thiscourseintroducesbasicconceptsin(continuous-timeanddiscrete-time)signals&systemsandtheirassociatedmathemeticalandcomputationltools.Thepurposeofthiscourseistoprovideacommonbackgroundforsubsequentcourseworkinthestudyofcommunications,electroniccircuits,filterdesign,digitalsignalprocessing,andcontrol.Thecontentsofthiscourseincludelinearityandtime-invariance,convolutions,Fourierrepresentations(FourierseriesandFouriertransformation),Laplacetransform,andZtransform,alongwiththeirapplicationstocommunicationsystems,filtersandequalizers,andlinearfeedbacksystems.Also,thegeneralconceptsoncausalityandstability,relatedwithlineartime-invariantsystems,areconsidered.
2 2 ECR2001 Probability & Statistics in Engineering Core Major 3-3-0
Theuseofprobabilitymodelsandstatisticalmethodsforanalyzingdatahasbecomea commonpracticeinvirtuallyallscientificandengineeringdisciplines,especiallyin modernelectrical,electronicandcommunicationsystems.ThiscoursecoversthesubjectssuchasSetTheoryandprobabilityspace,Independenteventsandconditionalprobability,Distributionanddensityfunctionsforrandomvariables,Gaussianrandomvariables,Mean,varianceandcovariance,Momentgeneratingandcharacteristicfunctions,SummationandtransformationofRVs,Jointdistributionanddensityfunctions,Samplingandsample'sdistribution,Pointandintervalestimation,Hypothesistesting,etc.
2 2 ENE4029 Semiconductor Devices Extended Major 3-3-0
Study on the device physics and operation for p-n diode, field-effect transistor, bipolar transistor, and optoelectronic device as a semiconductor device 1. Junction (1) Fabrication of p-n Junctions (2) Equilibrium Conditions (3) Forward- and Reverse-Biased Junctions (4) Reverse-Bias Breakdown (5) Transient and A-C Conditions (6) Metal-Semiconductor Junctions (7) Heterojunctions 2. Field-effect transistor (1) Transistor Operation (2) The Junction FET (3) The Metal-Semiconductor FET (4) The Metal-Insulator-Semiconductor FET (5) The Metal-Oxide-Semiconductor FET 3. Bipolar junction transistor (1) Fundamentals of BJT Operation (2) Amplication with BJTs (3) BJT Fabrication (4) Minority Carrier Distributions and Terminal Currents (5) Generalized Biasing (6) Switching (7) Frequency Limitations of Transistors 4. Optoelectronic devices (1) Photodiodes (2) Light-emitting diodes (3) Lasers (4) Semiconductor lasers
2 2 PHY2014 Field & Wave Electromagnetics Core Major 3-3-0
This course covers Faraday’s Law and displacement current; fundamental concepts of Maxwell’s Equations; basic transmission line theory; basic properties and phenomenon of wave propagation on transmission line; develop equations for wave propagation on a transmission line; investigate wave reflection from terminated transmission line; power transmission and loss characterization; wave reflection at discontinuities; graphical methods and transient analysis; wave propagation; Poynting’s theorem and wave power; skin effect; standing wave ratio theory; plane wave propagation and plane wave reflection; wave propagation and pulse broadening in dispersive media
2 2 SYH0002 GLOBAL LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Global Leadership(HELP2) is the core course for sophomores. In the 21st century, we are moving into a global society where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital convergence is occurring. Global leaders are the key to success for all organizations. In the global society, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners and Global Mindset. Hanyang University students will be global leaders through HELP2.
2 2 COE3052 Engineering Mathematics 2 Basic Major 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 CSE2011 Microprocessor Extended Major 4-3-2
This course is an introduction to the structure, assembly language, and interface of microprocessors. Microprocessors and microcontrollers are at the center of most computer hardware systems, including desktop computers, smart phones, and embedded systems. They perform procedural logic, calculate arithmetic, and manage the devices connected to the system. These functions can directed using assembly language. This course gives an overview of the registers, bus system, and system of interrupts used by a typical microprocessor. Examples of RISC and CISC Architectures, such as Intel 8086, ARM, and 8051 are introduced, and the assembly languages used by these microprocessors are studied. This course includes a laboratory component, where the 8051 assembly language is studied in detail. During the laboratory, the 8051 microprocessor is connected to various devices, and those devices are controlled using assembly language. The laboratory culminates in a final project, where several devices are coordinated together, creating a larger system.
2 2 ECC1006 CIRCUIT THEORY 2 Core Major 3-3-0
This course deals with sinusoidal steady-state analysis, AC circuit power analysis, polyphase circuit, complex frequency and Laplace transform, circuit anaysis in the s-domain, freqency response and two port network. In sinosodial steady-state analysis, the concept of phase is introduced, and the circuit analysis using phase concept is reviewed. In AC power anaysis, several type of powers in AC circuit are introduced. In polyphase circuits, various polyphase systems are explained. In complex frequecny and Laplace transform, the concept of complex frequency is introduced, and the new analysis method based on Laplace tranform is explained. In circuit analysis in the s-domain, several analysis methods in the s-domain are introduced. Here, the concept of convolution is explained, too. In frequency response, the response characteristic in resonance circuit is reviewed, and the bode diagram is introduced. The design of basic and advanced filter is performed, too. In two-port networks, the two port system is introduced, and several parameters such as admittance, impedence, hybrid and transmission are explained for better understanding the two port system.
2 2 ECE3008 Signals and Systems Core Major 3-3-0
Thiscourseintroducesbasicconceptsin(continuous-timeanddiscrete-time)signals&systemsandtheirassociatedmathemeticalandcomputationltools.Thepurposeofthiscourseistoprovideacommonbackgroundforsubsequentcourseworkinthestudyofcommunications,electroniccircuits,filterdesign,digitalsignalprocessing,andcontrol.Thecontentsofthiscourseincludelinearityandtime-invariance,convolutions,Fourierrepresentations(FourierseriesandFouriertransformation),Laplacetransform,andZtransform,alongwiththeirapplicationstocommunicationsystems,filtersandequalizers,andlinearfeedbacksystems.Also,thegeneralconceptsoncausalityandstability,relatedwithlineartime-invariantsystems,areconsidered.
2 2 ENE4029 Semiconductor Devices Extended Major 3-3-0
Study on the device physics and operation for p-n diode, field-effect transistor, bipolar transistor, and optoelectronic device as a semiconductor device 1. Junction (1) Fabrication of p-n Junctions (2) Equilibrium Conditions (3) Forward- and Reverse-Biased Junctions (4) Reverse-Bias Breakdown (5) Transient and A-C Conditions (6) Metal-Semiconductor Junctions (7) Heterojunctions 2. Field-effect transistor (1) Transistor Operation (2) The Junction FET (3) The Metal-Semiconductor FET (4) The Metal-Insulator-Semiconductor FET (5) The Metal-Oxide-Semiconductor FET 3. Bipolar junction transistor (1) Fundamentals of BJT Operation (2) Amplication with BJTs (3) BJT Fabrication (4) Minority Carrier Distributions and Terminal Currents (5) Generalized Biasing (6) Switching (7) Frequency Limitations of Transistors 4. Optoelectronic devices (1) Photodiodes (2) Light-emitting diodes (3) Lasers (4) Semiconductor lasers
2 2 MAT3008 Numerical Analysis Core Major 3-3-0
Course overview and topics here (more than 120 words and less than 150 words). Numerical methods became indispensable and extremely powerful tools for various types of problem-solving techniques capable of handling large systems of equations, nonlinearities, and complicated integral problems. This course is designed mainly for electrical engineering major students. The topics that will be covered are various types of errors commonly occurs in numerical procedures, roots of equations, linear algebraic equations, eigenvalues and eigenvectors, curve fitting and interpolation, numerical differentiation and integration, initial value problems for ordinary differential equations, and boundary value problems for ordinary differential equations. Students are expected to complete a significant amount of programming assignments in order to improve their understanding and programming skills in solving engineering problems numerically.
2 2 PHY2014 Field & Wave Electromagnetics Core Major 3-3-0
This course covers Faraday’s Law and displacement current; fundamental concepts of Maxwell’s Equations; basic transmission line theory; basic properties and phenomenon of wave propagation on transmission line; develop equations for wave propagation on a transmission line; investigate wave reflection from terminated transmission line; power transmission and loss characterization; wave reflection at discontinuities; graphical methods and transient analysis; wave propagation; Poynting’s theorem and wave power; skin effect; standing wave ratio theory; plane wave propagation and plane wave reflection; wave propagation and pulse broadening in dispersive media
2 2 SYH0002 GLOBAL LEADERSHIP Compulsory General Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Hanyang Leadership(HELP2) is the core course for Sophomores. In the 21st century, we are moving into a global soceity where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital Convergence is occurring. Global leaders are the key to success for all organizations. In a global soceity, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners, and Global Mindset. Hanyang university students will be global leaders through HELP2.
3 1 COE1010 Practical Engineering Research Initiative 1 Extended Major 1-0-2
nthiscourse,studentscanparticipateinresearchprojectsofprofessors.Studentwhochoseone projectsamongothersproposedbyteachermakeshis/herownspecifiedproposalforthestudy, thendotheresearchduringtheterm.Studentswillpresenthisresearchresultattheendoftheterm. Thecoursestressescreativethinkingandresearchexprience. ThecourseopenstoshopomorestoJuniorsandcanbetakennomorethan4terms. AchievementoftheclassisevaluatedwithPassorFail.
3 1 ELE3021 Operating Systems Extended Major 4-3-2
Theobjectiveofthisclass(course)istoprovidethestudentthebasicconceptsinoperatingsystemsandimplementationdetails.Operatingsystemsconsistsofseveralkeyissuessuchasprocessmanagement,memorymanagement,filesystemmanagement,I/Osubsystem.Inthisclass(course),wewillexaminethedetailsofeachissues.Thoughthevariousassignments,studentwillbegivenanopportunitytoimplementthebasicconceptsoftheoperatingsystemfeatures.Studentsareexpectedtohavetakencoursesaboutdatastructures.
3 1 ELE3067 Integrated Circuit Devices Extended Major 3-3-0
The purpose of this lecture is to learn about device physics, and fabrication process for nano-electron devices as belows : I. System LSI : strained-Si-channel SOI CMOSFET, Fin-FETs and other Multi-gate transistors. II. Volatile Memory : Dynamic random-access memory (DRAM), Cap-less memory III. Non-volatile Memory : NAND flash memory, Nano-Floating Gate memory (NFGM), Tunnel-Barrier-engineered memory (TBM), Polymer memory (PoRAM), Resistive change memory (ReRAM), Phase change memory (PCRAM), Spin-torque magnetic random-access-memory (STT-MRAM) IV. Emerging Devices : Single electron transistor (SET), Molecular device, CNT devices.
3 1 ELE3074 MICROELECTRONICCIRCUITS 1 Core Major 4-3-2
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3 1 ELE3076 DIGITAL SIGNAL PROCESSING 1 Core Major 4-3-2
Thiscoursecoversthebasicandfundamentaldigitalsignalprocessingtechniquesintimeandfrequencydomain;analog-to-digitalsignalconversion,symbolizationofdigitalsignal,digitalsignalfiltering,analysisofdiscrete-timeFourierTransformanditsdifference,FIR/IIRfilterdesigntechniques,andderivationofFFT.Design Project: Practicalskillsaboutthelecturedtheoryaredealtthroughcomputerprogramming by using Matlab.
3 1 ELE4033 Microwave Circuit Design Extended Major 4-3-2
Thiscoursecoverstheoryanddesigntechniquesformicrowavedevices:transmission-linetheory,microwavenetworkanalysisincludingascattering-parameter,methodsofimpedancematchingandtuning,powerdividersanddirectionalcouplers,andmicrowavefilters. Also, the designtechniquesforactivedevicesincludingmixersandamplifierswillbeprovided. Alloftheorieswillbeexaminedandtrainedwithamodernmicrowavesimulator,Agilent‘sADS. Studentswillhaveexperienceforamicrowavecircuitsimulation,optimization,andlayoutprocess.
3 1 ELE4083 Introduction to Information Display Engineering Extended Major 3-3-0
In the course of Introduction to Information Display Engineering, we study the operation principles and fabrication processes related subjects of LCD, PDP, organic EL, and FED such as the physics and display modes of liquid crystals, operation principles and fabrication processes of color TFT-LCD, amorphous silicon TFT, poly-Si TFT, the operation principle of PDPs, the fabrication process and driving method of PDP, operation principle and fabrication process of OLED, and operation principle and fabrication process of FED.
3 1 ENE1004 Computer Architecture Core Major 3-3-0
This course will mainly cover design issues on processor architecture and assembly programming. Especially, this course will focus on HW/SW interfaces of computer processors. First we will discuss major components of a RISC processor such as ALU, register file, memory and interconnection logic. Then practices on assembly language programming will follow. Concepts on cycle-by-cycle execution, pipelining, cache and virtual memory systems will be discussed. Next, I/O systems including interrupt handling and DMA will be studied. Using Verilog HDL, a simple 8-bit processor will be designed as an assignment.
3 1 GEN5026 Techno-Business Administration (Compulsory) Requirement in Fundamental Studies 3-2-2
The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc.
3 1 GEN6094 Fieldwork 1 Extended Major 3-0-3
The course of major field training is provided to supplement and compensate the regular theoretical lecture and strengthen the practical education, practising the practical work on the spot. This on the job training program increase and develop the ability to adapt to understand the state of the art technology and industrial trends. This course helps the student to be a specialist in electrical engineering.
3 1 ITE3013 Random Process Extended Major 3-3-0
Thiscourseintroducesanalysistechniquesforrandomsignalsembeddedinnoisegeneratedbydigitalcommunicationelements.Topicscoveredinclude:randomvariables,randomprocesses,andoptimumreceivers.Detailedtopicsincludeprobabilisticanalysistechniquesforrandomsignals,correlationfunctionsandspectraldensityfunctions,whitenoise,matchedfilter,Wienerfilter,modelingandcomputersimulationsforprobabilisticphenomena,andsignalestimationanddetection.
3 1 MAT2003 Linear Algebra Core Major 3-3-0
Inthiscourse,wewillstudythematrixtheorywhichisindispensibletothewholeengineeringandscienceareassuchaselectricalengineering,computerengineering, physics,chemistry,biology,econimics,psychology,etc.ThesubjectscoveredinthiscourseincludeSystemsoflinearequations,Gaussianelimination,Vectorspaces, Fundamentalsupspacesofmatrix,Matrixarithmetic,Determinants,Eigenvaluesandeigenvectors,Orthogonality,Gram-Schmidtorthogonalization,Diagonalization,Similarity,Positivedefinite.
3 1 COE1010 Practical Engineering Research Initiative 1 Extended Major 1-0-2
Discrete Fourier Transform (DFT) 이론 및 응용, 그리고 디지털 필터 설계 공정을 복습하고, 2-D 신호처리 기술에 대해 학습한다. 랜덤 신호처리 알고리즘 및 응용에 대해 학습한다. Various theories and applications of Discrete Fourier Transform (DFT), and digital filter design mothods are reveiwed. 2-D signal processing techniques are studied. Random signal processing algorithms and applications are examined.
3 1 ELE3021 Operating Systems Extended Major 4-3-2
Theobjectiveofthisclass(course)istoprovidethestudentthebasicconceptsinoperatingsystemsandimplementationdetails.Operatingsystemsconsistsofseveralkeyissuessuchasprocessmanagement,memorymanagement,filesystemmanagement,I/Osubsystem.Inthisclass(course),wewillexaminethedetailsofeachissues.Thoughthevariousassignments,studentwillbegivenanopportunitytoimplementthebasicconceptsoftheoperatingsystemfeatures.Studentsareexpectedtohavetakencoursesaboutdatastructures.
3 1 ELE3067 Integrated Circuit Devices Extended Major 3-3-0
The purpose of this lecture is to learn about device physics, and fabrication process for nano-electron devices as belows : I. System LSI : strained-Si-channel SOI CMOSFET, Fin-FETs and other Multi-gate transistors. II. Volatile Memory : Dynamic random-access memory (DRAM), Cap-less memory III. Non-volatile Memory : NAND flash memory, Nano-Floating Gate memory (NFGM), Tunnel-Barrier-engineered memory (TBM), Polymer memory (PoRAM), Resistive change memory (ReRAM), Phase change memory (PCRAM), Spin-torque magnetic random-access-memory (STT-MRAM) IV. Emerging Devices : Single electron transistor (SET), Molecular device, CNT devices.
3 1 ELE3074 MICROELECTRONICCIRCUITS 1 Core Major 4-3-2
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3 1 ELE3076 DIGITAL SIGNAL PROCESSING 1 Core Major 4-3-2
Thiscoursecoversthebasicandfundamentaldigitalsignalprocessingtechniquesintimeandfrequencydomain;analog-to-digitalsignalconversion,symbolizationofdigitalsignal,digitalsignalfiltering,analysisofdiscrete-timeFourierTransformanditsdifference,FIR/IIRfilterdesigntechniques,andderivationofFFT.Design Project: Practicalskillsaboutthelecturedtheoryaredealtthroughcomputerprogramming by using Matlab.
3 1 ELE3079 INTRODUCTION TO CONTROL SYSTEMS Extended Major 2-2-0
This course is about the analysis and design of control systems with emphasis on system modeling, state space representation, and modern design principles: More specifically, Introduction to applied linear algebra and linear dynamical systems, with applications to circuits, signal processing, communications, and control systems, Theory of continuous-time/discrete-time linear time-invariant systems, Laplace and Z-Transforms, Eigenvalues and eigenvectors and dynamical interpretation, Matrix exponential, stability, and asymptotic behavior, Matrix exponential and its relationship to time response, Controllability and observability, Transfer function and state space models for system analysis and synthesis, Pole locations and relationship to time response, Root locus methods, Feedback, Review of single-input single-output (SISO) analysis and control methods in the frequency domain, and SISO analysis and control using state space models. Computer simulation using Matlab.
3 1 ELE4033 Microwave Circuit Design Extended Major 4-3-2
Thiscoursecoverstheoryanddesigntechniquesformicrowavedevices:transmission-linetheory,microwavenetworkanalysisincludingascattering-parameter,methodsofimpedancematchingandtuning,powerdividersanddirectionalcouplers,andmicrowavefilters. Also, the designtechniquesforactivedevicesincludingmixersandamplifierswillbeprovided. Alloftheorieswillbeexaminedandtrainedwithamodernmicrowavesimulator,Agilent‘sADS. Studentswillhaveexperienceforamicrowavecircuitsimulation,optimization,andlayoutprocess.
3 1 ELE4083 Introduction to Information Display Engineering Extended Major 3-3-0
This course covers current display Technologies, TFT-LCD, OLED as well as future display technologies such as flexible display and holography. Understand the principles of display operation, structure, materials and driving method will be explained.
3 1 ENE1004 Computer Architecture Core Major 3-3-0
This course will mainly cover design issues on processor architecture and assembly programming. Especially, this course will focus on HW/SW interfaces of computer processors. First we will discuss major components of a RISC processor such as ALU, register file, memory and interconnection logic. Then practices on assembly language programming will follow. Concepts on cycle-by-cycle execution, pipelining, cache and virtual memory systems will be discussed. Next, I/O systems including interrupt handling and DMA will be studied. Using Verilog HDL, a simple 8-bit processor will be designed as an assignment.
3 1 GEN5026 Techno-Business Administration(Startup Capstone Design) (Compulsory) Requirement in Fundamental Studies 3-3-0
The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc.
3 1 GEN6094 Fieldwork 1 Extended Major 3-0-3
The course of major field training is provided to supplement and compensate the regular theoretical lecture and strengthen the practical education, practising the practical work on the spot. This on the job training program increase and develop the ability to adapt to understand the state of the art technology and industrial trends. This course helps the student to be a specialist in electrical engineering.
3 1 ITE3013 Random Process Extended Major 3-3-0
Thiscourseintroducesanalysistechniquesforrandomsignalsembeddedinnoisegeneratedbydigitalcommunicationelements.Topicscoveredinclude:randomvariables,randomprocesses,andoptimumreceivers.Detailedtopicsincludeprobabilisticanalysistechniquesforrandomsignals,correlationfunctionsandspectraldensityfunctions,whitenoise,matchedfilter,Wienerfilter,modelingandcomputersimulationsforprobabilisticphenomena,andsignalestimationanddetection.
3 1 COE1010 Practical Engineering Research Initiative 1 Extended Major 1-0-2
Discrete Fourier Transform (DFT) 이론 및 응용, 그리고 디지털 필터 설계 공정을 복습하고, 2-D 신호처리 기술에 대해 학습한다. 랜덤 신호처리 알고리즘 및 응용에 대해 학습한다. Various theories and applications of Discrete Fourier Transform (DFT), and digital filter design mothods are reveiwed. 2-D signal processing techniques are studied. Random signal processing algorithms and applications are examined.
3 1 ELE3021 Operating Systems Extended Major 4-3-2
This course is a historical and practical overview of various operating systems concepts. An operating system is a central software component of any general purpose computer, as well as many special purpose computers. The operation of hardware, that would otherwise be overly complex, is simplified and standardized with an operating system. This course begins with a review of several historical operating systems, such as CP/M, Palm OS, and Mac OS. These operating systems inspired the introduction of many common operating system features, and these features are then studied in this course. These include process management, memory management, file systems, disk management, multitasking, multithreading, inter-process communication, deadlock avoidance, virtual memory, input/output device management, multiple users, and security. These features are commonly found in modern operating systems, including Microsoft Windows, Macintosh OS X, and Linux. The course includes a laboratory component, where the Linux operating system is studied in depth.
3 1 ELE3067 Integrated Circuit Devices Extended Major 3-3-0
The purpose of this lecture is to learn about device physics, and fabrication process for nano-electron devices as belows : I. System LSI : strained-Si-channel SOI CMOSFET, Fin-FETs and other Multi-gate transistors. II. Volatile Memory : Dynamic random-access memory (DRAM), Cap-less memory III. Non-volatile Memory : NAND flash memory, Nano-Floating Gate memory (NFGM), Tunnel-Barrier-engineered memory (TBM), Polymer memory (PoRAM), Resistive change memory (ReRAM), Phase change memory (PCRAM), Spin-torque magnetic random-access-memory (STT-MRAM) IV. Emerging Devices : Single electron transistor (SET), Molecular device, CNT devices.
3 1 ELE3074 MICROELECTRONICCIRCUITS 1 Core Major 4-3-2
In this course, students study the operational principle of electronic devices such as pn junction diodes, BJT and MOSFETs and the design and analysis of electronic circuits. This course will be comprised of familiar lecture style classes, and students are expected to get more detailed understanding of circuit operation through computer simulation homeworks.
3 1 ELE3076 DIGITAL SIGNAL PROCESSING 1 Core Major 4-3-2
This course covers the basic and fundamental digital signal processing techniques in time and frequency domain. Analog-to-digital signal conversion, symbolization of digital signal. Sampling and Reconstruction of continuous time signals, Characterization and properties of discrete time signals and systems, Computation of discrete time Fourier transform and its properties. Especially the relationship between time domain and frequency domain. The purpose of this course is to provide a common background for subsequent course work in the study of Digital signal processing. The contents of this course include digital signal filtering, analysis of discrete-time Fourier transform and its difference, FIR/IIR filter design techniques, and derivation of Laplace transform and Z transform. Project : Basic coding techniques about the lectured theory are dealt through computer programming by using Matlab.
3 1 ELE3079 INTRODUCTION TO CONTROL SYSTEMS Extended Major 3-3-0
This course is about the analysis and design of control systems with emphasis on system modeling, state space representation, and modern design principles: More specifically, Introduction to applied linear algebra and linear dynamical systems, with applications to circuits, signal processing, communications, and control systems, Theory of continuous-time/discrete-time linear time-invariant systems, Laplace and Z-Transforms, Eigenvalues and eigenvectors and dynamical interpretation, Matrix exponential, stability, and asymptotic behavior, Matrix exponential and its relationship to time response, Controllability and observability, Transfer function and state space models for system analysis and synthesis, Pole locations and relationship to time response, Root locus methods, Feedback, Review of single-input single-output (SISO) analysis and control methods in the frequency domain, and SISO analysis and control using state space models. Computer simulation using Matlab.
3 1 ELE4033 Microwave Circuit Design Extended Major 4-3-2
Thiscoursecoverstheoryanddesigntechniquesformicrowavedevices:transmission-linetheory,microwavenetworkanalysisincludingascattering-parameter,methodsofimpedancematchingandtuning,powerdividersanddirectionalcouplers,andmicrowavefilters. Also, the designtechniquesforactivedevicesincludingmixersandamplifierswillbeprovided. Alloftheorieswillbeexaminedandtrainedwithamodernmicrowavesimulator,Agilent‘sADS. Studentswillhaveexperienceforamicrowavecircuitsimulation,optimization,andlayoutprocess.
3 1 ENE1004 Computer Architecture Core Major 3-3-0
This course will mainly cover design issues on processor architecture and assembly programming. Especially, this course will focus on HW/SW interfaces of computer processors. First we will discuss major components of a RISC processor such as ALU, register file, memory and interconnection logic. Then practices on assembly language programming will follow. Concepts on cycle-by-cycle execution, pipelining, cache and virtual memory systems will be discussed. Next, I/O systems including interrupt handling and DMA will be studied. Using Verilog HDL, a simple 8-bit processor will be designed as an assignment.
3 1 GEN5026 Techno-Business Administration(Startup Capstone Design) Compulsory General Studies 3-3-0
Techno-business Administration is a practical and strategic course for producing techno-leaders of the New Millennium that the university pursues strategically. In this course, students will learn business process from the discovery of business items to sales through project based class. Through this, students develop entrepreneurship and collaboration ability and understand business process of enterprise through practice as well as theory.
3 1 ITE3013 Random Process Extended Major 3-3-0
Thiscourseintroducesanalysistechniquesforrandomsignalsembeddedinnoisegeneratedbydigitalcommunicationelements.Topicscoveredinclude:randomvariables,randomprocesses,andoptimumreceivers.Detailedtopicsincludeprobabilisticanalysistechniquesforrandomsignals,correlationfunctionsandspectraldensityfunctions,whitenoise,matchedfilter,Wienerfilter,modelingandcomputersimulationsforprobabilisticphenomena,andsignalestimationanddetection.
3 2 COE1011 Practical Engineering Research Initiative 2 Extended Major 1-0-2
nthiscourse,studentscanparticipateinresearchprojectsofprofessors.Studentwhochoseone projectsamongothersproposedbyteachermakeshis/herownspecifiedproposalforthestudy, thendotheresearchduringtheterm.Studentswillpresenthisresearchresultattheendoftheterm. Thecoursestressescreativethinkingandresearchexprience. ThecourseopenstoshopomorestoJuniorsandcanbetakennomorethan4terms. AchievementoftheclassisevaluatedwithPassorFail.
3 2 ECE4024 Optoelectronics Extended Major 4-3-2
Light has some unique characteristics such as extremely fast propagation velocities and non-interference characteristics to EM waves. Because of the possibility of the parallel processes, light is widely used as a signal source for broad-band and high-speed communication systems. Moreover, optical and optoelectronic devices are currently researched and applied as high efficient sensors to various industries including medical and military equipments, because the devices have many kinds of superior characteristics such as extremely small dimensions, light weights, and contactless characteristics. Optoelectronics is one of the fusion electronics courses, and it is based on the basic knowledges of Electromagnetic Waves, Modern Physics, and Semiconductor Physics. This course includes the advanced Electromagnetic theory, the basic theory of Quantum Physics, and the basic operating principles of Semiconductor Lasers, Photodetectors, and Optical Modulators.
3 2 ELE3039 Algorithm Extended Major 3-3-0
Theobjectiveofthisclass(course)istoprovidethestudentthefundamentalconceptsandtechniquesforalgorithmdesignissues.Inthisclass(course),wewillcovervariousalgorithmschemessuchasDivide-and-Conquer,dynamicprogramming,greedymethod,graphsearching,Non-DeterministicPolynomialalgorithmandelementarynumber-theoreticalgorithm.Inadditiontolectures,studentswillcarryoutvariousprogrammingassignmentsrelatedtoeachissues.Studentsareexpectedtotakedatastructuresbeforeattendingthisclass.
3 2 ELE3075 MICROELECTRONICCIRCUITS 2 Core Major 4-3-2
Based on the basic understanding on microelectronics obtained through the class "Microelectronics 1", this class covers more detailed techniques of microelectronics. Various schemes to improve the performance of amplifiers are learned. The operation of circuits is analyzed as a function of frequency and the technique of feedback is learned. Power stages to deliver power, analog filter, and digital CMOS circuits are learned as well. This class includes experimental labs which provides opportunity to implement various circuits in line with the lecture schedule.
3 2 ELE3077 DIGITAL SIGNAL PROCESSING 2 Core Major 4-3-2
This course covers the basic and fundamental digital signal processing techniques in time and frequency domains; analog-to-digital signal conversion, symbolization of digital signal, digital signal filtering, analysis of discrete-time FourierTransform and its difference, FIR/IIR filter design techniques, and derivation of FFT. Design Project: Practical skills about the lectured theory are dealt through computer programming by using Matlab.
3 2 ELE3079 INTRODUCTION TO CONTROL SYSTEMS Extended Major 2-2-0
This course is about the analysis and design of control systems with emphasis on system modeling, state space representation, and modern design principles: More specifically, Introduction to applied linear algebra and linear dynamical systems, with applications to circuits, signal processing, communications, and control systems, Theory of continuous-time/discrete-time linear time-invariant systems, Laplace and Z-Transforms, Eigenvalues and eigenvectors and dynamical interpretation, Matrix exponential, stability, and asymptotic behavior, Matrix exponential and its relationship to time response, Controllability and observability, Transfer function and state space models for system analysis and synthesis, Pole locations and relationship to time response, Root locus methods, Feedback, Review of single-input single-output (SISO) analysis and control methods in the frequency domain, and SISO analysis and control using state space models. Computer simulation using Matlab.
3 2 ELE3080 Design and Process of Display Extended Major 4-3-2
This class introduces the overall review of manufacturing process for information display such as PDP, LCD, and OLED. In this subject, based on optics of the display, the design of pixel on display panel by computer simulation will be performed and the electrical, chemical, physical properties of materials used on manufacturing will be studied. Also, various thin film development process and patterning techniques will be reviewed. Throughthe understanding of factors for evaluating display device performance like contrast ratio, response time, brightness and stability, the basic assessing ability for various display devices will be obtained.
3 2 ELE3081 VLSI Engineering Extended Major 3-3-0
In this lecture we study VLSI Design Method while VLSI Engineering consists of 2 phases,Design and Manufacturing ones Whether digital systems are high speed,high density and low power,CMOS technology find ubiquitous use in majory in the majority of leading edge commercial applications. MOSFET is clarified for giving the concept of basic electrical characterristics including AC and DC ones in CMOS Modern process in producing VLSI are concurrently undergoing with Design and Manufacturing so that a process technology of CMOS should be understood for more design optimization. To calculate the operating speed,chip area and power consumption in CMOS,Logical Effort concept with a delayed model are used. Interconction and wiring model in CMOS are given tfor the calculations. SPICE simulation is done for comparing with the above result All kind of CMOS circuit technologies are surveyed in terms of operating speed,area and power consumption in the combinational and sequential logic circuits CAD Tools for design automation are explained
3 2 ELE4031 Communication System Extended Major 3-3-0
The object of this course is to enhance student's capability of extending theories to practical agenda for wireless communication system designs. This course is structured as a senior-level design course emphasizing fundamental communication principles and their applications to modern wireless communication systems. Students are required to have backgrounds in fundamental theories of signals and systems, random process, and communication systems. By taking this course, students can improve their capabilities to analyze and design the communication systems appropriate to future needs.
3 2 ENE4019 Computer Networks Extended Major 3-3-0
This lecture introduces the basic concepts of computer and data communications, and discusses core functionalities, protocols, and standards related to computernetworks. The main topics of this lecture include network router architectures, control protocols (flow control, congestion control, etc.), and communication protocols (LAN, MAN, WAN, etc.).
3 2 GEN6095 Fieldwork 2 Extended Major 3-0-3
The course of major field training is provided to supplement and compensate the regular theoretical lecture and strengthen the practical education, practising the practical work on the spot. This on the job training program increase and develop the ability to adapt to understand the state of the art technology and industrial trends. This course helps the student to be a specialist in electrical engineering.
3 2 MAT3008 Numerical Analysis Extended Major 3-3-0
This course introduce students to the algorithms and methods that are commonly needed in many different disciplines of applications of scientific computing. To do so, we cover the basics of numerical methods through to intermediate level by the extensive practice in both language level and package level.
3 2 SYH0003 BUSINESS LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management.
3 2 COE1011 Practical Engineering Research Initiative 2 Extended Major 1-0-2
본과목은3학년까지배운전공지식을기반으로창의력및응용력을기르기위한과목으로3학년동계방학과함께시작한다.매년11월말까지수행하고자하는설계주제를학생이제안하거나교수들이제안한주제중에서학생이선택한다.각설계주제에대한인원은1명이상3명이내로하며1반당인원을30명으로제한한다.수업방법은1시간강의와3시간실험으로하며강의는설계에대한이론및응용에대하여설명하고학생은교수의강의를기초로창의성을발휘하여설계및실험을수행한다.작품이완료된후에는관련교수전원의평가를받도록한다.본과목은졸업작품과연계하여실시하며,그결과물인작품및논문은학생의능력을증명하는자료로진학및취업의제출자료로이용할수있다.
3 2 ECE3004 Antenna Engineering Extended Major 4-3-2
Thiscoursewill covertheoryanddesigntechniquesforvarious antennas: antenna fundamentals and definitions, some simple radiation systems and antennas, arrays, line sources, resonant antennas, broadband antennas, and apperture antennas. Alloftheories and various examples willbeexaminedandtrainedwithaHigh Frequency Structure Simulator (HFSS).
3 2 ECE4024 Optoelectronics Extended Major 4-3-2
Light has some unique characteristics such as extremely fast propagation velocities and non-interference characteristics to EM waves. Because of the possibility of the parallel processes, light is widely used as a signal source for broad-band and high-speed communication systems. Moreover, optical and optoelectronic devices are currently researched and applied as high efficient sensors to various industries including medical and military equipments, because the devices have many kinds of superior characteristics such as extremely small dimensions, light weights, and contactless characteristics. Optoelectronics is one of the fusion electronics courses, and it is based on the basic knowledges of Electromagnetic Waves, Modern Physics, and Semiconductor Physics. This course includes the advanced Electromagnetic theory, the basic theory of Quantum Physics, and the basic operating principles of Semiconductor Lasers, Photodetectors, and Optical Modulators.
3 2 ELE3039 Algorithm Extended Major 3-3-0
Theobjectiveofthisclass(course)istoprovidethestudentthefundamentalconceptsandtechniquesforalgorithmdesignissues.Inthisclass(course),wewillcovervariousalgorithmschemessuchasDivide-and-Conquer,dynamicprogramming,greedymethod,graphsearching,Non-DeterministicPolynomialalgorithmandelementarynumber-theoreticalgorithm.Inadditiontolectures,studentswillcarryoutvariousprogrammingassignmentsrelatedtoeachissues.Studentsareexpectedtotakedatastructuresbeforeattendingthisclass.
3 2 ELE3075 MICROELECTRONICCIRCUITS 2 Core Major 4-3-2
Based on the basic understanding on microelectronics obtained through the class "Microelectronics 1", this class covers more detailed techniques of microelectronics. Various schemes to improve the performance of amplifiers are learned. The operation of circuits is analyzed as a function of frequency and the technique of feedback is learned. Power stages to deliver power, analog filter, and digital CMOS circuits are learned as well. This class includes experimental labs which provides opportunity to implement various circuits in line with the lecture schedule.
3 2 ELE3077 DIGITAL SIGNAL PROCESSING 2 Core Major 4-3-2
Thiscoursecoversthebasicandfundamentaldigitalsignalprocessingtechniquesintimeandfrequencydomain;analog-to-digitalsignalconversion,symbolizationofdigitalsignal,digitalsignalfiltering,analysisofdiscrete-timeFourierTransformanditsdifference,FIR/IIRfilterdesigntechniques,andderivationofFFT.Design Project: Practicalskillsaboutthelecturedtheoryaredealtthroughcomputerprogramming by using Matlab.
3 2 ELE3080 Design and Process of Display Extended Major 4-3-2
This class introduces the overall review of manufacturing process for information display such as PDP, LCD, and OLED. In this subject, based on optics of the display, the design of pixel on display panel by computer simulation will be performed and the electrical, chemical, physical properties of materials used on manufacturing will be studied. Also, various thin film development process and patterning techniques will be reviewed. Throughthe understanding of factors for evaluating display device performance like contrast ratio, response time, brightness and stability, the basic assessing ability for various display devices will be obtained.
3 2 ELE3081 VLSI Engineering Extended Major 3-3-0
In this lecture we study VLSI Design Method while VLSI Engineering consists of 2 phases,Design and Manufacturing ones Whether digital systems are high speed,high density and low power,CMOS technology find ubiquitous use in majory in the majority of leading edge commercial applications. MOSFET is clarified for giving the concept of basic electrical characterristics including AC and DC ones in CMOS Modern process in producing VLSI are concurrently undergoing with Design and Manufacturing so that a process technology of CMOS should be understood for more design optimization. To calculate the operating speed,chip area and power consumption in CMOS,Logical Effort concept with a delayed model are used. Interconction and wiring model in CMOS are given tfor the calculations. SPICE simulation is done for comparing with the above result All kind of CMOS circuit technologies are surveyed in terms of operating speed,area and power consumption in the combinational and sequential logic circuits CAD Tools for design automation are explained
3 2 ELE4031 Communication System Extended Major 3-3-0
The object of this course is to enhance student's capability of extending theories to practical agenda for wireless communication system designs. This course is structured as a senior-level design course emphasizing fundamental communication principles and their applications to modern wireless communication systems. Students are required to have backgrounds in fundamental theories of signals and systems, random process, and communication systems. By taking this course, students can improve their capabilities to analyze and design the communication systems appropriate to future needs.
3 2 ENE4019 Computer Networks Extended Major 3-3-0
This lecture introduces the basic concepts of computer and data communications, and discusses core functionalities, protocols, and standards related to computernetworks. The main topics of this lecture include network router architectures, control protocols (flow control, congestion control, etc.), and communication protocols (LAN, MAN, WAN, etc.).
3 2 GEN5100 Career Development II (Portfolio and Business model Creation) (Compulsory) Requirement in Fundamental Studies 1-1-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
3 2 GEN6095 Fieldwork 2 Extended Major 3-0-3
The course of major field training is provided to supplement and compensate the regular theoretical lecture and strengthen the practical education, practising the practical work on the spot. This on the job training program increase and develop the ability to adapt to understand the state of the art technology and industrial trends. This course helps the student to be a specialist in electrical engineering.
3 2 MAT3008 Numerical Analysis Extended Major 3-3-0
This course introduce students to the algorithms and methods that are commonly needed in many different disciplines of applications of scientific computing. To do so, we cover the basics of numerical methods through to intermediate level by the extensive practice in both language level and package level.
3 2 SYH0003 ENTREPRENEURSHIP AND BUSINESS LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management.
3 2 COE1011 Practical Engineering Research Initiative 2 Extended Major 1-0-2
본과목은3학년까지배운전공지식을기반으로창의력및응용력을기르기위한과목으로3학년동계방학과함께시작한다.매년11월말까지수행하고자하는설계주제를학생이제안하거나교수들이제안한주제중에서학생이선택한다.각설계주제에대한인원은1명이상3명이내로하며1반당인원을30명으로제한한다.수업방법은1시간강의와3시간실험으로하며강의는설계에대한이론및응용에대하여설명하고학생은교수의강의를기초로창의성을발휘하여설계및실험을수행한다.작품이완료된후에는관련교수전원의평가를받도록한다.본과목은졸업작품과연계하여실시하며,그결과물인작품및논문은학생의능력을증명하는자료로진학및취업의제출자료로이용할수있다.
3 2 ECE3004 Antenna Engineering Extended Major 4-3-2
Thiscoursewill covertheoryanddesigntechniquesforvarious antennas: antenna fundamentals and definitions, some simple radiation systems and antennas, arrays, line sources, resonant antennas, broadband antennas, and apperture antennas. Alloftheories and various examples willbeexaminedandtrainedwithaHigh Frequency Structure Simulator (HFSS).
3 2 ECE4024 Optoelectronics Extended Major 4-3-2
Light has some unique characteristics such as extremely fast propagation velocities and non-interference characteristics to Electromagnetic (EM) waves and can be used as a signal source for broad-band and high-speed communication systems. Moreover, optical and optoelectronic devices are currently researched and applied as high efficient lighting sources and sensors in various industrial fields. Optoelectronics is one of the fusion electronics courses, and it is based on the basic knowledge of EM waves, Modern Physics, and Semiconductor Physics. Student will study the Electromagnetic theory, the basic theory of Quantum Physics, and the basic operating principles of Semiconductor light-emitting diodes (LEDs), Lasers and Photodetectors. In the accompanying laboratory sessions, students will also have hands-on experience to measure the behaviors of electro-magnetic waves and semiconductor lighting sources.
3 2 ELE3039 Algorithm Extended Major 3-3-0
Theobjectiveofthisclass(course)istoprovidethestudentthefundamentalconceptsandtechniquesforalgorithmdesignissues.Inthisclass(course),wewillcovervariousalgorithmschemessuchasDivide-and-Conquer,dynamicprogramming,greedymethod,graphsearching,Non-DeterministicPolynomialalgorithmandelementarynumber-theoreticalgorithm.Inadditiontolectures,studentswillcarryoutvariousprogrammingassignmentsrelatedtoeachissues.Studentsareexpectedtotakedatastructuresbeforeattendingthisclass.
3 2 ELE3075 MICROELECTRONICCIRCUITS 2 Core Major 4-3-2
Based on the basic understanding on microelectronics obtained through the class "Microelectronics 1", this class covers more detailed techniques of microelectronics. Various schemes to improve the performance of amplifiers are learned. The operation of circuits is analyzed as a function of frequency and the technique of feedback is learned. Power stages to deliver power, analog filter, and digital CMOS circuits are learned as well. This class includes experimental labs which provides opportunity to implement various circuits in line with the lecture schedule.
3 2 ELE3077 DIGITAL SIGNAL PROCESSING 2 Core Major 4-3-2
This course covers the basic and fundamental digital signal processing techniques and it’s applications in time and frequency domain. Analog-to-digital signal conversion, symbolization of digital signal. Sampling and Reconstruction of continuous time signals, Characterization and properties of discrete time signals and systems, Computation of discrete time Fourier transform and its properties. Especially the relationship between time domain and frequency domain. The purpose of this course is to provide a common background for subsequent course work in the study of Digital signal processing and it’s applications. The contents of this course include digital signal filtering, analysis of Fast Fourier transform and, FIR/IIR filter design techniques, overlap-add, overlap save techniques and windowing methods. Project : Basic coding techniques about the lectured theory are dealt through computer programming by using Matlab. Implementation of structures for discrete time systems, Digital filter, overlap-add/save systems, window, voice active detection.
3 2 ELE3081 VLSI Engineering Extended Major 3-3-0
In this lecture we study VLSI Design Method while VLSI Engineering consists of 2 phases,Design and Manufacturing ones Whether digital systems are high speed,high density and low power,CMOS technology find ubiquitous use in majory in the majority of leading edge commercial applications. MOSFET is clarified for giving the concept of basic electrical characterristics including AC and DC ones in CMOS Modern process in producing VLSI are concurrently undergoing with Design and Manufacturing so that a process technology of CMOS should be understood for more design optimization. To calculate the operating speed,chip area and power consumption in CMOS,Logical Effort concept with a delayed model are used. Interconction and wiring model in CMOS are given tfor the calculations. SPICE simulation is done for comparing with the above result All kind of CMOS circuit technologies are surveyed in terms of operating speed,area and power consumption in the combinational and sequential logic circuits CAD Tools for design automation are explained
3 2 ELE4031 Communication System Extended Major 3-3-0
The object of this course is to enhance student's capability of extending theories to practical agenda for wireless communication system designs. This course is structured as a senior-level design course emphasizing fundamental communication principles and their applications to modern wireless communication systems. Students are required to have backgrounds in fundamental theories of signals and systems, random process, and communication systems. By taking this course, students can improve their capabilities to analyze and design the communication systems appropriate to future needs.
3 2 ELE4083 Introduction to Information Display Engineering Extended Major 3-3-0
This course covers the current display trend and the various display technologies. The thin-film-transistor liquid crystal display and organic light-emitting display as well as future display technologies such as flexible displays and holography are introduced. Also their operating principles, device structures, materials, and driving methods are simply explained. The following subjects are covered: overview of display industry; light properties (polarization, reflection, refraction, and transmission) and their theoretical analysis (linear algebra for matrix representation); liquid crystal and liquid crystal displays; organic light-emitting displays; flexible displays; three dimensional displays, transparent displays, and the other future displays. Optionally, the human perception for color including the color coordinate systems and some emerging technologies presented in some current display conference are introduced. In addition, students could have opportunities to visit the display industry.
3 2 ENE4019 Computer Networks Extended Major 3-3-0
This lecture introduces the basic concepts of computer communications. It covers the basic concepts of computer networks starting from LANs (local area network) to WANs (wide area networks). It introduces how LAN, MAN (Metro Area Network), and WAN can exchange information between stations attached to them. Also the basic concepts of addresses in computer networks will be covered such as MAC (media access control), SAP (service access point), IP (Internet Protocol), and port addresses. In addition, flow controls and error controls in various layers will be also covered. Mechanisms of MAC and logical link layers will be introduced too. New concepts such VLAN, VPN, and Internet will be also covered. Internet protocols from IPv4 to IPv6 will be treated with routing algorithms. Transport layer concepts, basic core functionalities, protocols, and standards related to computer networks will be covered. Concepts such as connection oriented and connection less will be included too. Network devices such as bridges, hubs, routers, and various switches will be introduced and compared.
3 2 GEN5100 Career Development II (Portfolio and Business model Creation) Compulsory General Studies 1-1-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
3 2 SYH0003 ENTREPRENEURSHIP AND BUSINESS LEADERSHIP Compulsory General Studies 2-2-0
Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management.
4 1 ECE3004 Antenna Engineering Extended Major 4-3-2
Thiscoursewill covertheoryanddesigntechniquesforvarious antennas: antenna fundamentals and definitions, some simple radiation systems and antennas, arrays, line sources, resonant antennas, broadband antennas, and apperture antennas. Alloftheories and various examples willbeexaminedandtrainedwithaHigh Frequency Structure Simulator (HFSS).
4 1 ECE4014 Coding Theory Extended Major 3-3-0
Inthiscourse,wewillstudythecoreconceptsandtheoriesoninformationtheory. Themathematicaldefinitionsofvariousinformationquantitiesaregivensuchasuncertaintyandentropy,self/joint/conditionalentropies,mutualinformation. Basedonthem,thefollowingimportantsubjectsarecovered.Asymptoticequipartitionproperties(AEP),datacompression(sourcecoding),channelcapacityandchannelcapacitycalculationforsomeimportantchannels,Shannon'schannelcodingtheorem,Rate-distortiontheory,Errorcorrectingcodes.
4 1 ECE4058 Digital Communication Extended Major 4-3-2
Thiscourseintroducesthefundamentalsofmoderndigitalcommunicationsystem analysisanddesigntechniques.Topicsincludebasebandmodulationand passband modulationtechniques,optimumreceiverdesign,coherentand noncoherentdetections,errorperformanceanalysis,othermoderndigitalmodulationtechniques,andspread-spectrum communication system. And, analyze the fundamentals of digital communications and spread-spectrum communication system by an experiment.
4 1 ECR4003 Image Processing Extended Major 4-3-2
Basicconceptsandtechniquesfordigitalimageprocessingandcomputervisionsystemsareintroduced.Applicationscoveredinthiscourseincludemulti-mediasystems,videotechnology, and image understanding systems. More specifically, image transform, image enhancement, image restroration, image compression, computer vision, etc will be covered in this course. Experiments will be made by using versatile languages including C, matlab, etc.
4 1 EIS1015 EMBEDDED SYSTEM DESIGN Extended Major 4-3-2
Thiscoursedevelopsacomprehensiveunderstandingofthetechnologiesbehindtheembeddedsystemsbeingdevelopedforengineeringandscienceaswellasforubiquitoussystems,includingroboticsandmanufacturing,interactiveandmultimedia. Studentswilllearnaboutembeddedsystemprinciples,understandembeddedandreal-timeoperatingsystemsandtheresourcemanagementissuesthatarise,andconstructsampleapplicationsonrepresentativeplatforms.Platformsmayrangefromhandheldandmobilecomputerstomediaandreal-timeserversystems.Studentswilldevelopanappreciationofthetechnologycapabilitiesandlimitationsofthehardware,softwarecomponentsforbuildingembeddedsystems,andmethodstoevaluatedesigntradeoffsbetweendifferenttechnologychoices.
4 1 ELE4084 Display Electronics Extended Major 3-3-0
Driving methods and circuits are the key technologies that greatly affect the performances of flat panel displays (FPDs). ResearchanddevelopmentofthesetechnologiesrequireknowledgesofcircuitanalysisanddesignaswellasthoroughunderstandingofFPDs.This course, therefore, deals with fundamentalsofdrivingmethodsofmajorFPDsincludingSTN-LCD,TFT-LCD,OLED andPDPfirst, which are the most widely used FPDs, andproceedstocircuitdesignforthosedisplays.In particular, this course focuses on both TFT-LCD and AMOLED, because the former is currently most successful, and the latter draws great attention as a next-generation display. For TFT-LCDs, advanced driving technologies for high-quality images and low-power consumption is covered on the basis of fundamentals of driving methods, and the differences of the driving technologies according to the applications such as large-screen TVs and mobile devices are also dealt with. For AMOLEDs, various driving methods and pixel circuits have been reported to address the technical issues of backplane technologies. This course emphasizes the principle and limitation of each driving method and pixel circuit, which provides the foundation for finding novel driving methods and pixel circuits. On the other hand, a DAC and a buffer amplifier are key subblocks constituting driver circuits for FPDs. After dealing with basic DAC and buffer amplifier circuits, advanced design techniques for FPD applications are also covered.
4 1 ELE4089 Introduction of Bioelectronics Extended Major 3-3-0
This lecture introduces bioelectronics which is convergence technology of biology and electronics. Students can learn the concept and the basic theory and applications of bioelectronics. Also, students can learn about various applications, their development trend and their detail knowledge from invited bionelectronics experts.
4 1 ELE4090 Introduction to vehicle Extended Major 3-3-0
The course introduce a vehicle-IT convergence engineering. The course lecture on IT system of vehicle and vehicle for the future. The student that complete the course can generally understand a vehicle-IT convergence technology.
4 1 ELE4091 An introduction to Green IT Extended Major 3-3-0
It explains the importance of green energy for the conservation of human environment. It understands the fundamental and technical concepts of green energies such as solar cells, hydrogen cells, lithium secondary battery, wind power battery and green IT products such as green PC, green TV/display, green server. Also, to promote to green IT service, it understands the scientific and the technical concepts about wibro, 4G, sensor networks, cloud computing security, sensor network information security for the establishment of safe and 10 times faster networks accompanied by greening IDC, network, computing and the establishment of green energy business environment such as remote video conference, smart network center, e-paper, building energy management system (BEMS, home networking, smart grid for intelligent power grid).
4 1 ELE4100 Wireless Networks Extended Major 3-3-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
4 1 ELE5000 CAPSTONE DESIGN 1 Extended Major 3-0-2
본과목은3학년까지배운전공지식을기반으로창의력및응용력을기르기위한과목으로3학년동계방학과함께시작한다.매년11월말까지수행하고자하는설계주제를학생이제안하거나교수들이제안한주제중에서학생이선택한다.각설계주제에대한인원은1명이상3명이내로하며1반당인원을30명으로제한한다.수업방법은1시간강의와3시간실험으로하며강의는설계에대한이론및응용에대하여설명하고학생은교수의강의를기초로창의성을발휘하여설계및실험을수행한다.작품이완료된후에는관련교수전원의평가를받도록한다.본과목은졸업작품과연계하여실시하며,그결과물인작품및논문은학생의능력을증명하는자료로진학및취업의제출자료로이용할수있다.
4 1 ELE5002 Introduction of Electronic Design Extended Major 1-1-0
This course is for 4th year students in the department of electronic engineering. Building on the pieces of knowledge on electronic engineering gained in the previous 3 years of study, this course aims to equip students with a more comprehensive understanding of electronic engineering. The course plan is as follows. We will begin with an overview of designs in various engineering fields, such as communication engineering, semiconductor engineering, electronic engineering, computer engineering, display engineering, and conclude with a comprehensive understanding of these various designs. The ultimate goal of this course is to develop engineering design capabilities
4 1 ENE2006 Semiconductor Fabrication Extended Major 3-3-0
Thepurposeofthislectureistolearnaboutthenewlysemiconductorprocessvialearningofoxidation,diffusion,implantation,CVD,lithography,metallization,etchingandCMPprocesswhicharefundamentalforsemiconductordevicesandintegratedcircuitfabrication. 1.Crystal growth and Silicon Oxidation 2.Optical and E-beam lithography 3.Etching; Chemical and Reactive Ion Etching 4.Doping; Diffusion and ion Implantation 5.Thin-Film Deposition; Physical and Chemical Vapor Deposition, Atomic Layer Deposition 6.Process Integration; Passive Components, Metallization, Chemical, Mechanical Polishing 7.Process Integration; MOSFET, DRAM, Flash Memory, MEMS
4 1 EWE4023 Optical Communications Extended Major 3-3-0
Optical communications provide the basis of all communications infra-structures. They are not only the core building block in inter-telecommunication offices or inter-continental communications networks, but also are indispensible components in wireless communications network, and access networks. It can be said that optical communications is behind the IT revolution of the 21 century. In this course, students study the principle of operation of optical fibers, laser diodes, LEDs, photo-diodes, which are important components which constitute optical communication systems. Furthermore, students learn how to design optical transmission systems using these components. Recently, optical communications systems are evolving from point-to-point transmission systems to true optical networks. In this course, students study the characteristics of optical networks.
4 1 ITE4003 SOC Design Extended Major 4-3-2
A specified HDL(Hardware description Language)Syntax is introduced and a general CISC CPU archtecture is implemented to be described using the HDL. Some prerequisite subjects such as Digital Logic,Semiconductor theory and VLSI Engineering are recommended (not necessarily) Syntax structure of HDL's is analyzed and explaied the compiling processes composed of Lexical Analizer, Parser and Code Optimizer etc..Also optimum algorithm such as 2-level and Multilevel synthesis, State assignment algorithm which are used in compiler-compiler are explaied.Principles of functional simulation is given. Verilog language syntax is expained and coded for many logic circuit as a trainning,but also discussed the concurrency and timing in the HDL itself SystemC, TLM(Transaction Level Modeling) and Device Driver priciples are explaind.
4 1 SYH0004 SELF-LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
HELP(Hanyang Essential Leadership Plus) is a key program of Hanyang University for educating students who want to be future CEOs. Self Leadership(HELP4) is a leadership development online program for seniors. This program aims to foster leaders based on an analysis of an individual's strengths and weaknesses and complete the Leadership Road Map. Learning contents of Self Leardership(HELP4) incluse Self-Assessment, Self-Management and Skills to apply in Social Practices. Learning objectives of each module are as follows; Self-Assessment: Grade value of the work to do and decide priority, understand importance and meaning of manners and improve manners in social life, and understand attitudes associated with success and put them into practice. Skills to Apply in Social Practice: Define followership, understand the principles of imagination and creativity. This 16 week length course had been developed by the high-tech teaching system and online course development methods.
4 1 ECE4014 Coding Theory Extended Major 3-3-0
Inthiscourse,wewillstudythecoreconceptsandtheoriesoninformationtheory. Themathematicaldefinitionsofvariousinformationquantitiesaregivensuchasuncertaintyandentropy,self/joint/conditionalentropies,mutualinformation. Basedonthem,thefollowingimportantsubjectsarecovered.Asymptoticequipartitionproperties(AEP),datacompression(sourcecoding),channelcapacityandchannelcapacitycalculationforsomeimportantchannels,Shannon'schannelcodingtheorem,Rate-distortiontheory,Errorcorrectingcodes.
4 1 ECE4058 Digital Communication Extended Major 4-3-2
Thiscourseintroducesthefundamentalsofmoderndigitalcommunicationsystem analysisanddesigntechniques.Topicsincludebasebandmodulationand passband modulationtechniques,optimumreceiverdesign,coherentand noncoherentdetections,errorperformanceanalysis,othermoderndigitalmodulationtechniques,andspread-spectrum communication system. And, analyze the fundamentals of digital communications and spread-spectrum communication system by an experiment.
4 1 ECR4003 Image Processing Extended Major 4-3-2
Basicconceptsandtechniquesfordigitalimageprocessingandcomputervisionsystemsareintroduced.Applicationscoveredinthiscourseincludemulti-mediasystems,videotechnology, and image understanding systems. More specifically, image transform, image enhancement, image restroration, image compression, computer vision, etc will be covered in this course. Experiments will be made by using versatile languages including C, matlab, etc.
4 1 EIS1015 EMBEDDED SYSTEM DESIGN Extended Major 4-3-2
Thiscoursedevelopsacomprehensiveunderstandingofthetechnologiesbehindtheembeddedsystemsbeingdevelopedforengineeringandscienceaswellasforubiquitoussystems,includingroboticsandmanufacturing,interactiveandmultimedia. Studentswilllearnaboutembeddedsystemprinciples,understandembeddedandreal-timeoperatingsystemsandtheresourcemanagementissuesthatarise,andconstructsampleapplicationsonrepresentativeplatforms.Platformsmayrangefromhandheldandmobilecomputerstomediaandreal-timeserversystems.Studentswilldevelopanappreciationofthetechnologycapabilitiesandlimitationsofthehardware,softwarecomponentsforbuildingembeddedsystems,andmethodstoevaluatedesigntradeoffsbetweendifferenttechnologychoices.
4 1 ELE4084 Display Electronics Extended Major 3-3-0
Driving methods and circuits are the key technologies that greatly affect the performances of flat panel displays (FPDs). ResearchanddevelopmentofthesetechnologiesrequireknowledgesofcircuitanalysisanddesignaswellasthoroughunderstandingofFPDs.This course, therefore, deals with fundamentalsofdrivingmethodsofmajorFPDsincludingSTN-LCD,TFT-LCD,OLED andPDPfirst, which are the most widely used FPDs, andproceedstocircuitdesignforthosedisplays.In particular, this course focuses on both TFT-LCD and AMOLED, because the former is currently most successful, and the latter draws great attention as a next-generation display. For TFT-LCDs, advanced driving technologies for high-quality images and low-power consumption is covered on the basis of fundamentals of driving methods, and the differences of the driving technologies according to the applications such as large-screen TVs and mobile devices are also dealt with. For AMOLEDs, various driving methods and pixel circuits have been reported to address the technical issues of backplane technologies. This course emphasizes the principle and limitation of each driving method and pixel circuit, which provides the foundation for finding novel driving methods and pixel circuits. On the other hand, a DAC and a buffer amplifier are key subblocks constituting driver circuits for FPDs. After dealing with basic DAC and buffer amplifier circuits, advanced design techniques for FPD applications are also covered.
4 1 ELE4089 Introduction of Bioelectronics Extended Major 3-3-0
This lecture introduces bioelectronics which is convergence technology of biology and electronics. Students can learn the concept and the basic theory and applications of bioelectronics. Also, students can learn about various applications, their development trend and their detail knowledge from invited bionelectronics experts.
4 1 ELE4090 Introduction to Vehicular IT Engineerings Extended Major 3-3-0
The course introduce a vehicle-IT convergence engineering. The course lecture on IT system of vehicle and vehicle for the future. The student that complete the course can generally understand a vehicle-IT convergence technology.
4 1 ELE4091 An introduction to Green IT Extended Major 3-3-0
It explains the importance of green energy for the conservation of human environment. It understands the fundamental and technical concepts of green energies such as solar cells, hydrogen cells, lithium secondary battery, wind power battery and green IT products such as green PC, green TV/display, green server. Also, to promote to green IT service, it understands the scientific and the technical concepts about wibro, 4G, sensor networks, cloud computing security, sensor network information security for the establishment of safe and 10 times faster networks accompanied by greening IDC, network, computing and the establishment of green energy business environment such as remote video conference, smart network center, e-paper, building energy management system (BEMS, home networking, smart grid for intelligent power grid).
4 1 ELE4100 Wireless Networks Extended Major 3-3-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
4 1 ELE5000 CAPSTONE DESIGN 1 Extended Major 3-0-3
본과목은학부정규과정에서수학한전공지식을기반으로실제적인주제를선정하여학습내용을응용하는것을목표로한다.구체적으로학생들로하여금실용적인작품을제작함으로써창의력,논리력,및문제해결능력을함양토록한다.주제는학생자신이제안하거나아니면교수들의의견을참고로할수있다.팀별로작품을제작하게되며인원은최대3명이내이다.수업방법은1시간강의와3시간실험으로하며강의는설계에대한이론및응용에대하여설명하고학생은교수의강의를기초로창의성을발휘하여설계및실험을수행한다.작품이완료된후에는관련교수전원의평가를받도록한다.본과목은졸업작품과연계하여실시하며,그결과물인작품및논문은학생의능력을증명하는자료로진학및취업의제출자료로이용할수있다
4 1 ELE5002 Introduction of Electronic Design Extended Major 1-1-0
This course is for 4th year students in the department of electronic engineering. Building on the pieces of knowledge on electronic engineering gained in the previous 3 years of study, this course aims to equip students with a more comprehensive understanding of electronic engineering. The course plan is as follows. We will begin with an overview of designs in various engineering fields, such as communication engineering, semiconductor engineering, electronic engineering, computer engineering, display engineering, and conclude with a comprehensive understanding of these various designs. The ultimate goal of this course is to develop engineering design capabilities.
4 1 ENE2006 Semiconductor Fabrication Extended Major 3-3-0
Thepurposeofthislectureistolearnaboutthenewlysemiconductorprocessvialearningofoxidation,diffusion,implantation,CVD,lithography,metallization,etchingandCMPprocesswhicharefundamentalforsemiconductordevicesandintegratedcircuitfabrication. 1.Crystal growth and Silicon Oxidation 2.Optical and E-beam lithography 3.Etching; Chemical and Reactive Ion Etching 4.Doping; Diffusion and ion Implantation 5.Thin-Film Deposition; Physical and Chemical Vapor Deposition, Atomic Layer Deposition 6.Process Integration; Passive Components, Metallization, Chemical, Mechanical Polishing 7.Process Integration; MOSFET, DRAM, Flash Memory, MEMS
4 1 EWE4023 Optical Communications Extended Major 3-3-0
Optical communications provide the basis of all communications infra-structures. They are not only the core building block in inter-telecommunication offices or inter-continental communications networks, but also are indispensible components in wireless communications network, and access networks. It can be said that optical communications is behind the IT revolution of the 21 century. In this course, students study the principle of operation of optical fibers, laser diodes, LEDs, photo-diodes, which are important components which constitute optical communication systems. Furthermore, students learn how to design optical transmission systems using these components. Recently, optical communications systems are evolving from point-to-point transmission systems to true optical networks. In this course, students study the characteristics of optical networks.
4 1 ITE4003 SOC Design Extended Major 4-3-2
A specified HDL(Hardware description Language)Syntax is introduced and a general CISC CPU archtecture is implemented to be described using the HDL. Some prerequisite subjects such as Digital Logic,Semiconductor theory and VLSI Engineering are recommended (not necessarily) Syntax structure of HDL's is analyzed and explaied the compiling processes composed of Lexical Analizer, Parser and Code Optimizer etc..Also optimum algorithm such as 2-level and Multilevel synthesis, State assignment algorithm which are used in compiler-compiler are explaied.Principles of functional simulation is given. Verilog language syntax is expained and coded for many logic circuit as a trainning,but also discussed the concurrency and timing in the HDL itself SystemC, TLM(Transaction Level Modeling) and Device Driver priciples are explaind.
4 1 SYH0004 SELF-LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
SELP Leadership(HELP4) program will give students chances to look back on themselves before they enter society and to analyze their advantages and weak points to complete the road map for leadership development. This class trains prepared leaders based on analysis of personal strengths and weaknesses and helps them to complete the Leadership Road Map.
4 1 ECE4014 Coding Theory Extended Major 3-3-0
Inthiscourse,wewillstudythecoreconceptsandtheoriesoninformationtheory. Themathematicaldefinitionsofvariousinformationquantitiesaregivensuchasuncertaintyandentropy,self/joint/conditionalentropies,mutualinformation. Basedonthem,thefollowingimportantsubjectsarecovered.Asymptoticequipartitionproperties(AEP),datacompression(sourcecoding),channelcapacityandchannelcapacitycalculationforsomeimportantchannels,Shannon'schannelcodingtheorem,Rate-distortiontheory,Errorcorrectingcodes.
4 1 ECE4058 Digital Communication Extended Major 4-3-2
This course introduces the fundamentals of modern digital communication system analysis and design techniques. The prerequisites of this course are some knowledge of random process and communication systems. This course covers topics including baseband modulation and passband modulation techniques, optimum receiver design, coherent and noncoherent detections, error performance analysis, and multiplexing/multiple access scheme including spread-spectrum multiplexing/multiple access and orthogonal frequency division multiplexing/multiple access. At the end of this course, we will also cover how modern communication systems such as 3G, 4G work based on multiplexing/multiple access scheme that we have learned. In addition to theory lecture class, we will also learn the fundamentals of modern digital communication system analysis and design techniques that we covered in theory lecture class by experiment
4 1 ECR4003 Image Processing Extended Major 4-3-2
Basic concepts and techniques for digital image processing and computer vision systems are introduced. Applications covered in this course include multi-media systems,video technology, and image understanding systems. More specifically, image transform, image enhancement, image restroration, image compression, computer vision, etc will be covered in this course. Experiments will be made by using versatile languages including C, matlab, etc.
4 1 EIS1015 EMBEDDED SYSTEM DESIGN Extended Major 4-3-2
Thiscoursedevelopsacomprehensiveunderstandingofthetechnologiesbehindtheembeddedsystemsbeingdevelopedforengineeringandscienceaswellasforubiquitoussystems,includingroboticsandmanufacturing,interactiveandmultimedia. Studentswilllearnaboutembeddedsystemprinciples,understandembeddedandreal-timeoperatingsystemsandtheresourcemanagementissuesthatarise,andconstructsampleapplicationsonrepresentativeplatforms.Platformsmayrangefromhandheldandmobilecomputerstomediaandreal-timeserversystems.Studentswilldevelopanappreciationofthetechnologycapabilitiesandlimitationsofthehardware,softwarecomponentsforbuildingembeddedsystems,andmethodstoevaluatedesigntradeoffsbetweendifferenttechnologychoices.
4 1 ELE3080 Design and Process of Display Extended Major 4-3-2
This class introduces the overall review of manufacturing process for information display such as PDP, LCD, and OLED. In this subject, based on optics of the display, the design of pixel on display panel by computer simulation will be performed and the electrical, chemical, physical properties of materials used on manufacturing will be studied. Also, various thin film development process and patterning techniques will be reviewed. Throughthe understanding of factors for evaluating display device performance like contrast ratio, response time, brightness and stability, the basic assessing ability for various display devices will be obtained.
4 1 ELE4084 Display Electronics Extended Major 3-3-0
Driving methods and circuits are the key technologies that greatly affect the performances of flat panel displays (FPDs). ResearchanddevelopmentofthesetechnologiesrequireknowledgesofcircuitanalysisanddesignaswellasthoroughunderstandingofFPDs.This course, therefore, deals with fundamentalsofdrivingmethodsofmajorFPDsincludingSTN-LCD,TFT-LCD,OLED andPDPfirst, which are the most widely used FPDs, andproceedstocircuitdesignforthosedisplays.In particular, this course focuses on both TFT-LCD and AMOLED, because the former is currently most successful, and the latter draws great attention as a next-generation display. For TFT-LCDs, advanced driving technologies for high-quality images and low-power consumption is covered on the basis of fundamentals of driving methods, and the differences of the driving technologies according to the applications such as large-screen TVs and mobile devices are also dealt with. For AMOLEDs, various driving methods and pixel circuits have been reported to address the technical issues of backplane technologies. This course emphasizes the principle and limitation of each driving method and pixel circuit, which provides the foundation for finding novel driving methods and pixel circuits. On the other hand, a DAC and a buffer amplifier are key subblocks constituting driver circuits for FPDs. After dealing with basic DAC and buffer amplifier circuits, advanced design techniques for FPD applications are also covered.
4 1 ELE4100 Wireless Networks Extended Major 3-3-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
4 1 ELE5000 CAPSTONE DESIGN 1 Extended Major 1-0-2
본과목은학부정규과정에서수학한전공지식을기반으로실제적인주제를선정하여학습내용을응용하는것을목표로한다.구체적으로학생들로하여금실용적인작품을제작함으로써창의력,논리력,및문제해결능력을함양토록한다.주제는학생자신이제안하거나아니면교수들의의견을참고로할수있다.팀별로작품을제작하게되며인원은최대3명이내이다.수업방법은1시간강의와3시간실험으로하며강의는설계에대한이론및응용에대하여설명하고학생은교수의강의를기초로창의성을발휘하여설계및실험을수행한다.작품이완료된후에는관련교수전원의평가를받도록한다.본과목은졸업작품과연계하여실시하며,그결과물인작품및논문은학생의능력을증명하는자료로진학및취업의제출자료로이용할수있다
4 1 ELE5002 Introduction of Electronic Design Extended Major 1-1-0
This course is for 4th year students in the department of electronic engineering. Building on the pieces of knowledge on electronic engineering gained in the previous 3 years of study, this course aims to equip students with a more comprehensive understanding of electronic engineering. The course plan is as follows. We will begin with an overview of designs in various engineering fields, such as communication engineering, semiconductor engineering, electronic engineering, computer engineering, display engineering, and conclude with a comprehensive understanding of these various designs. The ultimate goal of this course is to develop engineering design capabilities.
4 1 ENE2006 Semiconductor Fabrication Extended Major 3-3-0
Thepurposeofthislectureistolearnaboutthenewlysemiconductorprocessvialearningofoxidation,diffusion,implantation,CVD,lithography,metallization,etchingandCMPprocesswhicharefundamentalforsemiconductordevicesandintegratedcircuitfabrication. 1.Crystal growth and Silicon Oxidation 2.Optical and E-beam lithography 3.Etching; Chemical and Reactive Ion Etching 4.Doping; Diffusion and ion Implantation 5.Thin-Film Deposition; Physical and Chemical Vapor Deposition, Atomic Layer Deposition 6.Process Integration; Passive Components, Metallization, Chemical, Mechanical Polishing 7.Process Integration; MOSFET, DRAM, Flash Memory, MEMS
4 1 EWE4023 Optical Communications Extended Major 3-3-0
Optical communications provide the basis of all communications infra-structures. They are not only the core building block in inter-telecommunication offices or inter-continental communications networks, but also are indispensible components in wireless communications network, and access networks. It can be said that optical communications is behind the IT revolution of the 21 century. In this course, students study the principle of operation of optical fibers, laser diodes, LEDs, photo-diodes, which are important components which constitute optical communication systems. Furthermore, students learn how to design optical transmission systems using these components. Recently, optical communications systems are evolving from point-to-point transmission systems to true optical networks. In this course, students study the characteristics of optical networks.
4 1 ITE4003 SOC Design Extended Major 4-3-2
A specified HDL(Hardware description Language)Syntax is introduced and a general CISC CPU archtecture is implemented to be described using the HDL. Some prerequisite subjects such as Digital Logic,Semiconductor theory and VLSI Engineering are recommended (not necessarily) Syntax structure of HDL's is analyzed and explaied the compiling processes composed of Lexical Analizer, Parser and Code Optimizer etc..Also optimum algorithm such as 2-level and Multilevel synthesis, State assignment algorithm which are used in compiler-compiler are explaied.Principles of functional simulation is given. Verilog language syntax is expained and coded for many logic circuit as a trainning,but also discussed the concurrency and timing in the HDL itself SystemC, TLM(Transaction Level Modeling) and Device Driver priciples are explaind.
4 1 SYH0004 SELF-LEADERSHIP Compulsory General Studies 2-2-0
HELP(Hanyang Essential Leadership Plus) is a key program of Hanyang University for educating students who want to be future CEOs. Self Leadership(HELP4) is a leadership development online program for seniors. This program aims to foster leaders based on an analysis of an individual's strengths and weaknesses and complete the Leadership Road Map. Learning contents of Self Leardership(HELP4) incluse Self-Assessment, Self-Management and Skills to apply in Social Practices. Learning objectives of each module are as follows; Self-Assessment: Grade value of the work to do and decide priority, understand importance and meaning of manners and improve manners in social life, and understand attitudes associated with success and put them into practice. Skills to Apply in Social Practice: Define followership, understand the principles of imagination and creativity. This 16 week length course had been developed by the high-tech teaching system and online course development methods.
4 2 COM2018 Object-Oriented Programming Core Major 3-2-2
The primary objective of this course is to have students acquire basic techniques and knowledge to develop software in his or her discipline. In particular, the focus will be on the applications in Internet environment and Java is the primary programming language. Through this course, studnets are expected to learn how to solve engineering problems using computational environments.
4 2 ECN4004 WIRELESS COMMUNICATIONS Extended Major 3-3-0
Thiscoursedealswiththewirelesscommunicationtechniquestoovercomethetimeandspatialrestrictionsforreliableandefficientinformationtransmissionandreception. Specific topics covered in the course include multi-path fading channels,fading compensation techniques, high order modulation/demodulation and multiple access schemesfora broadband wireless transmission, cellular mobilecommunications systems, satelliteand space communicationssystems,multi-carrier and multi-antenna communications systems.
4 2 ELE4092 Integrated Multimedia Systems Extended Major 3-3-0
Recently there have been a great number of multimedia systems and services in human life. Digital cameras, digital TVs, digital movies, DVDs, Blu-ray Discs, IPTVs are examples of the image-oriented multimedia systems. The digital TV is an integration of versatile technologies including image compression, audio compression, packetization, channel coding, digital modulation, and imbedded systems. This course is designed to provide basic knowledges on these individual technologies and then discussions on their integration into the digital television system.
4 2 ELE4093 DIGITAL DISPLAY SYSTEM DESIGN Extended Major 3-3-0
This course mainly aims at designing and implementing a display system on the prerequisites of "Introduction to Display", which provides fundamental principles of flat panel displays (FPDs) and "Display Electronics", which deals with driving methods and circuits for FPDs. In particular, to facilitate the students to have an ability of designing a display system as one of digital electronic systems, this course provides the followings: Operation principles of timing controller (TCON), which is a key AISC component of a digital display system, How to define features and specifications, and how to describe and implement a digital system using Hardware Description Languages (HDL) and FPGAs. In addition, various image signal processing techniques for enhancing the image quality of TFT-LCDs, which are the most popular FPDs, are introduced, and the design project of implementing the algorithms is practiced to verify their effects on the image quality. On the other hand, the interface technologies for both system-to-system link and part-to-part link are very important in respect of EMI and signal integrity, especially for today's ultra high-resolution display systems. The theoretical backgrounds and the state-of-the arts interface technologies are also covered in the course.
4 2 ELE4094 Mobile Systems Design Extended Major 3-3-0
The aim of this course is to make the students understand the structure and operation of mobile communication handset and therefore be able to design the mobile communication handsets. Mobile communication handsets are designed by combining the embedded mobile system technology and mobile communication system technology, which is one of the major application products of Information Technology (IT). Through this course, the hardware architecture of embedded mobile system is introduced and the corresponding operational software technology is explained. Then, as an example, the 3rd generation mobile communication handset is implemented using the acquired knowledge about the embedded mobile system and mobile communication system.
4 2 ELE4095 Advanced Bioelectronics Extended Major 3-3-0
This lecture deals with bioelectronic circuits, especially the design of the analog readout circuits which require the low power consumption and noise immunity. Also, bioelectronic circuits need high performance analog-to-digital converters and wireless data and power transmitter and receivers. Therefore, students can learn about the low-power consumption and low-noise amplifier, high performance analog-to-digital converters, wireless data and power transmission system. Finally, students can learn about bioelectronic applications such as visual cortical neuroprosthesis, neural recording and deep brain stimulator, and biochip for optical bioassay.
4 2 ELE4096 ADVANCED AUTOMOTIVE ELECTRONICS Extended Major 3-3-0
자동차-IT 융합기술의 이해
4 2 ELE4097 ADVANCED GREEN IT ENGINEERING Extended Major 3-3-0
The purpose of this lecture is to learn about the green IT devices via learning of Optoelectronic devices. Also, understanding on the mechanism of electrical characteristics such as high-frequency and high-power-devices. Understanding about concept of energy consevation and recycle.
4 2 ELE5001 CAPSTONE DESIGN 2 Extended Major 3-0-2
본과목은3학년까지배운전공지식을기반으로창의력및응용력을기르기위한과목으로3학년동계방학과함께시작한다.매년11월말까지수행하고자하는설계주제를학생이제안하거나교수들이제안한주제중에서학생이선택한다.각설계주제에대한인원은1명이상3명이내로하며1반당인원을30명으로제한한다.수업방법은1시간강의와3시간실험으로하며강의는설계에대한이론및응용에대하여설명하고학생은교수의강의를기초로창의성을발휘하여설계및실험을수행한다.작품이완료된후에는관련교수전원의평가를받도록한다.본과목은졸업작품과연계하여실시하며,그결과물인작품및논문은학생의능력을증명하는자료로진학및취업의제출자료로이용할수있다.
4 2 ENE4039 Analog Circuit Design Extended Major 3-3-0
This lecture deals with operation principle, analysis, and design methodologies of analog integrated circuits. Students can learn about various amplifier as basic sub-circuit in analog circuits. Also, students can learn about advanced analog integrated circuits such as analog-to-digital convertors, digital-to-analog convertors, phase-locked loop, and delay-locked loop. Finally, students can acquire the ability to design analog integrated circuits by design project.
4 2 GEN3058 Engineering Economy Core Major 3-3-0
공업경제학은 시스템, 제품 및 서비스의 가치를 이들의 원가와 관련하여 평가하는데 필요한 개념과 기법을 제시해 준다. 이 강좌의 목적은 학생들에게 공업기술의 경제적 측면의 중요성을 인식케하고 공업적 제안의 경제성을 평가하는데 숙달되게 하는 것이다.
4 2 GEN6061 Patent Practice Extended Major 2-2-0
In spite of the increase of necessities of studies patent rights, people do not acknowledge their own rights granted properly, which cause to reach substantially the result as to infringe or freeride other's rights unknowingly. The purpose of this class is for students to understand what the intellectual property is, to approach how to address their rights for intellectual property and how to protect from infringement or piracy etc., by means of basic studies, such as patent law including the procedure of applications, licensing & assignment of their own rights and infringement & remedies.
4 2 COM2018 Object-Oriented Programming Core Major 3-2-2
The primary objective of this course is to have students acquire basic techniques and knowledge to develop software in his or her discipline. In particular, the focus will be on the applications in Internet environment and Java is the primary programming language. Through this course, studnets are expected to learn how to solve engineering problems using computational environments.
4 2 ECN4004 WIRELESS COMMUNICATIONS Extended Major 3-3-0
Thiscoursedealswiththewirelesscommunicationtechniquestoovercomethetimeandspatialrestrictionsforreliableandefficientinformationtransmissionandreception. Specific topics covered in the course include multi-path fading channels,fading compensation techniques, high order modulation/demodulation and multiple access schemesfora broadband wireless transmission, cellular mobilecommunications systems, satelliteand space communicationssystems,multi-carrier and multi-antenna communications systems.
4 2 ELE4092 Integrated Multimedia Systems Extended Major 3-3-0
Recently there have been a great number of multimedia systems and services in human life. Digital cameras, digital TVs, digital movies, DVDs, Blu-ray Discs, IPTVs are examples of the image-oriented multimedia systems. The digital TV is an integration of versatile technologies including image compression, audio compression, packetization, channel coding, digital modulation, and imbedded systems. This course is designed to provide basic knowledges on these individual technologies and then discussions on their integration into the digital television system.
4 2 ELE4094 Mobile Systems Design Extended Major 3-3-0
The aim of this course is to make the students understand the structure and operation of mobile communication handset and therefore be able to design the mobile communication handsets. Mobile communication handsets are designed by combining the embedded mobile system technology and mobile communication system technology, which is one of the major application products of Information Technology (IT). Through this course, the hardware architecture of embedded mobile system is introduced and the corresponding operational software technology is explained. Then, as an example, the 3rd generation mobile communication handset is implemented using the acquired knowledge about the embedded mobile system and mobile communication system.
4 2 ELE4096 ADVANCED AUTOMOTIVE ELECTRONICS Extended Major 3-3-0
자동차-IT 융합기술의 이해
4 2 ELE5001 CAPSTONE DESIGN 2 Extended Major 3-0-3
본과목은학부정규과정에서수학한전공지식을기반으로실제적인주제를선정하여학습내용을응용하는것을목표로한다.구체적으로학생들로하여금실용적인작품을제작함으로써창의력,논리력,및문제해결능력을함양토록한다.주제는학생자신이제안하거나아니면교수들의의견을참고로할수있다.팀별로작품을제작하게되며인원은최대3명이내이다.수업방법은1시간강의와3시간실험으로하며강의는설계에대한이론및응용에대하여설명하고학생은교수의강의를기초로창의성을발휘하여설계및실험을수행한다.작품이완료된후에는관련교수전원의평가를받도록한다.본과목은졸업작품과연계하여실시하며,그결과물인작품및논문은학생의능력을증명하는자료로진학및취업의제출자료로이용할수있다
4 2 ENE4039 Analog Circuit Design Extended Major 3-3-0
This lecture deals with operation principle, analysis, and design methodologies of analog integrated circuits. Students can learn about various amplifier as basic sub-circuit in analog circuits. Also, students can learn about advanced analog integrated circuits such as analog-to-digital convertors, digital-to-analog convertors, phase-locked loop, and delay-locked loop. Finally, students can acquire the ability to design analog integrated circuits by design project.
4 2 GEN3058 Engineering Economy Core Major 3-3-0
The primary objective of the present course is to introduce the basic economic theory including supply and demand for goods, market structure and the distribution of income. Also, it emphasizes on the necessity of planning and policy in order to aid the imperfectness of the market.
4 2 GEN6061 Patent Practice Extended Major 2-2-0
In spite of the increase of necessities of studies patent rights, people do not acknowledge their own rights granted properly, which cause to reach substantially the result as to infringe or freeride other's rights unknowingly. The purpose of this class is for students to understand what the intellectual property is, to approach how to address their rights for intellectual property and how to protect from infringement or piracy etc., by means of basic studies, such as patent law including the procedure of applications, licensing & assignment of their own rights and infringement & remedies.
4 2 COM2018 Object-Oriented Programming Core Major 3-2-2
The primary objective of this course is to have students acquire basic techniques and knowledge to develop software in his or her discipline. In particular, the focus will be on the applications in Internet environment and Java is the primary programming language. Through this course, studnets are expected to learn how to solve engineering problems using computational environments.
4 2 ECN4004 WIRELESS COMMUNICATIONS Extended Major 3-3-0
Thiscoursedealswiththewirelesscommunicationtechniquestoovercomethetimeandspatialrestrictionsforreliableandefficientinformationtransmissionandreception. Specific topics covered in the course include multi-path fading channels,fading compensation techniques, high order modulation/demodulation and multiple access schemesfora broadband wireless transmission, cellular mobilecommunications systems, satelliteand space communicationssystems,multi-carrier and multi-antenna communications systems.
4 2 ELE4092 Integrated Multimedia Systems Extended Major 3-3-0
Recently there have been a great number of multimedia systems and services in human life. Digital cameras, digital TVs, digital movies, DVDs, Blu-ray Discs, IPTVs are examples of the image-oriented multimedia systems. The digital TV is an integration of versatile technologies including image compression, audio compression, packetization, channel coding, digital modulation, and imbedded systems. This course is designed to provide basic knowledges on these individual technologies and then discussions on their integration into the digital television system.
4 2 ELE4094 Mobile Systems Design Extended Major 3-3-0
The aim of this course is to make the students understand the structure and operation of mobile communication handset and therefore be able to design the mobile communication handsets. Mobile communication handsets are designed by combining the embedded mobile system technology and mobile communication system technology, which is one of the major application products of Information Technology (IT). Through this course, the hardware architecture of embedded mobile system is introduced and the corresponding operational software technology is explained. Then, as an example, the 3rd generation mobile communication handset is implemented using the acquired knowledge about the embedded mobile system and mobile communication system.
4 2 ELE5001 CAPSTONE DESIGN 2 Extended Major 1-0-2
본과목은학부정규과정에서수학한전공지식을기반으로실제적인주제를선정하여학습내용을응용하는것을목표로한다.구체적으로학생들로하여금실용적인작품을제작함으로써창의력,논리력,및문제해결능력을함양토록한다.주제는학생자신이제안하거나아니면교수들의의견을참고로할수있다.팀별로작품을제작하게되며인원은최대3명이내이다.수업방법은1시간강의와3시간실험으로하며강의는설계에대한이론및응용에대하여설명하고학생은교수의강의를기초로창의성을발휘하여설계및실험을수행한다.작품이완료된후에는관련교수전원의평가를받도록한다.본과목은졸업작품과연계하여실시하며,그결과물인작품및논문은학생의능력을증명하는자료로진학및취업의제출자료로이용할수있다
4 2 ENE4039 Analog Circuit Design Extended Major 3-3-0
The goal of this course is to cultivate students with analog circuit design skills and techniques by learning the fundamental theory of the analog circuits and exercising practical design examples. The course will mainly focus on analog circuit design with key design factors, design methodologies, performance analysis, and practical issues in analog circuit design. The topics of this course are basic MOS device physics, single-stage amplifiers, differential pairs. Moreover, this course will cover in-depth knowledge and design techniques of the analog integrated circuits such as operational amplifier, feedback topology, various biasing techniques including current mirrors, frequency response characteristics of broadband amplifiers, and precision voltage references. Also, analog circuits such as bandgap references, switched-capacitor circuits, analog-to-digital converters (ADCs) and digital-to-analog converters (DACs) will be studied. This course requires basic knowledge of circuit theory, solid-state electronic devices, and electronic circuits.