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7/29/2019 1.CSE Program
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Graduate Program of Computer Science and Engineering in UNIST
The Vision of UNIST is to be a world leading university to advance science and technology for the
prosperity of humankind. We have been focusing on interdisciplinary research and education since our
establishment in 2009. UNIST is a national university in Korea with focus on research and has beenselected to participants in the World Class University (WCU) project and a number of other national
projects.
Computer Science and Engineering (CSE) aims to improve the quality of human life by
researching and developing computer and information systems, which are pervasive in every facet of
modern life. In this program, students will learn the foundational principles that are necessary to
implement computer systems, and that are essential to utilize computer systems for practical uses.
(All the classes are provided in English.) We cultivate the finest engineers who are capable of quality
research and development in the area of computer systems and applications of critical importance in
the upcoming era. For more information, please visithttp://ece.unist.ac.kr(CSE track).
Research areas of interest include (but not limited to) Computer Architecture and System Software,Information Science and Machine Intelligence, Computer Networks and Security, Application Software
and Software Engineering, and Computation Theory. Please take a look at the attached profile of our
faculty members and visit their web pages through http://ece.unist.ac.kr, where profiles and web
pages of additional faculty members are also available.
Join with us and be a member of CSE at UNIST, you will have a chance to blur the boundary
between theory and practical applications. Bring your own works to help other majors in multi-
disciplinary areas. With the research-oriented working environment, you will transform yourselves to
be independent, critical, creative and more importantly make your ideas come true. (Tran Minh Quan,
Master student)
Scholarship: RA/TA scholarship is available for graduate students and it can cover the tuition fee
and minimum living costs. Additional research subsides can be provided (likely in CSE) according to
students participation in research projects.
Living: UNIST provides all international students with student dormitories on campus, and room
reservations are usually made before you come to the school. Room rates are available in the
admission site (http://adm-g.intl.unist.ac.kr).
Ulsan, where UNIST is located, is one of the four large manufacturing cities in Asia. Ulsan remains the
heart and soul of Korean industries, continually advancing the Korean economy. It has formed
international clusters of automobile (including Hyundai), shipbuilding and petrochemical industries; it
also aims to be a global green industrial city through developing industries dealing with secondarybatteries, environmental technologies and equipment, and renewable energy. You can find more
information about Ulsan athttp://english.ulsan.go.kr
How to Apply
Schedule: UNIST is in a unique tri-mester system, each starting at March, late Aug., and late Nov. In
spring 2013, we have two application schedules: 1st from March 25 to May 1, and 2nd from May 15
to June 19. However, it is strongly recommended to directly contact one of our faculty
members (email) in the research area of your interest, at least two or three weeks before
the submission deadline. Please visithttp://adm-g.intl.unist.ac.kr
Detailed schedule for 1st on-line application:
March 25~May 1: submission of application and required documents (by post or in person)
May 13: Notification of the screening results
http://ece.unist.ac.kr/http://ece.unist.ac.kr/http://ece.unist.ac.kr/http://ece.unist.ac.kr/http://ece.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://english.ulsan.go.kr/http://english.ulsan.go.kr/http://english.ulsan.go.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://english.ulsan.go.kr/http://adm-g.intl.unist.ac.kr/http://ece.unist.ac.kr/http://ece.unist.ac.kr/7/29/2019 1.CSE Program
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May 15~May 23: Oral interview (phone or skype for international students)
May 31: Notification of successful candidates
Eligibility: Applicants should be awarded a Bachelors Degree (or above) before the entrance, and
required to achieve minimum score in English tests (TOEIC 800, TOEIC (Speaking & Writing) 250,
TOEFL(IBT) 80, TOEFL(CBT) 213, TOEFL(PBT) 550, IELTS 6.5 or equivalent). The applicant may be
admitted without satisfying the English score requirement, but he/she should satisfy the requirement
before graduation. Also, applicants from a certain English-language country may be exempt from
submitting a score.
Required documents (all in English): Application form with (4cm x 5cm) photo (available at visit
http://adm-g.intl.unist.ac.kr), certificate of graduation and transcripts, personal statement and study
plan, original record of English test, other docs for your own research achievements
Screening process: Official screening process (after submission of application) is two-step: Document
screening Personal interview (telephone or skype). Besides, it is strongly recommended to contact
the faculty member in advance, and have an informal (phone) interview with him/her. Often, the
admission decision is made by the faculty member before the formal process.
Submitting application: Application should be submitted online through a link at http://adm-
g.intl.unist.ac.kr. Application fee is KRW 80,000 at this moment. Required documents (including the
application form) should arrive at UNIST by the submission deadline.
List of faculty members:
Tsz-Chiu Au Multi-agent systems http://cse.unist.ac.kr/~chiu/
Won-ki Jeong Biomedical image analysis, GPGPU http://wkjeong.unist.ac.kr/
Changhee Joo Computer and communication networks http://netlab.unist.ac.kr/
Jongeun Lee Computer architecture and compilers http://ecl.unist.ac.kr/
Beomseok Nam Data intensive computing http://cse.unist.ac.kr/~bsnam
Aaran Yun Cryptography http://aaramyun.unist.ac.kr/
Young-ri Choi Computer systems http://ychoi.unist.ac.kr/
Kyunghan Lee Mobile social computing and networking https://sites.google.com/site/khanleepage
http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/http://adm-g.intl.unist.ac.kr/7/29/2019 1.CSE Program
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School of Electrical and Computer Engineering (ECE)
10
Autonomous Agents Lab focuses on building software systems that can successfully handle
tasks that currently require human intelligence, such as driving and planning. We are also
interested in the design of practical systems (e.g., transportation systems) whose
performance depends on how well agents can collaborate with each other. To accomplish
these goals, we will scientifically investigate the foundations of Artificial Intelligencesystems for decision making and problem solving.
Research InterestsArtificial Intelligence, Multiagent Systems, and Intelligent Transportation Systems.
1. Autonomous agents
2. Autonomous traffic management
3. Autonomous vehicles
4. Automated planning
5. Evolution of cooperation
6. Market mechanism
Research Publications (selected)1. T.-C. Au, C.-L. Fok, S. Vishwanath, C. Julien, and P. Stone. Evasion Planning for
Autonomous Vehicles at Intersections. In IEEE/RSJ International Conference on
Intelligent Robots and Systems (IROS), 2012.2. T.-C. Au, M. Quinlan, and P. Stone. Setpoint Scheduling for Autonomous Vehicle
Controllers. In IEEE International Conference on Robotics and Automation (ICRA), pp.
2055-2060, 2012.
3. T.-C. Au, N. Shahidi, and P. Stone. Enforcing Liveness in Autonomous Traffic
Management. In Proceedings of the Twenty-Fifth Conference on Artificial Intelligence
(AAAI), pp. 1561-1564, August 2011.
4. T.-C. Au, S. Kraus, and D. Nau. Synthesis of Strategies from Interaction Traces. In
Proceedings of the Seventh International Joint Conference on Autonomous Agents and
Multiagent Systems (AAMAS'08), pp. 855-862, May 2008.
5. T.-C. Au and D. Nau. Accident or Intention: That is the Question (in the Noisy Iterated
Prisoner's Dilemma). In Proceedings of the Fifth International Joint Conference on
Autonomous Agents and Multiagent Systems (AAMAS'06). pp. 561-568, May 2006.
6. T.-C. Au and D. Nau. The Incompleteness of Planning with Volatile External Information.
In Proceedings of the European Conference on Artificial Intelligence (ECAI), August 2006.
7. T.-C. Au, U. Kuter and D. Nau. Web Service Composition with Volatile Information. In
Proceedings of the 4th International Semantic Web Conference (ISWC), pp. 52-66, 2005.
8. T.-C. Au, H. Muoz-Avila, and D. S. Nau. On the complexity of plan adaptation by
derivational analogy in a universal classical planning framework. In Proceedings of the
European Conference on Case-Based Reasoning (ECCBR), pp. 13-27, September 4-7 2002.
Tsz-Chiu Au
School of Electrical and Computer
Engineering,
Ulsan National Institute of Science and
Technology (UNIST),
Office : Engineering BLDG 2. Rm. 301-6
Tel: +82-52-217-2138
Fax: +82-52-217-2109
E-mail: [email protected]
http://agent.unist.ac.kr/
Curriculum Vitae
2012~Present : Assistant Professor, UNIST
2008~2012: Postdoctoral Fellow, The
University of Texas at Austin
2008: Ph.D. Computer Science,
University of Maryland, College Park
2002: M.S. Computer Science,
University of Maryland, College Park
1997: B.S. Computer Science, Hong Kong
University of Science and Technology
Awards/Honors/Memberships
Third-place in the 20th Anniversary
Iterated Prisoners Dilemma
Competitions Noise category. Best
performance among programs that has
no slave programs feeding points to
them.
Best Research Paper Award from the
European Conference on Case-based
Reasoning (ECCBR), 2002.
Member of AAAI (Association for the
Advancement of Artificial Intelligence)
and IEEE (Institute of Electrical andElectronics Engineers)
Autonomous Agents Lab.
7/29/2019 1.CSE Program
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The research goal is to develop computational methods and visualization tools to help
scientists make new discoveries. To achieve this goal, my research has focused on high-
performance visual computing, the research field that leverages various techniques of
computer graphics, visualization, image processing, and parallel computing to address data-
intensive scientific research problems, for example, visualization and reconstruction of
macro- and microscopic neuronal connection maps in the brain from large-scale
micrographs. This is an interdisciplinary research effort that bridges the gap between
domain sciences and computer science.
Optical Micrograph Visualization Neuron Reconstruction from EM Brain Connectivity in DT-MRI
Research Interests
1. Biomedical image processing2. GPGPU and parallel computing
3. Scientific visualization
4. Computer graphics
Publications (selected)1. Markus Hadwiger, Johanna Beyer, Won-Ki Jeong, Hanspeter Pfister: Interactive Volume
Exploration of Petascale Microscopy Data Streams Using a Visualization-Driven Virtual
Memory Approach. IEEE Trans. Vis. Comput. Graph. 18(12): 2285-2294 (2012)
2. Yongsheng Pan, Won-Ki Jeong, Ross T. Whitaker: Markov surfaces: A probabilistic
framework for user-assisted three-dimensional image segmentation. Computer Vision
and Image Understanding 115(10): 1375-1383 (2011)
3. Won-Ki Jeong, Johanna Beyer, Markus Hadwiger, R. Blue, C. Law, Amelio Vzquez Reina,
R. Clay Reid, Jeff Lichtman, Hanspeter Pfister: Ssecrett and NeuroTrace: Interactive
Visualization and Analysis Tools for Large-Scale Neuroscience Data Sets. IEEE Computer
Graphics and Applications 30(3): 58-70 (2010)
4. Won-Ki Jeong, Jens Schneider, Stephen G. Turney, Beverly E. Faulkner-Jones, Dominik
Meyer, Rdiger Westermann, R. Clay Reid, Jeff Lichtman, Hanspeter Pfister: Interactive
Histology of Large-Scale Biomedical Image Stacks. IEEE Trans. Vis. Comput. Graph. 16(6):
1386-1395 (2010)
5. Won-Ki Jeong, Johanna Beyer, Markus Hadwiger, Amelio Vzquez Reina, Hanspeter
Pfister, Ross T. Whitaker: Scalable and Interactive Segmentation and Visualization of
Neural Processes in EM Datasets. IEEE Trans. Vis. Comput. Graph. 15(6): 1505-1514
(2009)
6. Won-Ki Jeong, Ross T. Whitaker: A Fast Iterative Method for Eikonal Equations. SIAM J.
Scientific Computing 30(5): 2512-2534 (2008)7. Won-Ki Jeong, P. Thomas Fletcher, Ran Tao, Ross T. Whitaker: Interactive Visualization
of Volumetric White Matter Connectivity in DT-MRI Using a Parallel-Hardware
Hamilton-Jacobi Solver. IEEE Trans. Vis. Comput. Graph. 13(6): 1480-1487 (2007)
Book ChaptersGPU Computing Gems Emerald Edition, Chapter 46 & 49, Morgan-Kaufmann (2011)
PatentsWon-Ki Jeong and Ross Whitaker, Fast Iterative Method for Processing Hamilton-Jacobi
Equations, International Provisional Patent Application WO/2009/059045, U.S. Provisional
Patent Application 12/740,061
Won-Ki Jeong
School of Electrical and Computer
Engineering,
Ulsan National Institute of Science and
Technology (UNIST),
Office:Engineering BLDG 2 . Rm.401-6
Lab: Engineering BLDG 2. Rm. 402
Tel: +82-52-217-2131Fax: +82-52-217-2128
E-mail: [email protected]
Curriculum Vitae
2011~Present: Assistant Professor, UNIST
2008~2011: Research Scientist, Harvard
University
2008: Ph.D. Computer Science,
The University of Utah
2001: M.S. Computer Science,
Korea University
1999: B.S. Mathematics, Korea University
Experiences
2003~2008: Scientific Computing and
Imaging Institute, Research Assistant
2007: NVIDIA Corporation, Intern
2006: ExxonMobil Upstream Research,
Intern
2001~2003: Max-Planck-Institute fr
Informatik, Research Assistant
Awards/Honors/Memberships
2012: Honorable mention for Best Paper
Award at VisWeek 2012
2007: NVIDIA Graduate Fellowship
2007: BGCE Student Paper Competition
Finalist
2009~: Professional Member of
Association for Computing Machinery
(ACM)
High-Performance Visual Computing Lab
/Division for Human Convenience-oriented Information & Communication Technology(ICT)
7/29/2019 1.CSE Program
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Our lab aims to advance the state-of-the art networking technology with broad economic,
scientific, and social impact. We are interested in fundamental questions about the role
that system dynamics, models, and controls play in the network performance. Our
understanding on complex network systems leads to the development of efficient
practical solutions that achieve high performance and robustness for communication,computing, and sensing, anytime, anywhere, and any place.
Research Interests1. Protocol design and performance optimization
2. Cellular and wireless access networks (e.g., LTE, Wi-Fi, satellite)
3. Emerging networking technology for future Internet service
4. Cyber-physical system
Ongoing Research Topics
1. Resource allocation in wireless networks2. Distributed multi-scale control with low complexity
3. Full-duplex wireless networks for low-delay applications
4. Cross-layer network design between scheduling, routing, and congestion control
Recent Publications (selected)1. C. Joo, On Random Access Scheduling for Multimedia Traffic in Multi-hop Wireless
Networks with Fading Channels, IEEE Transactions on Mobile Computing (TMC), Vol.
12, No. 4, April 2013.
2. C. Joo and N. B. Shroff, Local Greedy Approximation for Scheduling in Multi-hop
Wireless Networks, IEEE Transactions on Mobile Computing (TMC), Vol. 11, No. 3, pp.
414426, March 2012.
3. C. Joo, On the Performance of Back-Pressure Scheduling Scheme with Logarithmic
Weight, IEEE Transactions on Wireless Communications (TWC), Vol. 10, No. 11, pp.36323637, Nov. 2011.
4. C. Joo, X. Lin, and N. B. Shroff, Greedy Maximal Matching: Performance Limits for
Arbitrary Network Graphs Under the Node-exclusive Interference Model, IEEE
Transactions on Automatic Control (TAC), vol. 54, no. 12, pp. 27342744, Dec. 2009.
5. C. Joo and N. B. Shroff, Performance of Random Access Scheduling Schemes in Multi-
hop Wireless Networks, IEEE/ACM Transactions on Networking (ToN), vol. 17, no. 5,
pp. 14811493, Oct. 2009.
6. C. Joo, X. Lin, and N. B. Shroff, Understanding the Capacity Region of the Greedy
Maximal Scheduling Algorithm in Multi-hop Wireless Networks, IEEE/ACM
Transactions on Networking (ToN), vol. 17, no. 4, pp. 11321145, Aug. 2009. (fast-track;
its conference version won the INFOCOM08 Best Paper Award)
Changhee Joo
School of Electrical and Computer Engineering,
Ulsan National Institute of Science and
Technology (UNIST),
Office: Engineering BLDG 2. Rm.501-8
Lab: Engineering BLDG 2. Rm.507
Tel: +82-52-217-2133
Fax: +82-52-217-2109
E-mail: [email protected]://netlab.unist.ac.kr
urriculum Vitae
2010~Present : Assistant Professor, UNIST
2009~2010: Assistant Professor, KoreaTech
2007~2009: Research Scientist, OSU, USA
2005~2007: Post-doc., Purdue Univ., USA
2005: Ph.D. EECS, SNU, Korea
2000: M.S. EECS, SNU, Korea
1998: B.S. EECS, SNU, Korea
wards/Honors/Memberships
IEEE INFOCOM08 Best Paper Award
Best Teaching Award, UNIST, 2012
Fellowship for Post-doctoral Research from
MIC, Korea, 2005.
Member of IEEE, KICS
Network Research Laboratory
/Division for Human Convenience-oriented Information & Communication Technology(ICT)
INTERNET
A
B
C
Destroyed wireless infrastructurein a disaster situation
7/29/2019 1.CSE Program
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Today, computer performance is more constrained by power and temperature than
anything else. At the same time, we witness ever-growing performance requirements of
applications on battery-operated mobile devices, such as speech and video recognition,
more realistic graphics, and interactive user interface. To enable those applications, it is
imperative to maximize the energy efficiency of computing platforms and to improve it at
least by orders of magnitude. The CAP lab in UNIST pushes the limit of energy-efficient
computing by designing and optimizing today's and tomorrow's emerging applications (e.g.,
computer vision, recognition, synthesis) focusing on innovative processor architectures (e.g.,
graphics processors, reconfigurable architectures) and compiler optimization.
Research Interests1. Multi- and many-core architectures, and accelerators
(e.g., general-purpose graphics processing units and reconfigurable processors)
2. Application- and domain-specific processors, and compilers for them
(e.g., computer vision processor)
3. Embedded systems, hardware-software co-design, and System-on-Chip (SoC) design
4. Compilers for low power and/or reliability
Research Publications (selected)1. "Memory Access Optimization in Compilation for Coarse Grained Reconfigurable
Architectures," ACM Trans. on Design Automation of Electronic Systems (TODAES), with
Yongjoo Kim, Aviral Shrivastava and Yunheung Paek, 2011.
2. "Static Analysis of Register File Vulnerability," IEEE Trans. on Computer-Aided Design of
Integrated Circuits and Systems (TCAD), Vol. 30, pp. 607-616, with Aviral Shrivastava,
2011.
3. "Fast Graph-based Instruction Selection for Multi-output Instructions," Software:
Practice and Experience, Vol. 41, pp. 717-736, Wiley, with Jonghee M. Youn, Jongwon
Lee, Yunheung Paek, Hanno Scharwaechter and Rainer Leupers, 2011.
4. "Binary Acceleration Using Coarse-grained Reconfigurable Architecture," ACM SIGARCH
Computer Architecture News, Vol. 38, pp. 33-39, with Jong K. Paek and Kiyoung Choi,
2010.
5. "A Compiler-microarchitecture Hybrid Approach to Soft Error Reduction for Register
Files," IEEE Trans. on Computer-Aided Design of Integrated Circuits and Systems (TCAD),
Vol. 29, No. 7, pp. 1018-1027, with Aviral Shrivastava, 2010.6. "Cache Vulnerability Equations for Protecting Data in Embedded Processor Caches from
Soft Errors," ACM SIGPLAN (Special Interest Group on Programming Languages) Notices,
Vol. 45, No. 4, pp. 143-152, with Aviral Shrivastava and Reiley Jeyapaul, 2010.
7. "A Software-Only Solution to Use Scratch Pads for Stack Data," IEEE Trans. on Computer-
Aided Design of Integrated Circuits and Systems (TCAD), Vol. 28, No. 11, pp. 1719-1727,
with Aviral Shrivastava and Arun Kannan, 2009.
Patents (selected)1. Korea Patent #100722770, "Array of reconfigurable processing elements for providing
predicated execution," with Kiyoung Choi et al., Registered 2007-05-22.
2. Korea Patent #100368546, "Method for hardware-software coverification by optimistic
execution of real processor," with Sungjoo Yoo et al, Registered 2003-01-06.
Jongeun Lee
School of Electrical and Computer
Engineering,
Ulsan National Institute of Science and
Technology (UNIST),
Office: Engineering BLDG 2. Rm. 501-5
Lab: Engineering BLDG 2. Rm. 504
Tel: +82-52-217-2116
Fax: +82-52-217-2109
E-mail: [email protected]
http://ecl.unist.ac.kr/
Curriculum Vitae
2009~Present: Assistant Professor, UNIST
2007~2009: Postdoctoral Fellow, Arizona
State University
2004~2007: Senior Engineer, Samsung
Electronics , SoC Research Center
2004: Ph.D. Electrical Engineering and
Computer Science, Seoul National
University
1999: M.S. Electrical Engineering,Seoul National University
1997: B.S. Electrical Engineering,
Seoul National University
Awards/Honors/Memberships
2011: Technical program committee of
Korean Conference on Semiconductors
2011: Technical program committee of
International Conference on
Hardware/Software Codesign and System
Synthesis
2008~2009: Full Post-doc Fellow of
Arizona State University
2007: Post-doc fellowship from Korea
Research Foundation
2005: Best paper award at International
System-on-Chip Design Conference
2002: Best paper award at Workshop on
Application-Specific Processors
Member of the Institute of Electrical and
Electronics Engineers (IEEE)
Member of the Association for Computing
Machinery (ACM)
Member of the Korean Institute of
Information Scientists and Engineers
(KIISE)
Co-design and Parallel Processing (CAP) Lab.
CompilerSystem-on-Chip (SoC) Multicore, GPU & Reconfigurable Processor
/Division for Human Convenience-oriented Information & Communication Technology(ICT)
(formerly Energy-Efficient Computing Lab.)