unist school and track guide book

School and Track Guide Bookulsan National institute of Science and Technology

UN

IST Scho

ol and Tr

ack G

UId

e Bo

ok

12 Division of General Studies

18 School of Electrical and Computer Engineering

26 School of Mechanical and Advanced Materials Engineering

34 School of Nano-Bioscience and Chemical Engineering

44 School of Design and Human Engineering

52 School of Urban and Environmental Engineering

60 Interdisciplinary School of Green Energy

68 School of Technology Management

CoNTENTS

SCHool and TrACk GUIDE BookUlsan National Institute of Science and Technology

EncountEr

your DrEam

Choose 2 tracks. One must be from your school.

The 2nd may be from any school(your school or another

school). Please be reminded that mastering two tracks is

not for everyone. Careful planning and personal

commitment are required on your part.

EncountEr

your mEntors

All the professors are willing and ready to help you

achieve your dream.

Find the professors who can see your potential and

enhance yourself with them!

EncountEr

your FuturE

Realize your God-given potential by encounter

your future taking on challenges!

May all your dreams for your future be fulfilled beyond

your imagination.

011010 Ulsan National Institute of Science and Technology

UNIST School and Track Guide

Vision & Tasks Goal & sTraTeGies Brief HisTory

inTerdisciplinary educaTion proGrams

2009. Mar. 2 1st Matriculation Ceremony

2009. May. 17 UNIST Opening Ceremony

2010. Mar. 2 2010 Matriculation Ceremony

2010. Jun. The Opening of Super Computing Center

2010. Aug. The Opening of Hans SchÖler Stem Cell Research Center

2011. Mar. 2 2011 Matriculation Ceremony

2011. Sep. 1 Reappointed ad UNIST President, Dr. Moo Je Cho

2011. oct. 20 VISION2030 Proclamation

2012. Feb. 27 2012 Matriculation Ceremony

Curriculum for Arts, Humanities and Social Sciences

• Art and Creativity • Literature and Creativity

• Globalization and Economy • Society and Culture

• Evolution of Civilization • What is I

• Effective Communication • Music and Creativity

Curriculum for leadership Education

• Leadership and Teamwork • Innovation and Entrepreneurship

• UNIST Leadership Program

World-leading university to advance science and technology for the prosperity of humankind

World Top 20University in Science and Technology by 2020

Global Excellenceas a research-oriented University

CreativityMultidisciplinary Study

Globalization

Main Strategies

researchTo provide leading-edge

interdisciplinary research

to create a new paradigm

Education To educate future global

leaders with creativity and

entrepreneurship

academic proGrams

Global Education - All the Classes conducted in English

- Plan to recruit up to 20% of foreign professors and

international students

Creative Education - All the courses are designed with IT-intensive LMS

(Blackboard)

- Discussion-oriented classes with Wi-Fi/Smart Phone/

LMS connected m-campus

Interdisciplinary Education - 7 Schools and 23 Major Tracks

(all the students have to take 2 tracks)

- Mandatory split appointments of faculty between two schools

Take 2 tracks with any combinations

Energy Conv. & Storage

NuclearScience& Eng.

Green Energy Engineering

Electrical and Computer Eng.

ElectricalEng.

Computer Sci-ence & Eng.

Device Physics

Thermal-Fluid & Power Eng.

Mechanical Sys Design &

Manufacturing

MaterialsScience & Eng.

Mechanical and Adv. Material Eng.

Environ. Analy-sis& Pollution control Eng.

Earth Science &

Engineering

Urban Develop. & Engineering

Urban and Environ-mental Eng.

Disaster & Risk Management

Eng.

Integrated In-dustrial Design

Affective & Human

Factors Eng.

Engineering & Sys. Design

Design and Human Engineering

Nanochemical Science

Advancedchemical Eng.

Bioengineering

Nano –Bioscience Chemical Eng.

Biomedical Science

General Management

Tech Mgt / InfoSystem /

Entrepreneurship

Finance / Accounting

Technology Manage-ment

Marketing /Int’l Business


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Introduction

UNIST provides excellence in education with the convergence of Science, Engineering, and

Technology Management. To achieve the educational mission of UNIST, the Division of General

Studies provides programs of Arts, Humanities, and Social Sciences (AHS), information Tech-

nology, Communication, and Languages. We provide the programs to enhance the students’

creativity and leadership as global leaders. The programs are developed tow-folds: all fresh-

men take foundation courses of the theoretical concepts and basic skills of each discipline;

sophomores and advanced students take the advanced courses to develop the ability to solve

actual problems in the real world. With the excellent faculty and outstanding programs, the

Division of General Studies prepares students to work in their majors of Science, Engineering,

and Business Management fields.

Vision

The Stepstone for Your FutureBy utilizing such programs in Division of General Studies, the students can

investigate the world of advanced basic sciences as well as their majors in

engineering and management.

Good education starts from building a strong foundation

Management

English

AHSIT

languagesMath & Science

DIVISIoN oF GENErAl STUDIES

We all welcome you with whole-hearted thanks for visiting the

Division of General Studies.

In order to forge a seamless curriculum based on the philosophy

of technology convergence, DGS provides introductory courses of

basic science, and AHS (Arts, Humanities, Social Science) cours-

es for the first-year students. As a science and technology uni-

versity dedicated to contributing to the prosperity of humankind,

UNIST was founded in 2009 with the mission of cultivating cre-

ative global leaders in the field of Engineering and Techno-Man-

agement. UNIST is also striving to achieve its vision to become a

top 10 leading science and engineering university by 2030.

Specifically, UNIST offers six Science and Engineering and one

Techno-Management program, where students freely select at

least two tracks from any of the schools to form a multidisci-

plinary degree, pursuing academic integration between engi-

neering and business areas. This is planned based on the recog-

nition of the fact that our future depends on the fusion between

various science and technology fields.

Accordingly, the DGS curriculum consists of four base science

courses (Mathematics, Physics and lab, Chemistry and lab, Biol-

ogy and lab) and ten mandatory AHS courses including comput-

er programming and English. The four basic science courses are

mandatory for all students to be well-rounded, no matter which

academic fields they major in. Some AHS courses serve as a

foundation, such as ‘Literature and Creativity‘, ‘Arts and Cre-

ativity’, ‘Music and Creativity’, ‘Sports and Health’ and ‘What

Is I’. Other courses titled as ‘Global Economy’, ‘Society and

Culture’, ‘Evolution of Civilization’, ‘Korean History’ and ‘Effec-

tive Communication’ are offered in order to cultivate creativity,

critical thinking and leadership. All students are required to take

the management courses like ‘Leadership and Teamwork’ and

‘Innovation and Entrepreneurship’. The DGS curriculum aims to

nurture scientists with a management mindset, and entrepre-

neurs with an engineering mindset. The distinctive features of

the DGS curriculum promise to engender students’ creativity

and global leadership.

Both the Korean proverb, “Sandalwood is a tree, even when still

a seed” and Aristotle’s “well begun is half done” emphasize the

importance of starting with a solid educational foundation. The

Division of General Studies is devoted to providing students with

the bricks necessary to build character and wisdom, and turn

what was once an impossibility into reality.

Thank you.

Chair Professor Z. Zenn Bien

Head Of DGS

Message from the DGS Head

diVision of General sTudies

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Z. Zenn Bien

- Head of Division of General Studies

- Smart Home, Assistive Robotics &

Control Theory

- [email protected]

- http://zbien.unist.ac.kr

Daehyeon Nam

- Assistant Professor

- Corpus-based language instruction

- [email protected]

- http://corpuslab.unist.ac.kr

Minkyu Sung


- Rhetoric of science and technol-

ogy/Political economy of com-

munication

- [email protected]

- http://minkyusung.unist.ac.kr

Inkyoung lee


- Piano Performance/ Chamber

Music Performance

- [email protected]

- http://piano.unist.ac.kr

JongEun lee


- Violin Performance/Music Peda-

gogy/Chamber Music Coaching

- [email protected]

- http://muse.unist.ac.kr

Soo-Hyun Mun


- Modern German History /Western

History

- [email protected]

- http://munshyun.unist.ac.kr

Huiyuhl Yi


- Metaphysics of self

- [email protected]

- http://huiyuhl.unist.ac.kr

Seung-bae Park

- Associate Professor

- Philosophy of Science / Ethics

- [email protected]

- http://nature.unist.ac.kr

kook Joe Shin

- Chair Professor

- Reaction Dynamics in Solution

- [email protected]

- http://Shinkj.unist.ac.kr

Hae-Woong lee

- Chair Professor

- Quantum information and Optics

- [email protected]

- http://hwlee.unist.ac.kr

Jeongyeon kim


- Second language teaching/learning

- [email protected]

- http://jkim1234.unist.ac.kr

Jinsook Choi


- Cultural Anthropology/Language

&Culture

- [email protected]

- http://jschoi.unist.ac.kr/

kyong-Mi Paek


- Art & Design, Art Education /

Creative process & practice in

the arts

- [email protected]

- http://kpaek.unist.ac.kr

Bradley Tatar


- Cultural Anthropology

- [email protected]

- http://btatar.unist.ac.kr

Jin-young kim


- Human Communication/Mass Com-

munication

- [email protected]

- http://jyk1234.unist.ac.kr

Sae-ra Yoon


- Russian Literature and Culture/

Comparative Literature

- [email protected]

- http://sayoon.unist.ac.kr

professorcurriculummaTH & science

The Math & Science area is designed to provide a solid basic knowledge the

student’s specialities by opening General Science courses like Mathemat-

ics, Physics, Chemistry, Biology, and also make the students to study more

effectively and efficiently by harmonizing theoretical studies and laboratory

works. By following UNIST’s vision, which is completing multidisciplinary

courses, we are opening a course named Introduction to disciplines to pro-

vide sufficient information (each department, open track, and multidisci-

plinary studies, etc) to the students, before they start their specialities.

iT

The IT area is designed to learn applications and potential of IT; and practical

IT skills. The course of Dynamics of IT presents the concept, operation and

application of Information system for business purposes. This course is de-

signed to help students understand and use fundamental Information System

principles, so that they will function more efficiently and effectively as future

knowledge workers and managers. Topics include: Hardware and Software

of computers, Telecommunication and Networks (including the Internet), Da-

tabase Management, E-commerce, Systems development and security.

manaGemenT

Management is focused on cultivating fundamental knowledge of Business

Administration by opening courses like Leadership and Teamwork, Innova-

tion and Entrepreneurship, and Economics.

enGlisH

The main goal of the course is to cultivate fundamental knowledge about Eng-

lish. We are opening Intermediate English and Advanced English courses,

and by using On-line materials and Off-line sessions properly, we are going to

maximize the effectiveness of studying by level and individually.

lanGuaGe

The main goal is to educate global personal by cultivating fundamental

knowledge about languages except English. Open courses are Chinese Foun-

dation, Chinese Forward, and try to increase the students interests through

various teaching methods.

aHs (arTs, HumaniTies & social sciences)

Various AHS courses are offered to increase the creative power of engineer-

ing and business students. In these courses, the students will also acquire

the basic knowledge in AHS areas by the means of discussions, presenta-

tions, and LMS (Learning Management System) which set them apart from

the general education courses at other universities.

free elecTiVe

The field is formed with free elective courses. It should open various courses,

so the students can attend the courses more freely.

unisT leadersHip proGram

The goal of Leadership program is building up students’ character as UNI-

STARS such as honesty, sincerity, cooperative spirit, mutual respect, and

etc. by participating into team activities following a creative planning pro-

cess. It also aims to foster students’ qualities to be leaders such as discus-

sion skills, presentation skills, ability to organize and operate a team, and

mentoring juniors, etc.

descripTion of aHs proGramAHS provides an integrated suite of course offerings in the Arts, Humanities and Social Sciences to complete the degree programs of the engineering and business schools. Through the creative

applications of humanistic knowledge, students learn problem-solving skills and encounter the challenges of critical thinking. Students experience a head-on encounter with the traditions of the En-

lightenment but also with the rapid transformations of today’s information-based society. The AHS curriculum familiarizes students with the intellectual frameworks of the liberal arts and encourages

their application to the challenges of global leadership.

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1 AHS special lecture



4 Mathematics Colloquium

5 AHS lecture schedule



DGSACTIVITIES

1

2 3

4

5 6

7

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I grew up watching cool Science Fiction (SF) movies such as,

Star Wars, Back to the Future, Matrix, iRobot, Minority Report,

Avatar and so on. I found out I love all fascinating gadgets, and

learned that it is mainly the Electronics & IT Technology which

enables what we imagine come to life. Also, remember the same

Electronics and IT industry is making our country Korea to be

wealthy and strong. Luckily, I have become an early adaptor for

such technology myself. The School of Electrical and Computer

Engineering (ECE) is the place which provides the very IT Tech-

nology and more. All the fascinating stuffs we see in movies and

daily lives can be realized with the art of engineering learned

in the School of ECE.__In the School of ECE, we focus on three

major engineering disciplines. (1) Electrical Engineering (EE)

track, (2) Computer Science & Engineering track, and (3) Device

Physics (DPH) track. Each of these three tracks is designed to

provide you with the education that is necessary to become a

well-established electrical engineer and beyond. In other words,

ECE education will empower you with knowledge and skills to

enables technologies such as Semiconductors, Smart Phones,

Tablets, Cloud Computing, Robots, Electric Vehicles, and so on!

With our world-class faculty members and advanced education-

al infrastructures, you will love what you learn at ECE. Currently,

the School of ECE at UNIST is one of the fastest growing schools

in the world with 22 faculty members and 7 administrative and

technical staff members. Our faculty members are mostly young

but quite experienced in the major areas of computer and electri-

cal engineering with globally renowned reputation either estab-

lished through world’s most prestigious institutions, research

centers or companies. They will help you to be proud students

of the School of ECE at UNIST that is to be one of the best ECE

program in the world in the near future.

Want to explore something truly exciting? Want to devote your

passion for something that enhances the life quality of mankind?

Want to have the knowledge that will enable your imagination

to be realized?

The answer is Exciting ECE!

Join us in the ECE!

Franklin Bien, Ph.D.

Head, School of Electrical and Computer Engineering

scHool of elecTrical and compuTer enGineerinG

Welcome to Exciting ECE!

The school of electrical and computer engineering at UNIST is

dedicated to educating students in interdisciplinary scholarship

that will serve for our future society.

Our teaching and research take places in interdisciplinary pro-

grams and institutes where traditional departmental boundaries

are things of the past.

Our mission is to provide enabling technologies for the future

way of life through the convergence of electrical and computer

engineering with new nano, bio, and environmental technolo-

gies. Our efforts will bring out exciting new technologies that

will contribute not only to Ulsan’s world-leading automotive,

shipbuilding, and petroleum industries but also to industries and

societies world-wide.

The school of ECE is establishing collaborations with universi-

ties and companies on the other parts of the globe to provide

global environment for education and researches. Come join our

efforts to become a world leading institute in science and tech-

nology.

Introduction

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core courses

Sophomore : Advanced Pro-

gramming, Digital System Lab,

Discrete Mathematics, Data

Structures, Basic Circuit Theory,

Introduction to Programming

Languages, Probability and Intro-

duction to Random Processes

Junior : Computer Organization,

Introduction to Algorithms, In-

troduction to Operating Systems,

Introduction to Database, Intro-

duction to Computer Networks

Senior : Artificial Intelligence,

Computer Graphics, Mobile Com-

puting, Interdisciplinary Project

career paTHs

- Software engineer

- Computer system architect

- Network and database admin-

istrator

- Financial engineer

- IT consultant

- Security specialist

- Venture entrepreneur

- Patent lawyer

researcH areas

Computer Architecture and

System Software

- Computer Architecture

- Compiler

- Database

- Operating Systems

- Parallel and Distributed

Computing

- Scientific Computing

Information Science and Ma-

chine Intelligence

- Artificial Intelligence

- Neural Network and Machine

Learning

- Computer Vision and Image

Processing

- Data Mining

- Natural Language Processing

Computer Networks and Security

- Cryptography and System

Security

- Advanced Wi-Fi and LTE

- Future Internet

- Computer and Communication

Networks

Application Software and Soft-

ware Engineering

- Software Engineering

- Computer Graphics

- Visualization

- Human Computer Interaction

Computation Theory

- Algorithms

- Data Structures

- Programming Languages

- Theory of Computation UNIS

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elecTrical enGineerinG ee compuTer science and enGineerinG cseEE is a field of engineering deals with everything from solid-state devices and designing integrated circuits to developing information and control systems. It focuses on research and development of

IT convergence systems which are capable of enriching the future life of human being to be pleasant, secured, convenient and socially connected.

A broad range of IT technologies in the EE areas are to be proactively merged together to create new benefits with the advent of ubiquitous information society driven by digital convergence.

EE track encourages students and researchers alike to initiate a wide range of interactions among different areas in wireless communications and networking, intelligent control and assistive robotics,

multimedia signal processing, digital/analog circuits design, VLSI design, high speed mixed-signal IC, RF and wireless IC design.

EE track encompasses the experimentation, design, modeling, simulation and analysis of devices, circuits as well as complete systems. The combination of the educational program and the leading

edge testing facilities provides a full cycle exposure from concept to product realization, necessary for a top-notch quality engineer that can bring immediate contributions in both academia and in-

dustries.

While most of people are familiar with computers, not many people have a good understanding of what computer science and engineering (CSE) is really about. Implementation of computer programs

that improve the quality of human life is an important aspect of computer science and engineering, however learning how to write computer programs is not the core discipline of computer science but

just a necessary skill to implement and prove creative and innovative computational logics and ideas in many broad sub-areas of computer science such as algorithms, theoretical computer science,

programming languages, operating systems, databases, networks, computer security, computer graphics, artificial intelligence, and many more. In CSE track, students learn foundational principles of

the core sub-areas of computer science. Having this curriculum, we cultivate the finest computer scientists and engineers that have the ability of conducting highly creative and innovative research

and creating high-quality computing solutions.

core courses

Sophomore : Digital system lab,

Basic circuit theory, Electromag-

netics I, Probability & intro. to

random process.

Junior : Microelectronics I, Sig-

nals & Systems, Microelectronics

II, Intro. to electronic Devices,

Intro. to communications, Intro

to control.

Senior : Interdisciplinary project,

Electronics experiment lab,

Analog integrated circuits, Intro.

to VLSI, Digital signal processing,

Communication systems.

career paTHs

- Professor in academia

- Researcher in various research

institutes

- CEO in various companies

- Communications system

designer

- Robot designer

- Signal processing algorithm

designer

- Circuit designers

- Semiconductor process

engineers

- Computer hardware engineers

- IT analyst

researcH areas

Communications & Networking

- Digital Communication Systems

- Wireless and Mobile Networking

- Ubiquitous Sensor Network

- Next-Generation Internet & Wi-Fi

robotics & Control

- Intelligent Control

- Cognitive Robotics

- Assistive Robotics

- Smart Home Systems

Signal Processing

- Image/Video Processing

- 3D Visual Processing

- Computer Vision

- Audio Processing

- Statistical Signal Processing

- Multimedia Data Compression

Integrated Circuit Designs

- Analog, mixed-mode, RF circuits

- Digital circuits, CAD & VLSI

circuits

- Memory & sensors design

- SoC (System On Chip) design

- Green car and electric vehicle IT

Antenna/Packaging

- 3D IC and packaging

- Smart antennas

- Automotive radars

Electro-magnetic compatibility

(EMC/EMI)

- IC SI/PI

- Electric Vehicle EMC

- Wireless power transfer

- ESD

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core courses

Sophomore : Digital System Lab,

Electromagnetics I/II, Basic

Circuit Theory, Modern Physics

of Materials

Junior : Introduction to Electronic

Devices, Quantum Mechanics I/

II, Microelectronics Lab, Thermal

and Statistical Physics

Senior : Solid State Physics,

Semiconductor Engineering,

Optoelectronics

career paTHs

- Professor and researcher in

academia

- Researcher and engineer in in-

dustry : Semiconductor, display,

telecommunication, oil, medical,

solar energy, automobile,

software

- Researcher in national labo-

ratories

- Researcher and engineer in

defense industry

- Government officials

- Financial analysts : Stock, bank,

investment

researcH areas

Semiconductor Devices &

Materials

- Digital/RF nano-electronic

device development

- Quantum-embedded device

modeling on TCAD

- Non-volatile memory device

(FRAM, RRAM, MRAM)

- Wide bandgap semiconductor

(Power devices)

- Nano-Quantum device physics

- Semiconductor electromagnetic

wave detector

plasma physics & Applications

- Advanced Accelerator and

femto hard X-ray

- Development of a versatile

simulator for beam, plasma,

and wave

Novel Electromagnetic wave &

Device

- Vacuum-based High power THz

source

- THz imaging

- Metamaterials

Compressive Sensing

- A new paradigm for imaging

- Broad applications: THz imaging,

medical imaging, security imaging

deVice pHysics dpHA lot of core technologies and their associated devices, equipments, and giant facilities that have been innovating the human life and leading to the splendid modern civilization, such as public media,

ultra-fast communication, information technology, computers, and energy facilities, are essentially based on fundamental physical mechanisms. During the course of developing these technologies,

physicists and electrical engineers have been taking crucial roles as inventors or initiators. In the Device Physics (DPH) track of UNIST, we aim at educating students to be able to apply the knowledge

of basic sciences to engineering applications so that they eventually become such leaders in ground-breaking future technologies.

The students majoring in the DPH track will learn about semiconductor engineering, display engineering, optoelectronic devices, plasma, RF and terahertz engineering as well as basic courses such

as electromagnetic theory, quantum mechanics, statistical mechanics, solid state physics, optics, etc.

Youngmin kim


- VLSI & CAD, ASIC design

- [email protected]

- http://youngmin.unist.ac.kr

Jongeun lee


- Computer Architecture and Compil-

ers for Embedded Systems

- [email protected]

- http://ecl.unist.ac.kr

Beomseok Nam


- Data Intensive Computing

- [email protected]

- http://dicl.unist.ac.kr/~bsnam

Jae-Young Sim


- 3D Visual Processing, Image

Processing, Computer Vision

- [email protected]

- http://vip.unist.ac.kr

Aaram Yun


- Cryptography

- [email protected]

- http://aaramyun.unist.ac.kr

Jaehyouk Choi


- Integrated circuits and systems

design

- [email protected]

- https://icsl.unist.ac.kr

Young-ri Choi


- Computer Systems

- [email protected]

- http://ychoi.unist.ac.kr

kyunghan lee


- Mobile Social Computing and

Networking, Cloud-powered

Networking, Information Centric

Networks

- [email protected]

- https://sites.google.com/site/

khanleepage

Seungjoon Yang


- Image & Signal Processing

- [email protected]

- http://syang.unist.ac..kr

Z. Zenn Bien

- Chaired Professor

- Smart Home, Assistive Robotics &

Control Theory

- [email protected]

- http://zbien.unist.ac.kr

ki Jin Han


- EM modeling, Electromechanics

- [email protected]

- http://esdl.unist.ac.kr

Franklin Bien

- Assistant Professor/Head, Director

of GEVRC

- Analog & RF IC design

- [email protected]

- http://bien.unist.ac.kr

Jingook kim


- IC & Automotive EMC, RF interfer-

ence, ESD

- [email protected]

- https://icemclab.unist.ac.kr

Won-ki Jeong


- Biomedical Image Analysis, Visu-

alization, GPGPU, and Computer

Graphics

- [email protected]

- http://wkjeong.unist.ac.kr

Changhee Joo


- Computer and Communication

Networks

- [email protected]

- http://netlab.unist.ac.kr

Hyoil kim


- Wireless and Mobile networking

- [email protected]

- http://hkim.unist.ac.kr

Jae Joon kim


- Convergence IC design, Mixed-

Mode IC design

- [email protected]

- https://csdl.unist.ac.kr

Giljin Jang


- Machine Intelligence & Audio

Signal Processing

- [email protected]

- http://gjang.unist.ac.kr

professor

kibog Park


- Wide Bandgap Semiconductor,

Oxide Thin Film, Charge/Spin

Transport at Interface

- [email protected]

- http://kibogpark.unist.ac.kr

Eunmi Choi


- High power THz source and device

- [email protected]

- http://emchoi.unist.ac.kr

Min Sup Hur


- Laser-Plasma based Particle Ac-

celerator and X-ray source

- [email protected]

- http://cpl.unist.ac..kr

Tsz-Chiu Au


- Multiagent Systems, Intelligent

Transportation Systems, Autono-

mous Vehicles, and Automated

Planning.

- [email protected]

- http://www.cs.utexas.edu/~chiu/

Min-Suk kwon


- Photonic and plasmonic waveguide

devices

- [email protected]

- http://mskwon.unist.ac.kr

kyung rok kim


- Nano-Electronic Emerging Devices

& TCAD-based Computational

Semiconductor Device Physics

- [email protected]

- http://needs.unist.ac.kr

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What is “Exciting”

2009. 5 The 1st UNIST Expo

2009. 11 The 1st International Workshop on Smart Home System Technology

2009. 12 The 1st International Workshop on Compressive Sensing

2010. 10 IEEK CICS’10 (Conference on Information and Control Systems)

2011. 4 International Workshop on Evolutionary Algorithms

2011. 4 Green Energy Vehicle unified workshop

2012. 1 MOU with Samsung Mobile Display

2012. 2 MOU with LG

2012. 6 International Conference on IT Convergence Technology

You can be the next !!

?

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Mechanical Engineering and Materials Science & Engineering

are pivotal disciplines that are the foundations of Korean indus-

tries and play a predominant role in the economic development

especially in Korea. These disciplines are not only the backbone

of the national core industries, such as the automotive, ship-

building, aerospace, steel, and electronics industries, but are

also at the heart of advanced technologies, such as new elec-

tronic devices, next-generation displays, robotics, energy areas

of solar power & thermal energy, wind power, and geothermal

energy. We firmly believe that the importance of Mechanical

and Science Materials Engineering will be furthered in the years

to come. The MAME at UNIST was born with the founding of

the university and its mission to deliver world-class education

to students and carry out forefront research in the fields of

Mechanical Engineering and Material Sciences & Engineering,

Multidisciplinary research, creativity, and globalization are the

school’s keywords, with which the MAME is fostering the best

talents and leaders and conducting cutting-edge research that

will enhance the global competitiveness of Korea. Being a newly

founded, young university, we will do our best to educate and

research with passion and make every effort to stay abreast of

the world’s premier research universities. We appreciate your

support and encouragement!

Students, Staff, and Faculty of the MAME at UNIST

scHool of mecHanical and adVanced maTerials enGineerinG

Welcome to the School of Mechanical and Advanced Materials Engineering (MAME) at theUlsan National Institute of Science and Technology (UNIST)!

The School of Mechanical and Advanced Materials Engineering

focuses on interdisciplinary, world-class research fields. Me-

chanical engineering performs cutting-edge research on (electri-

cal) automotive, ship-building, MEMS (Micro Electro Mechanical

Systems), robotics, composite materials, precision manufactur-

ing, lasers fabrication, CAD and biomedical devices.

In addition, Materials Science & Engineering is leading a variety

of research fields such as inorganic materials, semiconductor

materials, and organic polymers by combining empirical, theo-

retical and computational approaches.

IntroductionMechanical Engineering

Mechanical Engineering is the most essential discipline in

engineering. It involves the analysis, design, manufacturing,

and control of various systems through a solid understanding

of core concepts including mechanics, dynamics, thermody-

namics, fluid mechanics, materials science, and energy. Me-

chanical engineers use the core principles as well as other

knowledge in the field to design and analyze manufacturing

plants, industrial equipments and machineries, heating and

cooling systems, motor vehicles, aircrafts, watercrafts, ro-

botics, medical devices and more.

Materials Science & Engineering

The field of materials science and engineering is directed to-

wards understanding why materials behave the way they do,

how materials are made, and how new materials with unique

properties can be created. Students will learn specific materi-

als what our daily life is made of such as metals for airplanes

and cars, ceramics for solar cells and light emitting diodes,

semiconductors for transistors, polymers for flexible devices

and get understanding how their structure, from the atomic

level to that of common objects, influences mechanical, op-

tical, electrical, magnetic, and chemical properties. Finally,

students can play a key role in creating a wide range of mod-

ern technologies; from producing high-strength, lightweight

aluminum alloys for new generations of aircrafts to the ad-

dition of a layer of atoms on the surface of materials used in

semiconductor processing.

Mechanical Engineering

Thermo-flulds & Energy

Electronic Materials

Nano & Bioengi-neering

Carbon Materials

Control & Robotics

Ceramic Materials

MechanicsPolymer

Materials

Design & Manufac-

turing

Metal Materials

Materials Science &

Engineering

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core courses

- Solid Mechanics

- Mechanical Drawing and Lab

- Dynamics

- Manufacturing Processes and Lab

- Creative Engineering Design I & II

- Interdisciplinary Project

- Machine Element Design

- System Dynamics and Control

- Applied Solid Mechanics

- Introduction to Finite Element

Method

- Introduction to Plastic

- Introduction to MEMS

- CAD/CAM/CAE

- Optimal Design

- Mechanical Vibration

- Introduction to Sensors

- Acoustics

career paTHs

- Faculty in academic

- Researchers in various com-

panies

- Researchers in national labo-

ratories

- Practicing engineer in industry

- Consultant

- Entrepreneur

researcH areas

- Robotics

- Biomechanics

- Nanomechanics

- Carbon Nanomaterials

- MEMS

- SPM

- Nanofabrication

- Multiscale Machining

- Laser Materials Processing

THermo-fluid & power enGineerinG Tfp mecHanical sysTem desiGn & manufacTurinG sdm“Thermo-Fluid and Power Engineering deals with the world’s most important problems, such as energy, transportation, health, and climate change.”

Automobiles, aircraft, ships, and submarines are designed using the principles of fluid mechanics because they move in a fluid such as air and water; they are propelled by a power-generating device

such as a jet engine or an internal combustion engine, which are all based on the principles of thermodynamics. More than 90% of all the electric power consumed in the world is generated by a funda-

mental thermodynamic power cycle, namely the Rankine cycle.

Thermo-Fluid & Power Engineering is a branch of engineering that deals with important and exciting problems like these, and has numerous applications, such as cooling problems in microchips, light

emitting diodes and data centers; renewable energy such as wind, geothermal and solar energy; biomechanics problems such as cardiovascular flows; micro/nanofluidics (which is one of the key

technologies in biochip research), and heat exchanger design in nuclear power plants.

In the Thermo-Fluid & Power Engineering track, students will learn the fundamental principles of fluid mechanics, thermodynamics and heat transfer, and how these principles are applied to real-world

problems.

Design and Manufacturing directly contributes to elevating the global standard of living Design and manufacturing is a discipline that encompasses the processes involved in converting raw materials

into value-added products The science and technology of design and manufacturing have made dramatic advances on a global scale and continue to have a major impact on the global economies of

the standard of living.

An indispensable part of the field of design and manufacturing is optimal design of mechanical systems, including automobiles, aircraft, power systems, machinery, and their integral components.

In the Mechanical System Design and Manufacturing track, students are educated and trained to learn the underlying principles of mechanical design and manufacturing engineering, and to apply the

knowledge to real-world examples and case studies hands-on.

Disciplines include machine design, advanced materials processing, laser-assisted manufacturing, micro/nano machining, MEMS, biomedical products, controls and mechatronics, acoustics and

dynamics, and tribology.

core courses

- Thermodynamics

- Fluid Mechanics

- Mechanical Engineering Lab

- Heat Transfer


- Applied Thermodynamics

- Applied Fluid Mechanics

- Numerical Analysis

- Internal Combustion Engine

- Mechatronics and Thermofluid

Control

- Combustion

- Air-conditioning and Refrigeration

- Multiscale System Design

- Energy System Design

career paTHs

- Faculty in academic

- Engineers in various companies

- Researchers in national labo-

ratories

researcH areas

- Microfluidics

- Lab-on-a-chip, Bio-chips,

Cell-chip

- BioMEMS

- Aerosols

- Nanofluids

- Computational Combustion,

Propulsion and pollution

- IC Engine

- Multiphysics Simulation

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core courses

- Introduction to Materials Science and Engineering

- Physical Chemistry of Materials I : Thermodynamics

- Physical Chemistry of Materials II : Reaction Engineering

- Introduction to Crystallography

- Materials Laboratory I & II

- Phase Transformation of Materials


- Mechanical Behavior of Materials

- State Physics of Materials

- Modern Physics of Materials

- Metallurgical Engineering

- Thin Film Technology

- Surface Engineering

- Introduction to Semiconductor

- Introduction to Polymer Materials

- Soft Materials Engineering

- Transmission Electron Microscopy

- Dislocation Theory

- Physical Metallurgy

- Electrical Ceramics

- Magnetic Properties of Materials

- Semiconducting Devices

- Semiconducting Process

- Polymer Physics

career paTHs

- College graduates with MSE de-

grees find jobs in steel, aerospace,

automotive,biomedical, chemical,

electronics, energy, consulting,

patent law and telecommunications

industries - virtually any research

field and/or industry that uses

‘stuff ’

-Possible job opportunities in ·Professors in universities

·�Researchers in national laboratories

·Patent Lawers, Researchers

·�Engineers in enterprises such as

Samsung Eectronics, Hyundai Motors,

LG Electronics, POSCO, GS Caltex, Kia

Motors, Hyundai Heavy Industry, S-Oil, SK

Energy, LG Display, LG Chemical, etc

researcH areas

- Graphene

- LED(Light Emitting Diode)

- Polymer Theory

- Organic Semiconductor

- Photonic Devices

- Inorganic Nanomaterials

- Low Dimensional Materials

- Organic/Molecular Electronics

- Scanning Tunneling Microscopy

- Structural Light Alloys

- Metal-Based Biomaterials

- Mulitfunctional Nanocomposites

maTerials science & enGineerinG mseMaterials drive our society and the quality of our everyday lives is improved by revolutionary materials. Materials Science & Engineering is to investigate the relationships that exist between the

structure and properties of materials and to engineer the structure of materials to produce a predetermined set of properties. Materials Science & Engineering is directed towards general concept of

understanding various materials such as metals, ceramics, semiconductors, polymers, carbon-based nanomaterials and so on. This track enables students to understand why materials behave the

way they do, how materials are made, and how new materials with unique properties can be created, by not only macroscopic but also microscopic understanding of materials.

Students will learn about advanced materials based on structural materials covering cars, ships, aerospace, civil, (opto-)electronic materials covering semiconductors, and displays, energy materials

covering solar cells, batteries, superconductors, and supercapacitors, and environmental materials. Finally, students can play a key role in a wide range of modern technologies and industrial fields.

Youngil Youm/ Head

- Chair Professor

- Robotics

- [email protected]

- http://youmyi.unist.ac.kr/index.sko

Taesung kim


- Microfluidics

- [email protected]

- http://ufnm.unist.ac.kr/

Soon-Yong kwon


- Graphene

- [email protected]

- http://sykwon.blogspot.com/

Sung Soo Park


- Structural Light Alloys

- http://metalloy.unist.ac.kr/index.

sko

- [email protected]

Jaeup kim


- Polymer Theory

- [email protected]

- http://home.unist.ac.kr/~jukim/

Myoung Hoon Song


- Organic Semiconductor

- [email protected]

- http://opol.unist.ac.kr/index.sko

Jeong Min Baik



- [email protected]

- http://jbaik.unist.ac.kr/index.sko

Jung-Woo Yoo


- Organic/Molecular Electronics

- [email protected]

- http://home.unist.ac.kr/professor/

jwyoo/main/main.htm

Hyung-Joon Shin


- Scanning Tunneling Microscopy

- [email protected]

- http://sites.google.com/site/

stmshin

kyoung-Jin Choi


- [email protected]

- http://choi.unist.ac.kr/index.sko

ki-Suk lee


- [email protected]

- http://kisuk.unist.ac.kr

Hyung Wook Park


- Micro/macro-machining

- [email protected]

- http://hwpark.unist.ac.kr/index.

sko

Chung Sang Yoo


- Computational Combustion

- [email protected]


crflabs

Joonbum Bae


- Bio-Robotics, Control

- [email protected]

- http://jbbae.info

Hoon Eui Jeong


- [email protected]


ubiomimetics/

Zonghoon lee


- Atomic-scale TEM/STEM

- [email protected]

- http://zhlee.unist.ac.kr/index.sko

Ju-Young kim


- Multifunctional Nanocomposites

- [email protected]

- http://www.jyklab.org/

Sukbin lee


- 3D Generation/Reconstruction,

Characterization and Properties of

(Metallic) Structural Materials

- [email protected]

Young-Bin Park


- Composite Materials

- [email protected]

- http://ypark.unist.ac.kr/index.sko

Hyungson ki


- Laser Materials Processing

- [email protected]

- http://ptlresearch.com

Heungjoo Shin


- MEMS

- [email protected]


mnisunist/

Sung Youb kim


- Computational Nanomechanics

- [email protected]

- http://www.unist.ac.kr/profes-

sor/sykim

Jaesung Jang


- Microfluidics

- [email protected]


salabunist/

professorMechanicalengineering

professorMaterials science & engineering

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032 033032 033

MAME AthlEtic MEEt

Creativeengineering Design Presentation

MAME REsEARch IntERnshIp

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Welcome to the Nano-Bioscience and Chemical Engineering

(NBC) at UNIST. The School of NBC was founded in 2009 with

the primary mission to establish world-leading research groups

in the interdisciplinary areas of Nano-Bioscience and Chemical

Engineering. The goal of the discipline is to advance the funda-

mental understanding of biological and chemical systems, to

broaden the basic knowledge on the molecular interactions in

nano-scale, and to translate into innovative designs and engi-

neering of novel materials, devices, and processes in order to

provide paradigm-shifting solution to the complex issues such

as human health, energy, and environment.

Our goal of education is to prepare the best young students in both

undergraduate and graduate program to be the global leaders in

broad areas which interface with chemistry, biology, materials

science, and chemical engineering. The examples of the industry

that UNIST graduates in school of NBC would create high-impact

value include biotechnology, biomaterials, pharmaceuticals, fi ne

chemicals, catalyst, polymers, electronic devices and materials,

synthesis and processing of chemicals and materials, and envi-

ronmental engineering etc.

The school of NBC faculty, staff, and students also play a key role

for the Research Institute of Biological and Chemical Sciences at

UNIST, of which main trusted areas are “Nanotechnology for Sus-

tainability” and “Integrated Biosystems Dynamics”. The excellent

infrastructures such as Nano Fabrication Center, Hans Schöer

Stem Cell Research Center, UNIST OLYMPUS Biomed Imaging

Center, and In-vivo Research Center support the world-leading

research and education.

The faculties of the school of NBC have been already very suc-

cessful in recruiting highly competitive national grants for group

research; the World Class University (WCU) and Renewable

energy program in 2009 and the prestigious Science Research

Center (SRC) in 2010. The school of NBC started international col-

laboration from its early years. For example, globally-renowned

institutions such as University of California at Irvine, Max Planck

Institute for Molecular Biomedicine, Indian Institute of Technol-

ogy at Kanpur are currently in active collaboration.

The Nano-Bioscience and Chemical Engineering was designed

for an emerging field combining Chemical Engineering principles

with Life Science and Nanotechnology. Students can learn fun-

damental science and engineering principles that can be used to

improve the quality of life on earth and solve the most challeng-

ing issues of the 21st century. The field of Nano-Bioscience and

Chemical Engineering encompasses a wide range of interests

including biomedical and genetic engineering, green energy and

environments, and advanced materials.

Students can achieve in-depth knowledge and hands-on experi-

ence on nano materials and devices, polymers, fine chemicals,

applied molecular chemistry, bioengineering, biomedical en-

gineering, life science, and chemical engineering related sub-

jects.

I encourage you to learn more about Nano-Bioscience and Chem-

ical Engineering at UNIST and be part of the team to make your

dream come true.

Yoon-kyoung Cho

Head, school of Nano-Bioscience and Chemical Engineering

scHool of nano-Bioscience and cHemical enGineerinG

“world-leading research groups in the interdisciplinary areas of Nano-Bioscience and Chemical Engineering” Introduction

Advanced Chemical EngineeringGreen, Environment, Catalysis,

Reaction Engineering, System Design, Colloids,

Thermodynamics

Bio-engineeringBiochip·Sensor, Mo-

lecular Imaging, Drug Delivery System, Medical

Engineering, Biofuels

Nano Chemical Science Physical Chemistry, Organic Chem-istry, Inorganic Chemistry, Material Chemistry

Biomedical ScienceDrug Design, Personalized Medicine, Artificial Internal Organ, Regenerative Medicine, Diagnosis, Therapy, Inoculation Colloids

NBC

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core courses

- Organic Chemistry I

- Physical Chemistry I

- Chemical Reaction Engineering

- Transport Phenomena I

- Introduction to Polymer Science

and Engineering

career paTHs

- Chemical Plant Process

Engineer

- Process Safety Engineer

- Product Engineer

- Manufacturing Production

Engineer

- Professor

- Biomedical Specialist

- Patent Agent

- Project Engineer

- Quality Control Engineer

researcH areas

- Catalysis

- Thermodynamics / Statistical

Mechanics

- Transport Phenomena

- Organic/inorganic nanomateri-

als

- Functional nanodevices/sensors

- Polymer Rheology

- Multiscale Modeling/Simula-

tions

- Molecular Physcis

- Energy materials

core courses

- Organic Chemistry I

- Analytical Chemistry

- Organic Chemistry II

- Physical Chemistry I

- Inorganic Chemistry

career paTHs

- Chemist

- Research Scientist

- Research Chemist

- Analytical Chemist

- Technical Officer

- Product Development Chemist

- Quality Control Scientist

- Patent Agent

- Laboratory Technician

- Technical Writer

- Forensic Technician

- Pharmaceutical Development

and/or Sales

- Product Testing and Analysis.

researcH areas

- Atom and molecule optics (Graz-

ing incidence atom optics)

- Optical force spectrometry

- Sustainable Inorganic Chem-

istry

- Materials for energy and envi-

ronment applications

- Fast dynamics of proteins

- Spectroscopic characterization

of material-based complexes


- Nanocatalysis

- Polymer Synthesis, Supramo-

lecular Chemistry, Biopolymers

- Carbohydrates and Biologically

active Compounds

- Electrode materials

nanocHemical science ncs adVanced cHemical enGineerinG aceThe NCS offers a through knowledge in all areas of chemical science including organic, inorganic, physical, biological chemistry and nanosciene. In addition to gaining chemical concepts, students will

have an improved capacity to think creatively and logically while carrying out their research as research interns and undergraduate researchers. Apart from computing/lab skills, NCS track students

will learn the value of collaboration and teamwork as a part of a group from the lectures and research experience. A large number of students pursues their graduate degrees, MS and Ph.D in chemistry

and related areas to be a world-leading professional in academia and research institutions.

A chemical process is a combination of steps, in which starting materials are converted into desired products using equipment and conditions. ACE track provides a challenging curriculum including

thermodynamics, synthetic chemistry, biotechnology, environmental health and safety industry, and reaction engineering, Chemical engineers are involved in manufacturing, research, education,

process design and development, and marketing.

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core courses

- Biochemistry I

- Biochemistry Laboratory

- Molecular Biology

- Cell Biology

- Anatomy and Physiology

career paTHs


- Pharmaceutical Developers

- Clinical data analyst

- Health care specialist

- Forensic science professional


- Business analyst

- Biotech Engineer and/or

Manager

- Biotech and/or Biomedical

Company CEO

- Bioinformatics developer

- Quality Control supervisor

- Patent Agent

- Project Manager

- Biotech sales specialist

- Laboratory supervisor

- Technical Writer

researcH areas

- Cancer research

- Aging and degenerative

diseases

- Stem cell research

- Inflammatory diseases

- Diabetes and metabolic

diseases

- Immunology

- Calcium signaling and dynamics

in disease

- Neurological disorders

- Structural biology

- Bioinformatics

- Developmental Biology

core courses

- Biochemistry I

- Biochemistry Laboratory

- Chemical Reaction Engineering

- Transport Phenomena in Bio-

logical Systems

- Nano-Bioengineering

career paTHs


- Bioengineering Technical Of-

ficer or Specialist

- Process and Product Engineer

and/or Manager

- Pharmaceutical Developers


- Biotech Engineer and/or

Manager

- Biotech and/or Biomedical

Company CEO

- Quality Control Scientist and/

or Engineer

- Patent Agent

- Project Manager

- Laboratory Technician

- Technical Writer

researcH areas

- Biosensing and imaging

- Micro/Nanofluidics & Lab-on-

a-chip

- Optics & medical diagnostics

- Biomedical & tissue engineering

- Soft matters

- Protein & biomolecular engi-

neering

- Biopolymers and supramolecu-

lar assembly

- Drug delivery systems

- Biocompatible materials

- Synthetic biology

- Systems biology

- Biofuels

- Applied microbiology

BioenGineerinG Ben Biomedical science BmsBioengineering (BEN) applies concepts and methods of physics, chemistry, life science, mathematics, and computer science to solve problems in life sciences, using engineering’s own analytical and

synthetic methodologies. Bioengineering uses physical and mathematical sciences to analyze, design and manufacture inanimate tools, structures and processes as well as the rapidly-developing

body of knowledge known as molecular biology and biomedical science, to study many aspects of living organisms. The main fields of bioengineering include biomedical engineering, biomimetics,

biotechnology, cell and tissue engineering, genetic and metabolic engineering, and bioenergy and bioprocess engineering. The Bioengineering track provides not only a number of pertinent courses

which cover broad range of basic science and practical engineering, but also practical experience through in-depth discussions and laboratory experiments.

BioMedical Science undergraduates often go into careers related to their discipline, ranging from basic science researcher studying fundamental problems in life science to clinical data managers

analyzing variety of information from human disease research. The most abundant employment opportunities are provided by government-funded research institutes, university research centers,

medical research institutes, and industrial biomedical research laboratories. Many undergraduates go to higher level education, MS and Ph.D. degree program, to enhance their research capabilities

and employment.

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Sung kuk lee


- Biofuels, Synthetic Biology

- [email protected]


skleelab/

Yung Sam kim


- Ultrafast 2D IR Spectroscopy, Fast

Protein Dynamics, Peptide-Solvent

Interaction

- [email protected]

- http://kimys.unist.ac.kr/

Ja-Hyoung ryu


- Cancer Drug Delivery, Cancer Im-

aging, Stimuli-Sensitive Polymer,

Supramolecular Assembly, Organic

Chemistry, Synthetic Peptide As-

sembly

- [email protected]


jahyoungryu2/

Woonggyu Jung


- Optical imaging, Fiber optic sensor,

Early disease detection, Wound-

healing monitoring

- [email protected]

- https://www.sites.google.com/

site/tblunist/

Bum Suk Zhao


- Atom and Molecule optics,

Physical Chemistry, Optical Force

Spectrometry

- [email protected]

- http://amol.unist.ac.kr

Wonyoung Choe


- Metal-Organic Frameworks for

Sustainable Materials Chemistry:

Gas separation, optical sensors,

stimuli-responsive materials,

oxygen reduction reaction, and

heterogeneous catalysis

- [email protected]


thechoegroup/

Jang Hyun Choi


- Obesity, Diabetes, Metabolic Syn-

drome, Signal Transduction, Global

Gene Expression

- [email protected]

- https://sites.google.com/site/dia-

betesandmetabolism/

Chang Young lee


- Nanomaterials, Neuroengineering,

Analytical Chemistry

- [email protected]


cyleegroup/

Sang kyu kwak


- Molecular Modeling and Simula-

tion, Statistical Mechanics and

Thermodynamics, Molecular

Physics

- [email protected]


skkwak/

Pann-Ghill Suh

- Professor/Dean of Planning &

Research

- Dean of Academy-Industry Cor-

poration, Signal transduction on

metabolic diseases cell differentia-

tion (cancer &stem cells)

- [email protected]


pgsuh/

Hans r. Schöler

- Chair Professor

- Establishment of Pluripotency Dur-

ing Development

- [email protected]

- http://www.mpi-muenster.mpg.de/

en/index.html

Yoon–kyoung Cho

- Associate Professor/Head

- Lab-on-a-chip, Biosensors, Sur-

faces and Interfaces, Microfluid-

ics, Nanorheology

- [email protected]

- http://sites.google.com/site/yoon-

kyoungcho/

Byoung Heon kang


- Cancer biology, Cell death

pathway, Mitochondrial biology,

Anticancer drug development

- [email protected]


mitomed/

Chan Young Park


- Calcium Signaling, Drug Discovery,

Molecular Cell Biology, Immunol-

ogy, Neurobiology.

- [email protected]


cypark/

kyung-Tai Min

- Professor

- Molecular and Cellular Neurobiol-

ogy: mitochondrial dynamics, neu-

ronal polarity, - - dendritic spine

structure, local protein synthesis

- [email protected]

Chang Wook lee


- Structural biology, Protein bio-

chemistry and X-ray crystallogra-

phy, Cellular biophysics, Membrane

fusion and fission, Aging

- [email protected]


changwooklab/

Cheol-Min Ghim


- Syntheitc Biology, Stochastic Bio-

chemistry, Molecular Evolution

- [email protected]


qbiounist/

Chunggi Baig


- Multiscale Modeling and Simulations

of Polymer/Bio/Nano-photonic Ma-

terials, Rheology of Macromolecular

Fluids and Constitutive Modeling,

Nonequilibrium Thermodynamics/

Statistical Mechanics

- [email protected]


chunggibaig/

Dougu Nam


- Bioinformatics, Systems Biology,

Applied Statistics

- [email protected]


bigunist1/

Hyunhyub ko


- Functional Nanomaterials and

Devices, Organic/Inorganic Hybrid

Nanostructures

- [email protected]


hkolab/

HyungJoon Cho


- Cancer Imaging, MRI/PET method

Development, Emerging Imaging

modalities

- [email protected]


bislabunist/

Hyug Moo kwon

- Professor

- Transcriptional regulation in

inflammatory diseases

- [email protected]


triilabunist/

Jang-Ung Park


- Flexible and Stretchable Electron-

ics, High-Resolution Printing,

Bioimplantable Medical Device

- [email protected]


jangung/

kyoung Taek kim


- Polymer Synthesis, Supramolecu-

lar Chemistry, Biopolymers

- [email protected]


ktkim/

Sang Hoon Joo


- Inorganic Nanomaterials, Energy

Materials, Catalysis

- [email protected]


shjoogroup/

Sung You Hong


- Organic and Inorganic Synthesis,

Carbohydrate Chemistry,Medicinal

Chemistry, Catalyst and Coupling

reactions

- [email protected]


syhorginorg/

robert James Mitchell


- Applied Microbiology, Biofuels,

Predatory Bacteria, Toxicogenom-

ics, Bioremediation

- [email protected]

- http://sites.google.com/site

aemlab/

Jeong Beom kim


- Regenerative Medicine, Stem Cell

Biology, Developmental Biology,

Neurology

- [email protected]

- http://sites.google.com/site/unist-

bml/professor

Sebyung kang


- Protein Engineering, Bio-Inspired

Nanomaterials Synthesis, Protein

Mass Spectrometry

- [email protected]

- http://sites.google.com/site/pro-

teinnanobio/

Yoonkyung Do


- Cellular and Molecular Immunol-

ogy, Dendritic Cell Immunobiology,

Vaccine Development

- [email protected]

- http://www.unist.ac.kr/profes-

sor/doyk/

Joon Hak oh


- Organic Semiconductors, Polymer

Nanomaterials, Organic Solar Cells,

Organic Transistors, Sensors,

Graphenes.

- [email protected]


unistoel/

Tae Joo Park


- Molecular mechanisms for the

morphogenesis during vertebrate

development

- [email protected]

- http://sites.google.com/site/unist-

morphogenesis/

professor

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Special lecture by Dr. John b. GurDon

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Welcome to the UNIST Trans-disciplinary Design Hub!

Founded in 2009, the School of Design & Human Engineering

(DHE) at UNIST offers higher education and research programs

in 3 major disciplines (Integrated Industrial Design, Affective

and Human Factors Engineering, and Engineering & Systems

Design). By close and active collaboration between faculties,

and with systematic support from the university, the DHE aims

to establish strong interdisciplinary educational and research

programs that combine all 3 areas.

To achieve our goal of becoming a leading design school not

only in Korea but also globally, we build state-of-art design fa-

cilities and invite world-renowned professors with outstanding

research records and industry experience. We also recruit tal-

ented students from around the world who are ready to enjoy

the challenges and unique opportunities that our program can

offer.

We help our students become creative designers and engineers

who can exercise designerly way of thinking and engineering in

every problem they face, and create innovative and efficient so-

lutions to help others and change the way we live.

My colleagues and I are very much committed to this mission.

If you are interested, do not hesitate to contact us. Let us know

how the DHE at UNIST can help you.

SeonHee Jung, Assistant Professor

Head, the School of Design & Human Engineering

scHool of desiGn andHumanenGineerinG

Welcome to the UNIST Trans-disciplinary Design Hub!

“Creativity is the heart of the matter!”Dr. Myun Woo lee, Chair Professor, DHE

Introduction

The School of Design and Human Engineering (DHE) focuses

on theoretical and practical studies related to innovative de-

sign creation by investigating human physical, cognitive and

emotional needs. The DHE emphasizes synthetic thought pro-

cesses that require interdisciplinary and convergent knowl-

edge from (but not limited to) art, engineering and the cultural

& natural sciences.

The DHE provides three specialized tracks - Integrated In-

dustrial Design (IID), Affective & Human Factors Engineering

(AHE), and Engineering & Systems Design (ESD) including

color science. A wide range of curricula develops students as

global experts performing creatively in diverse areas across

design and engineering.

The DHE deals with the full process of product/system design

development. In collaboration with other disciplines, the out-

comes of class projects are combined and synthesised within

a product to be produced. We aim to make a product/system

which can be applied to the real business world and encour-

age our students to start their own new business models.

Vision

The educational vision for the DHE School is to educate “21st century Leonardo da Vincis for

a new renaissance era” with a novel interdisciplinary educational and research paradigm for

Design-Engineering integration.

“Designed by UNIST, Made in UNIST”

To educate New Design Paradigm leaders

21C Leonardo Da Vinci

To develop “UNIST Trans-Disciplinary Design Hub”

Convergent design engineering venture valley

(education + research + industry + business)

IID

AHE AHE

ESD ESD

DHE

Advanced

Research

Product

Planning

Aesthetic

Design

Engineering

Design

Evaluation Manufacturing

Design & Human Engineering

Integrated

Industrial Design

(IID)

Engineering &

Systems Design

(ESD)

Affective &

Human Engineering

(AHE)

Design

Thinking

Research-OrientedVS.

Practice-OrientedProgram

Tech-Design Venture

Design by DHE Made in UNIST

Global Academic Industrial Collaboration

UNICIAD

IntegratedResearch+Education

+Practice

6+3+αCurriculum Path(Double Major)

100% English Lecture/Global Internship

Global Mind

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core courses

- Design Thinking

- Creative Design

- Introduction to Human Factors

Engineering

- Engineering Psychology

- Experimental Design

- Work Measurement & Method

- Usability Engineering

- Safety Engineering


career paTHs

- Product/system planning, en-

gineering design or evaluation

departments

- UI/UX consulting

- R&D centers in global engineer-

ing companies

- Research institutes and schools

researcH areas

Ergonomic Design, Engineering

and Evaluation

- Ergonomic Product Design /

Engineering

- High Touch Design

- Workplace/Workspace Layout

- Usability Engineering

- DHM

Human Interaction research

- PUI / HMI / HCI / BC

Physical Human Factors Engi-

neering

- Workplace Layout

- Biomechanics

- WMSD / Safety

Cognitive Human Factors Engi-

neering

- HCI

- Cognitive Task Analysis

- Cognitive Process Modeling

inTeGraTed indusTrial desiGn iid affecTiVe and Human facTors enGineerinG aHeStudents develop the ability to deal with design language and the principles of form development for industrial product design based on systems of mass production. The IID track is also designed to

foster designers that will lead innovative product development and differentiation through an education spanning the entire process of product development in industrial systems and the business en-

vironment. In the competitive global business world and high concept society, students will find their place as integrative design thinkers, who are able to integrate user centered design and scientific

methodology in design, adding creative value to business.

Students learn the basic knowledge and functions of human physical, perceptual, cognitive, affective systems, experimental design, color engineering, usability engineering, user experience engi-

neering, and systems engineering approaches. Affective engineering focuses on understanding the effects of various stimuli on humans (especially their perception and cognition), quantifying human

emotions, and applying such knowledge to product/system design, engineering and evaluation. Human factors engineering, based on a systems approach, applies what is known about human behavior,

anatomy, physiology, and perceptual / cognitive / affective processes to the planning, design, engineering and evaluation of products, technologies, systems, and work methods / environments.

core courses

- Design Thinking

- Creative Design

- Design Elements and Principles

- Design Knowledge and Skill

I & II

- Product Design Fundamentals

- Product Design I & II

- Design System


career paTHs

- Design, marketing and planning

specialists in global companies

- Design firms and agencies

(private, public)


researcH areas

Product Design Engineering

- Integrated product development

- Design theory and methods

- Innovative product design

process

- Digital design

Interaction Design

- Human-centered design

- User-Experience Design

- Emotional Design

Strategic and Service Design

- Strategic design

- Design for services

- Design Management

- Design for social innovation and

sustainability

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core courses

- Design Thinking

- Creative Design

- Introduction to Engineering

Design

- System Control

- Design for X

- Engineering Design Methods

- Engineering Design Project

- Manufacturing System Design &

Simulation

- Mechanical Drawing and Lab


career paTHs

- Automobile/aerospace/ship-

building/IT industries


- IT consulting firms

- Design management agencies

and firms

researcH areas

Engineering design theory &

tools

- Zero-defect&self-resilient

systems

- System modeling & analysis

- System optimizations

- PLM / DFX

- Digital design tools (VR/AR)

Mechatronics

- Intelligent system control

- Vehicle electronics & DVI

- Embedded systems

Manufacturing systems engi-

neering

- Human in systems

- Self-reconfigurable systems

- Digital manufacturing

- CAD/CAM/CAE/RP-RE

enGineerinG and sysTems desiGn esdESD provides students with systematic and innovative approaches to modern engineering design problems that require an in-depth understanding of scientific analysis and engineering synthesis,

while always encouraging collaborative creativity. In particular, the program offers advanced education and practical training for students to become skilled at the logical and systematic synthesis and

analysis processes, through which basic science principles, engineering technologies and creative/innovative ideas are translated into products, process and other systems in reality. Furthermore,

the program teaches students how to plan and manage the entire product development process. This will prepare students to succeed not merely as engineering designers but also as design manager

who are capable of driving new product development projects.

Seonhee Jung

- Assistant Professor/Head

- Strategic Design

- [email protected]

- http://shjung.unist.ac.kr/

Myun W. lee

- Chair Professor

- High Touch Design

- [email protected]

- http://mwlee.unist.ac.kr/

Youngshin kwak


- Affective Engineering

- [email protected]

- http://yskwak.unist.ac.kr

Gyouhyung kyung


- Human Factors Engineering

- [email protected]

- http://idealab.unist.ac.kr

Duckyoung kim


- System Design

- [email protected]

- http://dykim.unist.ac.kr/

kwanMyung kim


- Product Design Engineering

- [email protected]


kmyung/

Namhun kim


- Adaptive Process Engineering

- [email protected]

- http://nhkim.unist.ac.kr/

Shuping Xiong


- Ergonomic Design,

Applied Biomechanics

- [email protected]

- http://shxiong.unist.ac.kr/

Gwanseob Shin


- Ergonomics, Biomechanics

- [email protected]


gsshin/

Joonsang Baek


- Product-service system design,

sustainable design

- [email protected]

- http://desis.dothome.co.kr/

James A. Self


- Design Practice

- [email protected]

- http://dpr.unist.ac.kr

Ian oakley


- Human-Computer Interaction

- [email protected]

- http://ianokley.unist.ac.kr

Sooshin Choi

- Visiting Professor

- Product design

- [email protected]

professor

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IntervIews wIth students

Three of us, the 2nd honorary ambassador of the Design & Human

Engineering school, are all enrolling on to 2 tracks at the DHE. We

have been working in this position since January of 2012, when

our senior students recommended us to the job. They choose us

among other undergraduates because of our enthusiasm and our

love for our school, The School of Design & Human Engineering.

Because we have never done this kind of job before, we were

worried at first, but have pride in what we did. So for the last 10

months, we have had the chance to show and tell others about

the schools fascinating courses and the exciting activities that

we do during the course of the whole year. And by doing so, we

were also able to get to know the place where we spend most of

our school year. Although we graduated high school 3 years ago,

we got to know how much we have changed since graduation. We

would not have been able to understand this change if it was not

for our honorary ambassador role at the school.

Of course, another job was to tell the undergraduates, who did not

know about our DHE, all about the school. Doing all this activity

made us tired during the semester, because we also needed to

study, but by having the chance to meet all the interesting people

in the DHE, it gave us the strength to go on. For almost a year now

we have worked in this role. As it is both a great opportunity to

get to know more about our school and a huge responsibility, we

really recommend undergraduate, who have a love of the DHE, to

become the school’s 3rd honorary ambassadors.

2

3

RecentActivitiesin DHe1. DHE Interior Design

Renovation(2011.6.10) - TD Room,

Interaction Room and Lobby Area

2. Interdisciplinary Design

Workshop(2012.7.23) - Invited

Prof. Henri Christiaans from Univ.

of TuDelft

3. ‘Explore at UNIST DHE School’

Program Organized by Joong-

ang Newspaper Co. & JTBC

Broadcasting Co. (2012.6.2)- 110

middle and high school students

Participated

1

DHE Student Ambassadors’ Interview

Memorandum of Understanding (MoU) with

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There are lots of things to do in this world, but what about

being indulged in studying Urban and Environmental Engi-

neering? On behalf of the School of Urban and Environmental

Engineering(UEE) at UNIST, I would like to take this opportunity

to welcome you to our School of UEE. Your interest, enthusiasm,

and participation are the strong engine to move forward the aca-

demic programs of our School of UEE.

Growing demand of food, energy, water, and housing driven by

the exploding world population has caused serious environ-

mental issues including global climate change. Sustainability is

becoming a top requirement for adopting any newly developed

technologies, which need to be in a way to minimize adverse im-

pacts on the natural environment and at the same time keep the

mankind ever more prosperous.

“A better environment, a better life” is the motto of the UEE

and our dedicated commitment to the society. Meeting with the

critical need from the society, the School of UEE is designed to

develop convergence technologies for preserving the natural

environment and improving the quality and safety of our lives in

the built environment. As a part of UNIST, a leading research-

oriented university, we are dedicated to seriously take the chal-

lenges from our built and natural en

scHool of urBan and enVironmenTal enGineerinG

Welcome to the UNIST School of Urban and Environmental Engineering“A Better Environment, A Better life”

vironments and address many important crosscutting issues

arising from them.

The Shool of UEE provides four important inter-disciplinary

tracks (programs) on Environmental Analysis & Pollution

Control Engineering(PCE), Earth Science & Engineering(ESE),

Urban Development Engineering(UDE), and Disaster & Risk

Management Engineering(DRE) for the undergraduate and

graduate level students. Our discipline is based on the con-

ventional engineering programs of the Earth Science, Environ-

mental Engineering, Civil & Urban Engineering, and Risk Man-

agement, and our goal is to integrate and crystallize them.

Steve Jobs, the former Apple CEO, said “You’ve got to find

what you love”. With no hesitation, I strongly recommend

that the area of UEE is what you would love to indulge in. We

are looking forward to seeing your active participation in the

education and research activities of our school in the near

future.

Thank you very much.

Sustainable & resilient Future City

Sustainable Citymeets the needs of the present

without compromising the ability

of future generation’s needs

resilient Cityhas capacities for absorbing and

counter-acting future shocks and

disasters to its social, economic

and infrastructural systems

Urban DevelopmentEngineering

Earth Science and Engineering

Environmental Analysis &

Pollution Control Engineering

Disaster & Risk Management Engineering

Introduction

The school of Urban and Environmental Engineering (UEE) at

UNIST provides a unique interdisciplinary educational program

merging environmental engineering, earth science, urban de-

velopment engineering, and disaster & risk management engi-

neering for the future sustainable and resilient urban built envi-

ronment against various natural and men-made hazards.

The field of UEE provides humans with infrastructure related

to housing, industry, and transportation, which are needed for

our daily life and industrial activities. In this field, UNIST aims to

nurture intellectuals who can develop cutting-edge technolo-

gies associated with UEE. As such, we are striving to improve

human welfare by carrying out research related with improv-

ing and protecting nature while, and at the same time, seeking

to develop methods to efficiently handle urban issues. In this

school of UEE, professors are educating students to gain basic

knowledge related to UEE at the fundamental level and practi-

cal insight into the real problems in our environment and urban

society.

Chung-Bang Yun, Ph.D.

Head, School of Urban and Environmental Engineering

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core courses

- Global Environment

- Introduction to Environmental

Engineering

- Atmospheric and Ocean Sci-

ences

- Environmental Thermodynamics

- Climate Dynamics

- Air Pollution

- Earth Environment Numerical

Analysis

- Environmental Chemistry

- Atmospheric Chemistry

- Hydrology

- Introduction to Remote Sensing

- Air Pollution Control

- Climate Change Engineering

career paTHs

National research Institutes

Korea Institute of Science and Technology, Korea Aero-

space Research Institute, National Institute of Environ-

mental Research, Korea Institute of Energy Research,

Korea Institute Geoscience and Mineral Resources,

Korea Institute of Ocean Science & Technology, etc.

Government and Public offices

Ministry of Environment, Ministry of Land, Transport,

and Maritime Affairs, Korea Meteorological Adminis-

tration

National Companies

Korea Water Resources Corp., Korea National Oil Corp.,

Korea Gas Corp., Korea Resources Corp.

Private Companies

Samsung, LG, SK, Hyundai, POSCO, Korean Air, Asiana

Air, Weathernews, K-Weather

Academia and Universities

reasearcH areas

Climate and Environmental Monitoring

Air Pollution and Long-range Transport of Pollutants, Satellite

Remote Sensing, Atmospheric Monitoring of Persistent Organic

Pollutants

Climate Prediction and Modeling

Development of multi-scale

climate prediction models,

Climate and Environmental

Prediction for Future Climate

Change, Forecasts of Hazard-

ous Weather and Typhoon,

Climate Dynamics and Theory

Climate Change Mitigation

Carbon Capture & Storage, Air

Pollution Control, Application

of Gas Hydrates to Energy and

Environment

core courses

- Introduction to Environmental

Eng

- Water Pollution

- Water Treatment Engineering

- Water & Wastewater Engineer-

ing

- Wastes Management

- Environmental Chemistry

- Environmental Bioprocess

- Environmental Remediation

- Analysis of Pollutant

- Aquatic Chemistry Laboratory

career paTHs


National Institute of Environmental Research, Korea Institute of Science

and Technology, Korea Institute of Construction Technology , Korea

Environment Institute, etc.

Government Branches

Ministry of Environment, Ministry of Land, Transport, and Maritime Af-

fairs, Ministry of Public Administration and Security, etc.

Public Corporations

K-water, Korea Environment Corporation

Private Corporations

Samsung Eng, Hyundai Eng, Hyundai E&C, SK E&C, Doosan Eng, GS E&C,

POSCO E&C, Daewoo E&C, Woongjin Coway, Woongjin Chemical, Kolon

Global, Samsung electronics, LG electronics, LSIS, etc.


reasearcH areas

Membrane Technology

Water/wastewater/seawater treatment, Foward osmisis membranes,

Biofouling mitigation

Advanced oxidation Technology

Photochemical oxidation, Water treatment using nanoparticles, Chemis-

try of reactive oxygen species

Waste-to-value Biotechnology

Biogas production (CH4, H2), Recovery of nutrients and metals, Bioelec-

trochemical systems

Aquatic Ecosystem Modeling

Water quality modeling, Pollutant transport in

aquatic systems, Eutrophication and algal bloom

Water/wastewater Treatment

Energy self-sufficient wastewater treatment

system, Sewage sludge pretreatment process,

Nobel treatment process design

enVironmenTal analysis & polluTion conTrol enGineerinG pce

earTH science and enGineerinG ese

PCE is among the most highly demanded areas of expertise in these times of serious energy and environmental crisis. Producing qualified professionals in the relevant fields, we strive to provide the

students with the highest quality academic and technical education in analysis and treatment of environmental pollutants. This rack emphasizes the basic principles of various state-of-the-art instru-

ments, different analysis techniques, physicochemical and biological treatment of pollutants, environmental remediation, and waste treatment and recycling.

The ESE track offers relevant course works to improve the scientific understanding of the climate change and develop modern engineering technologies to mitigate adverse impacts on the Earth

climate system by human activity. Major objectives of the track include the monitoring, prediction, and mitigation of climate change, which help societies in minimizing natural disasters and risks by

providing scientific evidences. The track educates ESE major students to address various issues on climate and environmental changes in the scale from global to regional, and to urban, by studying

core courses of Global Environment, Climate and Environmental Modeling, Remote Sensing, Air/Soil/Water Pollution, Hydrology, and Climate Change Engineering.

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core courses

- Natural Hazards

- Man-made Disasters

- Disaster Analysis

- Probability Concepts in Engi-

neering

- Stochastic Mechanics

- Weather Analysis and Predic-

tion

- Numerical Modeling and

Analysis

- Water Resources Engineering

- Disaster Management

- Economics of Disaster

- Vulnerability and Capacity As-

sessment

career paTHs

Government Branches

Ministry of Public Administration and Security, National Emergency Man-

agement Agency, Ministry of Land, Transport and Maritime Affairs, etc.

International organizations

United Nations (UNDP, UNEP, UNISDR), World Bank, etc.


National Disaster Management Institute, Korea Environment Institute,

Korea Atomic Energy Research Institute, Korea Institute of Construction

Technology, etc.

Public Corporations

Korea Water Resources Corporation, Korea Land & Housing Corporation,

etc.

Private Companies


reasearcH areas

Structural Dynamics and Stochastic Mechanics

Earthquake, wind, offshore engineering, damage identification and

maintenance

Structural reliability and risk Assessment

Reliability-based structural design and maintenance, fragility analysis,

hazard models, probabilistic risk assessment of civil infrastructure

systems

High-impact Weather Prediction

Development of numerical models

for high-impact weather and climate,

real-time weather forecasting &

regional climate modeling

Disaster risk Management

Policy and planning for disaster risk

reduction, vulnerability and capacity

assessment

core courses

- Introduction to Urban Planning

- Geographic Information System

- Urban Design

- Urban Transportation Planning

- Urban and Regional Develop-

ment

- Introduction to Civil Engineering

- Mechanics of Materials

- Structural Analysis

- Matrix Structural Analysis

- Structural Engineering Lab

- Concrete Structures

- Concrete Microstructure

- Properties of Concrete

- Steel Structures

- Introduction to Structural

Dynamics

career paTHs


Korea Institute of Construction Technology,

Korea Conformity Laboratories, Architectural

and Urban Research Institute, etc.

Government Branches

Ministry of Land, Transport, and Maritime

Affairs, Board of Audit and Inspection of Korea,

etc.

Public Corporations

Korea Highway Corporation, Korean Railroad

Corporation, Urban Development Corporation,

etc.

Private Corporations

Hyundai, Samsung, GS, Posco, SK, Daewoo,

Daelim, Lotte, Dohwa, Hyundai Eng, Samsung

Eng, etc.


reasearcH areas

Structural Materials

Nano-, micro-structure characterization and mechanics for carbon-zero binding materials, sustainable

construction materials (e.g., fly ash, slag, recycled aggregate, sulfur concrete), and high performance

fiber-reinforced cementitious composites

Structural Mechanics and Design

Multi-scale applied mechanics, design optimization against multi-hazards, earthquake-resistant design,

modeling, and assessment for urban infrastructures (e.g., super-tall buildings, long-span bridges)

Structural Dynamics and Monitoring

Structural health monitoring, smart sensors and sensor network, system identification and damage as-

sessment, structural dynamics and experimental methods, structural control

Geotechnical engineering

Soil and rock mechanics, mega-scale foundation engineering, coastal and

underwater foundation technology for ocean green-energy development

Urban Planning

Sustainable and resilient planning, design, and management for the urban

built environment

urBan deVelopmenT enGineerinG ude disasTer and risk manaGemenT enGineerinG dreUDE is a profession that often confronts extreme problems associated with developing and sustaining civilized society by applying fundamental principles of science and mathematics. The mission of

our UDE track is to develop engineers with essential expertise in planning, design, construction, and management of urban built environment, who have the enthusiastic nature of their special role in

the future of human society. The UDE program consists of major disciplines in urban and civil engineering, such as urban planning, construction materials, structural mechanics and design, smart sens-

ing and control, and geotechnical engineering. Through innovative education and research, the students will develop dynamic abilities on creating (1) sustainable and (2) resilient urban infrastructure

systems for our future generations.

A disaster causes a grave disruption of the functionality of cities, and it sometimes exceeds the ability of the cities to recover in a short period of time. The sustainability of cities is seriously hindered by

such disasters. The Disaster & Risk Management Engineering track provides an interdisciplinary undergraduate education, integrating the diverse expertise of urban/civil engineering, environmental

engineering and earth/climate engineering to mitigate the impact of unexpected disasters. The track focuses on (1) natural hazard monitoring/prediction; (2) sustainable and resilient infrastructure; (3)

disaster risk reduction/prevention; and (4) water resources and flood management.

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Chung-Bang Yun

- Chair Professor / Head

- Structural Dynamics and Stochas-

tic Mechanics

- [email protected]

- http://cbyun.unist.ac.kr

Young-Nam kwon


- Membrane Technology and Aquatic

Chemistry

- [email protected]

- http://kwonyn.unist.ac.kr

Sung-Deuk Choi


- Multimedia Environmental Moni-

toring and Modeling

- [email protected]


sdchoi

lee, Changha


- Water Treatment Using Chemical

Methods

- [email protected]

- http://artlab.re.kr

Myong-In lee


- Climate Modeling and Environmen-

tal Prediction

- [email protected]

- http://climate.unist.ac.kr

Jae-Eun oh


- Low Carbon Construction Struc-

tural Materials

- [email protected]


nanoaims

Myoungsu Shin


- Seismic Design / Tall Buildings /

High Performance FRC

- [email protected]

- http://msshin.pe.kr

Sung-Han Sim


- Structural Health Monitoring,

Smart Sensor, Structural Dynamics

- [email protected]

- http://ssim.unist.ac.kr

Jae Hong kim


- Mechanics and Material Charac-

terization of Concrete

- [email protected]

- http://concrete.unist.ac.kr

Sarah kang


- Analysis of climate change impacts

(global warming, ozone hole) on

circulation

- [email protected]

- http://skang.unist.ac.kr

Gi-Hyoug Cho


- Relationship between travel pat-

tern and the built environment

- [email protected]

- http://gicho.unist.ac.kr

Changsoo lee


- Environmental biotechnologies

for pollution control and energy/

resource recovery from waste

materials

- [email protected]


ableunist

Yongwon Seo


- Carbon Dioxide Capture and

Storage

- [email protected]

- http://ywseo.unist.ac.kr

Jungho Im


- Environmental Remote Sensing

and GIS

- [email protected]

- https://ersgis.unist.ac.kr

Marco Torbol


- Reliability and Risk Assessment of

civil infrastructure systems.

- [email protected]

Dong keun Yoon


- disaster risk management, Policy

and planning for disaster risk re-

duction

- [email protected]

- http: //dkyoon.unist.ac.kr

Dong-Hyun Cha


- Numerical Modeling of High-impact

Weather and Climate

- [email protected]

- http: //dhcha.unist.ac.kr

professor

Meet Our GlObal PhD FellOwshiPwinners! DeSign your life at uee

1

2

3

41 Second Year Student Orientation

2 UEE Athletic Meet

3 Teacher’s Day Event

4 UEE Family Workshop

A Novel Approach to Unveil Mechanisms of Tropical Cyclone Ac-

tivity Using Very-High resolution Global Climate Model

“I am very proud of being a GPF student and full of enthusiasm for

my research. I will keep doing my best to live up to the expecta-

tions of people who supported me.” -Hyerim Kim-

Development and Application of Smart Membranes for Green

Energy Generation and Wastewater Treatment Using Pressure

retarded osmosis (Pro) Technology

“With a ‘go further’ attitude, I will do my very best in every step

of my journey to success. I hope to be a leading scientist in the

membrane technology field someday.”-Byung Moon Jeon-

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inTerdisciplinaryscHool of Green enerGy

The green technology is a new growth engine in the world, leading industry of the next generation.

Due to the trend, Interdisciplinary School of Green Energy concentrates on cultivating advanced tal-

ents demanded by industries and also on researching secondary battery, fuel cells, solar cells, and

nuclear energy in two tracks which are Energy Conversion & Storage and Nuclear Science & Engi-

neering.

Jaephil Cho, Ph.D.

Head, Interdisciplinary school of green energy

Welcome to Interdisciplinary School of Green Energy!

Introduction

Humanity’s Top Ten Problems for next 50 years

1. Energy 2. Water 3. Food 4. Environment 5. Poverty

6. Terrorism & War 7. Disease 8. Education 9. Democracy 10. Popolation

(Richard E. Smalley, Ph.D.Based on a transcript of a talk given for the MIT Enterprise Forum, Houston TX, January 22, 2003)

There are various environmentally friendly renewable energy resources available which have

the potential to mitigate the consequences of using fossil fuels and the associated pollution

caused by them. These power generation techniques are described as renewable because they

are not depleting limited natural resources such as oil and gas which are finite.

The Interdisciplinary School of Green Energy has committed itself to pursuing research into

these green technologies as a way of shifting our dependence on fossil fuels towards the pro-

duction of more sustainable and economically sound energy source, particularly in the fields of

manufacture, supply, storage, transmission, and usage.

The Interdisciplinary School of Green Energy is currently carrying out research into the next

generation solar cells and photovoltaic systems to harness the infinite potential of the suns

energy. In the field of energy conversion and storage, ground breaking research is being con-

ducted on the development of high density energy storage batteries as well as fuel cells to con-

vert hydrogen into an electrical current. The application of which will lead to cleaner burning

less polluting vehicles. In addition, a more effective use of hydrogen energy will be studied by

developing better ways to produce and store hydrogen.

Nuclear energy is the largest carbon-free non-fossil energy source as well as the lowest cost

supplier for electricity production in the world. The research field in nuclear energy at UN-

IST includes the advancement of safety in operating nuclear power plants, the development of

generation fourth (Gen-IV) small and medium-sized nuclear reactors, the hydrogen production

utilizing nuclear energy conversion, and the development of nuclear fusion reactors.

From Principal to Device…

Interdisciplinary research via open lab Matrix Structure

Interdisciplinary Green Energy

Principal

Material

Device

rechargeableBatteries

Fuel CellsSolar Cells

NuclearEnergy

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core courses

- Fundamentals of Nuclear

Engineering

- Introduction to Nuclear Fuel

Cycle Engineering

- Introduction to Nuclear Fuel

Engineering

- Introduction to Nuclear Reactor

Theory

- Nuclear Engineering Design

and Lab

- Nuclear Materials Engineering

& Experiment

- Nuclear Radiation Engineering

& Experiment

- Nuclear Reactor Lab

- Nuclear Reactor Numerical

Analysis

- Nuclear System Engineering &

Experiment

- Quantum Physics

- Electromagnetics

career paTHs

research Institute KAERI, KIER,

KINAC, KINS, NFRI, INL(USA),

ANL(USA), ORNL(USA)

Public Enterprise KHNP, KEPCO,

KEPCO E&C, KRMC

Company DOOSAN, Hyundai

Heavy Industries, Samsung

Heavy Industries, Samsung

Electronics, Daewoo Heavy In-

dustries, AECL(Canada), AREVA

(France), GE (USA), Toshiba

(Japan), Westinghouse (USA)

Government MEST, MKE, NIS,

NRF, KISTEP

Graduate School SNU, KAIST,

MIT, UC Berkeley, RPI, Penn.

State Univ., Purdue Univ., Univ. of

Michigan-Ann Arbor, Texas A&M

researcH areas

Nuclear Fuels and Nuclear Fuel Cycle

Nuclear fuel rod which includes nuclear fuel and the cladding is the most

important component for the safety of the NPPs. The research in the lab

focuses on the in- reactor performance of the fuel, including FG behavior,

PCI, cladding corrosion, radiation damage of the materials, fuel fab. tech-

nology, spent fuel and nuclear fuel cycle.

Computational Nuclear reactor Physics

The research of computational reactor physics lab is focused on the compu-

tational aspects of reactor physics in general in nuclear reactors. It involves

nuclear data processing, numerical method developments to predict neutron

behavior in the nuclear reactors, the design of advanced nuclear reactors, and

high performance computing applied to the simulation of nuclear reactors.

Nuclear Materials

Nuclear materials engineering is focusing on research and development of

fuel cladding and structural metals and alloys for operating and advanced

nuclear energy system. Fundamental understanding of material behavior

by nano-scale characterization using electron microscopy, SIMS and 3-D

atom probe tomography as well as atomistic modeling using the first-prin-

ciple calculation is a key R&D topic.

Nuclear Thermal-Hydraulics

Nuclear TH supports to fill important needs for more thorough treatments of the

processes of energy (heat) generation in nuclear processes, the transport of that

energy by the reactor coolant to the power cycle, and the limitations imposed by

the transport mechanism on the design of nuclear reactor.

liquid Metal Magnetohydrodynamics (lMMHD)

The study is focused on the analysis and experimental characterization for the liquid

metal coolant in the Liquid Metal Reactor and the Nuclear Fusion Reactor. The theo-

retical and experimental study on liquid metal circulation and electricity generation

system is carried out through the electromagnetic and fluid mechanical approach.

Environmental radiation Safety

The research covers the environmental radiation monitoring around

nuclear installations. The main interest is concerned with the gamma

radiation monitoring and the radioactivity analysis on the radioactive

waste from nuclear facilities. The

study is implemented with the

fundamental understanding of

the health physics and radiation

measurement.

core courses

- Analytical Chemistry

- Electrochemistry

- Electronic Devices

- Energy conversion and Storage

- Energy Materials

- Fuel cell

- Inorganic Chemistry

- Instrumental Analysis

- Materials Science and Engi-

neering

- Nanoscience and Nanotech-

nology

- Organic Chemistry

- Physical Chemistry

- Polymer Material Science

- Solar Cells

- Solid State Chemistry

career paTHs

research Institute

ETRI, KIST, KIER, RIST, KRICT

Public Enterprise

Korea Gas Corporation, Korea

National Oil Company, Korea

Energy Management Corporation

Company

SAMSUNG, LG Electronics Chem-

istry, HYUNDAI, SK ENERGY,

STX, ETC

Graduate School

researcH areas

Fuel Cells

Fuel cells are one of the ways to build hydrogen-based electrochemical

devices that convert chemical energy to electrical energy directly. There

are some of the features that make them attractive, such as their high

efficiency, fuel flexibility, and low emission of pollutants. Fuel cells can

be categorized as several types of PEMFC, MCFC, and SOFC that show

enormous applications to transport, stationary, and portable purpose in

extensive power range from 0.5 kW to 5 MW.

Solar Cells

Based on an understanding of the fundamental concepts in solar cells, we

will synthesize and characterize the various solar cells such as polymer

photovoltaic cells, dye-sensitized solar cells, quantum dot solar cells, and

organic-inorganic hybrid solar cells.

Secondary batteries

Secondary batteries remain the most promising electrical energy stor-

age systems for a number of applications, such as portable electronics,

electric vehicles, and smart grids, by allowing a drastic reduction in fuel

consumption and emissions. Structuring of electrode materials plays an

important role in enhancing battery performance, including specific ca-

pacity, rate capability, cycling life, and safety.

Nano Energy Materials

We are actively conducting researches to synthesize and characterize

new energy nanomaterials such as graphen, bio-related materials and

computational analysis for leading in the future energy conversion and

storage.

enerGy conVersion and sToraGe ecs nuclear science and enGineerinG nueEnergy Conversion and Storage (ECS) track pursues high-quality education and research in the fields of chemical-to-electrical energy conversion and (2) production and storage of hydrogen. The

ECS track is based on the knowledge of chemistry, physics, and energy engineering, and synergistically combines advanced, emerging disciplines such as nanoscience and biomimetics. The ultimate

goals of this track are two-fold: (i) the development of energy technologies and systems that can contribute to sustainable human life and (ii) training students into globally competitive, top-notch

scientists.

The science and engineering principles for nuclear engineering are provided, which are related to using the energy released from nuclear fission or fusion such as nuclear power generation, nuclear

propulsion, nuclear radiation applications. Education and research topics include design principles and analyses for nuclear reactions, commercial light water reactors and next generation nuclear

reactors such as liquid-metal-cooled fast reactor and gas-cooled reactor for hydrogen generation, nuclear fusion reactor, fuel cycle and nuclear waste disposal, systems and components for nuclear

reactors, nuclear fuel and cladding, nuclear structural materials, and nuclear radiation applications.

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Jongnam Park


- Development of advanced

nanomaterials for energy and bio

application

- e-mail : [email protected]


jnpark21

Jong-Beom Baek


- Graphene, CNTs, High Performance

Polymers


- http://jbbaek.unist.ac.kr

kyu Tae lee


- Electrode materials for Li-ion bat-

teries Fundamental electrochemis-

try & solid state chemistry



unist75

Myoung Soo lah

- Professor

- Supramolecular coordination

chemistry, Crystal Engineering


- http://mslah.unist.ac.kr

Nam-Soon Choi


- Organic materials for lithium/

magnesium/sodium rechargeable

batteries


- http://sites.google.com/site/ener-

gymaterialslab

Noejung Park


- Computational and theoretical

study of energy storage materials


- http://ulsanqppc.hicomp.net/

konstantin S. Novoselov

- Chair Professor

- Mesoscopic systems and nano-

structures


- http://www.manchester.ac.uk/

research/konstantin.novoselov/

Philip kim

- Chair Professor

- Electronic and Thermal and Ther-

moelectric Transport in Carbon

Nanotubes and Nanowires


- http://pico.phys.columbia.edu

Su-Moon Park

- Chair Professor

- Electrochemistry and Materials

chemistry


- http://home.unist.ac.kr/~smpark

Jaephil Cho

- Professor/Head

- Electrode Materials, Li-ion and

Metal-Air Batteries


- http://jpcho.com/

Byeong-Su kim


- Soft and Hybrid Nanomaterial

for Energy and Biomedical Ap-

plications (Polymer, Graphene,

Nanoparticles)



bskim19

Tae-Hyuk kwon


- Synthesis of Organic Functional

Materials and Their Applications



tkgroup90/home

Soojin Park


- Block Copolymer, Battery, Solar

Cells


- http://spark.unist.ac.kr

Yongseok Jun


- Dye-Sensitized Solar Cell, Thin

Film Solar Cell, Nanomaterials for

Energy


- http://yjun.unist.ac.kr/

Yoon Seok Jung


- Lithium-ion batteries, All-

solid-state batteries, Atomic layer

deposition



jungbatt

Dong-Seong Sohn

- Professor

- Nuclear Fuels and Fuel Cycle


- http://dsshon.unist.ac.kr/

Changduk Yang


- Organic Electronics, Functionaliza-

tion of Carbonaceous Solids


- http://yang.unist.ac.kr/

Deokjung lee


- Nuclear Reactor Physics; Reactor

Core Design, Analysis, and Meth-

odology Development


- http://reactorcore.unist.ac.kr

Guntae kim


- Electrochemistry & Solid Oxide

Fuel Cells


- http://gunslab.unist.ac.kr

Hee reyoung kim


- Liquid Metal Magnetohydrody-

namics, Environmental Radiation

Safety


- http://kimhr.unist.ac.kr

Hoi ri Moon


- Multi-functional Nanostructure

Materials, Hydrogen Storage

Materials



hoirimoon

Hyun-kon Song


- Solar cells, biofuel cells, recharge-

able batteries


- http://echem.kr

Hyeon Suk Shin


- Nanochemistry and Nano-analysis,

Nanometerials for Energy


- http://lnn.unist.ac.kr

In Cheol Bang


- Thermal-Hydraulic Design of

Nuclear and Energy Systems,

Nanofluids Science and Technol-

ogy


- http://icbang.unist.ac.kr

Ji-Hyun Jang


- Fabrication and applications

of artificial multi-dimensional

structures


- http://clau.unist.ac.kr/

Ji Hyun kim


- Materials Science and Engineering

for Nuclear Fuel Cladding and

Structural Metals and Alloys


- http://unimat.unist.ac.kr

Jin Young kim


- Polymer Light-Emitting Diode,

Polymer Solar Cell, Polymer

Battery


- http://ngel.unist.ac.kr

professor

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IntervIew wIth a graduate student

1. Please introduce yourself.

I’m Bonjae Koo who is studying for a master’s degree within the

Interdisciplinary School of Green Energy. I entered UNIST in 2009

and now, I am currently enrolled in a combined Bachelor and Mas-

ter’s Course. My advisor is Nam-soon Choi who is a researcher in

the field of rechargeable battery energy.

2. What made you choose Interdisciplinary School of Green En-

ergy?

We can study a wide range of engineering courses due to our

‘undeclared’ status as freshmen. I had an interest in chemical en-

gineering, and participated in each tracks conference (UMI) that

is related to my interests. Finally, I decided to select the Interdis-

ciplinary School of Green Energy due to my interests.

In my major, students can be research and study developing Sci-

ence & technology areas to help solve the environmental prob-

lems facing humanity. I selected this major because the purpose

of this major connects with my feelings of hope for the future.

3. What was the most impressive experience during your under-

graduate?

The most impressive thing is interactive distance between pro-

fessor and student is very close. We can easily connect with

them as it deals with our interests about Interdisciplinary School

of Green Energy. Besides, professors always give an advice to

us. Various major courses, conferences and time consulting with

professors helped me eliminate self doubt and worry which I had

felt in some of my classes previously.

4. Please introduce your lab. How did you join this lab? What kind

of work are you doing?

I am studying Rechargeable battery energy at ‘Energy Materials

Laboratory’ with graduate students and undergraduates under

the guidance of Professor Nam-Soon Choi.

I have participated in the laboratory after having meeting with

students and my advisor. Current, I am researching and studying

rechargeable battery energy using polymer materials and elec-

trolyte part.

5. What is your future plan?

My dream is to help in further developments in science & technol-

ogy to help solve difficult environmental problems. I have already

taken my first step toward my dream by entering the Interdisci-

plinary School of Green Energy. I’ll try to transition from ‘walk-

ing’ to full out ‘running’ as I chase my dream. I will do my best

to achieve my dream through concentrating on my studies in the

Interdisciplinary School of Green Energy.

6. Please give an advice for the freshmen as alumni.

I think for many, freshmen life isn’t as enjoyable as they had ex-

pected with so many worries about the future. However, there is

no reason for this. Enjoy your UNIST life! Also, set time aside to

follow your dreams! I have had an enjoyable time by keeping a

bright and positive mind at the Interdisciplinary Green School of

Energy. With an honest, constant effort to improve yourself with

passion at the Interdisciplinary Green School of Energy, you might

be one step closer to your dream without even realizing it.

GEE ActivitiEs

Bonjae koo

Main Activity

Activities of School Union is mainly three

1. Participation in school events

2. Projecting the school events

3. Overall school performance.

Opening day assembly, School presentation for freshman is per-

formed in spring semester led by School Union and Sports festival

is performed already in fall semester, also academic seminar and

surprise event by all school union is scheduled.

facebook : http://ko-kr.facebook.com/unistgee

cyworld club : http://club.cyworld.com/unistGEE

Student Union ofInterdisciplinary School of

Green Energy

Head of union

Vice head

Head of ECS track

Vice head of ECS track

Head of NUE track

Scribe1

1 2011 UNIBITION

2-3 2012 NBC-GEE Woman Engineering Mentoring

4-5 2012 GEE Athletic Meeting

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068

scHool of TecHnoloGy manaGemenT

Greetings to all,

USTM (UNIST School of Technology Management) aims to become a “World Class School of Tech-

nology Management, Educating Future Global Business Leaders.” Talented students, distinguished

faculty and dedicated administrative supporting teams are pursuing excellence in technology man-

agement education.

The USTM is actively collaborating with leading industries in Korea and in the world, and strongly

encourages and supports global internship opportunities and the international student & faculty ex-

change programs with universities worldwide. In response to a continuously changing market and

global economy, USTM students will be equipped with the knowledge, capabilities and agility to com-

pete with the global brain powers.

The school strives to provide an excellent management education as well as cutting edge research.

Though relatively young, the USTM will rapidly ascend to the level of top-tier institutions for tech-

nology management education. We nurture talented and inspired students and help them becoming

creative global business and academic leaders.

Minseok Song, Ph.D.

Head, School of Technology Management

Vision

World Class School of Technology Management Educating Global Business leaders!!

Mission

Nurture Creative Leaders

Educating Global Managers

World-leading Research

Program

Undergraduate / Graduate

APSM / MOT Program

PSM

- Energy Commodity Trading &

Financial Engineering Program

- Business Analytics Program

Executive/Global MBA

Strategic objectives

- Recruits and retains world-class faculty from diverse backgrounds.

- Recruits of globally top-notch students.

- Formulates curriculum for convergence of scientific and managerial knowledge.

- Provides both general and highly specialized knowledge for a global manager.

- Has student and faculty exchange programs with globally renowned universities.

- Collaborate with world-class international research institutions.

Curriculum

General Management

Required 31 Cred.Elective 2 Cred.

Finance / Accounting


Technology Management /Information Systems / Entrepreneurship


Marketing / International Business


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- System Analysis and Design

- Special Topics in Technology Management

- Special Topics in Knowledge & Information Management

- Managing innovation and Change

- Entrepreneurship and Venture Management

- Special Topics Entrepreneurship

career paTHs

- Consulting Agencies

- Manufacturing Firms

- IT & Software Service Providers

- Government Agencies & Public Institutions

- Universities & Colleges

- Research institution

- Retails & Transportation

- Entrepreneurs

core coueses

- Organizational Behavior

- Financial Accounting

- Financial Management

- Strategic Management

- Operations Management

- Data Analysis &Decision Making


- Game Theory

- Business Ethics

- Legal Environment of Business

- Independent Study

- Capstone Projects

- Technology Management

- Process & Quality Management

- Operations Research

- Database and Data Mining

- Internet Business and Marketing

- Strategic Management of IT

- Mobile Business

researcH areas

- Technology Management

- Information Systems

- Operation Research

-Business Analytics

- Entrepreneurship

career paTHs

- Financial institutions

- Accounting & Consulting Agencies

- Broadcasting & Advertisement Agencies

- Manufacturing Firms

- International Trade & Merchandising Firms

- IT & Software Service Providers

- Government Agencies & Public Institutions

- Universities & Colleges

- Research institution

- Entrepreneurs

core coueses

- Organizational Behavior

- International Business

- Marketing Management


- Managerial Accounting



- Operations Management


- Microeconomics


- Macroeconomics

- Econometrics

- Game Theory

- Business Ethics


- Independent Study

- Capstone Projects

researcH areas

- Economics

- Management Policy and Process

- Society and Enterprise

- Leadership, Values, and Corporate Responsibility

General manaGemenT Gm TecHnoloGy manaGemenT / informaTion sysTems / enTrepreneursHip Tie

General Management area is designed to provide general management education and committed to enhancing knowledge of business and management issues on all major functional areas. - Technology Management is designed to provides a framework for the analysis of a wide range of managerial decision making process in today’s global economy.

- Information Systems is designed to provide the necessary understanding in both technical and business issues relating to the business use of information technology.

- Entrepreneurship is about identifying, valuing and capturing business opportunities in a new or existing organization. The area in Entrepreneurship provides the understanding of the entrepreneurial

process and the knowledge and skills of the successful entrepreneur.

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- Experimental Design with Applications in Marketing

- Case Studies in Marketing

- Special Topics in Marketing

- Global Business Strategy

- Case Studies in International Business

- Special Topics in International Business

career paTHs

- Account Manager

- Advertising Manager

- Brand Manager

- Media Buyer

- Product Manager

- Public Relation Specialist

- Research Analyst

core coueses


- Marketing Management




- Microeconomics

- Consumer Behavior


- Macroeconomics

- Econometrics

- Business Ethics


- Independent Study

- Capstone Projects

- Database and Data Mining

- Internet Business and Marketing

- Quantitative Marketing Decision Making

- International Marketing

- International Finance

- Brand Management

- Marketing Research

- Advertising Management

researcH areas

- Consumer Behavioral marketing

- Quantitative Marketing

- Marketing Strategy


career paTHs

- CPA, CMA, CFO,

- Financial Analyst

- Corporate Controller

- Bank Executive

- Auditor

- Financial Supervisory Service

- National Tax Service

- Korea Bank

core coueses


- Managerial Accounting



- Microeconomics


- Macroeconomics

- Econometrics

- Business Ethics


- Independent Study

- Capstone rojects

- Investment analysis

- Money and Banking

- Futures and Option

- Intermediate Accounting 1

- Intermediate Accounting 2

- Tax Accounting

- Strategic Cost Management

- Financial Engineering

- Case Studies in Finance

- Special Topics in Finance

- Auditing

- International Finance

researcH areas

- Financial Accounting Theory

- Strategic Cost Management Theory and Practices

- Corporate Governance and Firm performance

finance / accounTinG fia markeTinG / inTernaTional Business miB- Finance is an area to study how individuals, corporations, and other business organizations allocate resources and make financial decisions in the capital markets.

- Accounting helps managers to create and disseminate financial accounting information to communicate effectively with investors and capital market participants, and apply managerial accounting

information internally to make more efficient financial and economic decisions.

- Marketing studies the issues on acquiring and retaining customers for products and services so as to create a mutually beneficial exchange between a company and its customers.

- International Business aims to prepare for the challenges of operating business in the international environment.

UNIS

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074 075

UNIS

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hool

and

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Uls

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ute

of S

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nd T

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y

Sanjana Janardhanan

-Lecturer

- Research Area : Leadership &

Teamwork

[email protected]

Jee Young Seong

-Visiting Professor

- Leadership & Teamwork

- [email protected]

Mooyoung Jung

- Professor, Dean of Graduate

School

- Oil Pricing Methodology

- Applications of Fractal Concept /

Energy Supply Chain Management /

Energy Strategy

- [email protected]


myjung/

professortechnology Man-ageMentinforMation sys-teMsentrepreneurship track

JinHyouk Im

-Professor

- e-education / e-government/e-

community / Online privacy / Pro-

tection of intellectual properties

- [email protected]


jinhim/

Minseok Song

- Assistant Professor, Head of School

- Process mining / Process knowl-

edge management / Business

process analysis, simulation, and

optimization / Data mining/busi-

ness intelligence

- [email protected]


bpmunist/

kyootai lee


- Innovation Management and Strat-

egy / Energy Market Environment

- [email protected]


kyootai/

Han-Gyun Woo


- Process mining / Requirements

Management / Business Processes

&ERP Systems / Open Innovation

- [email protected]

- http://hwoo.blogspot.kr/

Yoonhyuk Jung


- Users”f sensemaking and adoption

of information technologies / Social

technologies / Mobile commerce

- [email protected]


whatisst/

Young Bong Chang


- Economics of Information

Systems Information Technol-

ogy Outsourcing Competition /

Information Technology Value

Creation Organizational Impacts

of Information Technology Supply

Chain Management

- [email protected]

- http://manage13-www.unist.ac.kr

Wooje Cho


- Strategy for IT firms / IT Portfolio

Management and Strategic IT

Investments / M&A and System

Integration / Information Systems

Quality/Software Quality

- [email protected]


citrategy/

Yeong-Ho Woo

- Chaired Professor

- Financial Market Structure / Finan-

cial Regulation / OTC Derivatives

Markets / Mergers &Aquisitions

- [email protected]

professorfinance / accounting track

Hyeongsop Shim


- Initial Public Offerings / Capital

Structure / Mergers and Acquisi-

tions / Bankruptcy / Credit Risk

Modelling

- [email protected]

- http://manage18-www.unist.ac.kr

kwanho kim

- Professor

- Financial Engineering / Risk Man-

agement / Valuation of Complex

Derivatives

- [email protected]

- http://khkim.unist.ac.kr/

Sangtai Choi

- Visiting Professor

- Quality of financial reporting /

Audit quality and related regulatory

systems / International Financial

Reporting Standards / Manage-

ment Accounting

- [email protected]

- http://stchoi.unist.ac.kr/

Eunsnh lee


- Quality of financial reporting /

International Financial Reporting

Standards / Management Ac-

counting

- [email protected]

Chang-Yeol Jung


- Partial differential equations, Fluid

dynamics, Numerical analysis and

Scientific computing / Asymptotic

analysis: singular perturbations,

boundary layer analysis and its

numerical applications / Stochastic

partial differential equations and

uncertainty quantification

- [email protected]

- http://cjung.unist.ac.kr/

Su Jung Choi


- Finance / Capital Structure

- [email protected]

Chang Hyeong lee


- Stochastic Analysis and Simulation

/ Modeling, Analysis and Computa-

tion of Biochemical and Biological

Networks / Epidemic modeling /

Financial Engineering

- [email protected]

- http://chlee.unist.ac.kr

Bongsoo Jang


- Development of a new compu-

tational algorithm / New solitary

wave solutions / Homogenization

in irregular media / Scientific

computation

- [email protected]

- http://amath.unist.ac.kr/bbs/

board.php?bo_table=main

Pilwon kim


- Numerical Analysis, Adaptive

numerical methods for differential

equations / Image Processing,

PDE-based image filters, Pattern

recognition / Complex System

Modelling, Multi-scale modelling,

Biochemical reaction networks

- [email protected]

- http://amath.unist.ac.kr/~pwkim/

Bongsuk kwon


- Theory of Partial Differential

Equations and their applications

/ Hyperbollic conservation laws,

Kinetic theory / Stability of nonlin-

ear waves, Asymptotic behavior

of solutions

- [email protected]

- http://amath.unist.ac.kr/~bkwon/

professorMarketing / international Business track

Byoung ki Seo


- Mathematics / Financial Engineer-

ing

- [email protected]

Hyewook Jeong


- Emotions / Social Relationships and

Economic Transactions

- [email protected]

- http://hjeong.unist.ac.kr/index.sko

Sangdo oh


- Information processing / Implicit

attitudes and persuasion / Goal,

motivation and self-regulation

- [email protected]

- http://sangoh.unist.ac.kr/index.sko

Young-Sun roh

- AIC Research Professor

- [email protected]

researcH professor

Hong-Yeul lee

- AIC Research Professor

- [email protected]

Insook Cho


- Labor Economics / Economics of

Education and Health / Pension and

Retirement /Applied Microeco-

nomics

- [email protected]

- https://sites.google.com/site/el-

leninsook/

keunsuk Chung


- International Capital Flows and

the Growth Effects / Capital Flows

under the Presence of Market

Imperfection / Economic Growth,

Income Distribution, and Optimal

Government Policy

- [email protected]

- http://chungk.unist.ac.kr/index.sko

Dongryul lee


- Game Theory and Applications /

Industrial Organization / Theory of

Contests and Tournaments / Public

Goods and Behavioral Economics

(Non-selfish Behavior)

- [email protected]

- http://dongryullee.blogspot.kr/

lu Zhang


- Diversity management / Staffing

/ Leadership / Power dynamics in

organizations / Corporate social

responsibility

- [email protected]

Jinhyuk lee


- Economics of Education and

Health / Economic Growth, Income

Distribution, and Optimal Govern-

ment Policy

- [email protected]

professorgeneralManageMent track

076 077

·Exchange Agreement

·Big Data Analysis Competition

·Sports Competition Day

·STM Field Trip

TM ACTIVITIES


Intensive support for core research areas•

Promotion of interdisciplinary cooperative research•

Extensive commercialization of research outcomes

Outstanding Faculty & Students

World ClassInfrastructure

InterdisciplinaryResearch & Education

unist school and track guide book

Documents

technologyunist school

schoolyour school

major tracks

storagenuclearscience

interdisciplinary research

matriculation ceremony2009

matriculation ceremony2010

matriculation ceremony2011