NST
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KAIST's OLEV Best Model of Creative Growth Engine
Various models of electric vehicles designed to replace the internal combustion automobiles face significant problems as they invariably failed to overcome the limitations involving lithium battery in terms of power capacity, weight, raw materal price, recharging time and preparation of charging stations. Worst of all, the limited supply of lithium will eventually raise its price sky high when all cars use lithium batteries, and the economic value of electric cars will be lost.
KAIST"s online electric vehicle project (OLEV) seeks to resolve these fundamental problems involving electric vehicles that have so far been developed. KAIST OLEV, a project to develop a new growth engine for the nation and lead the future of global automotive industry, is an entirely new concept: the electric vehicle picks up power from underground power supplier lines through the non-contact magnetic charging method, while either running or standing. This is the first eco-friendly and economic automotive system that can resolve the problems inherent to previously-developed electric vehicles, according to the KAIST OLEV Project Center.
In February 2009, KAIST researchers first proved that up to 80 percent power conveyance is possible through a gap of 1 centimeter from the power line, and in July they successfully supplied power to a bus -- up to 60 percent across a 12 cm gap from the power line embedded in the ground -- using power supply and pick-up devices they developed. In this process, KAIST has secured the core technologies for maximizing power efficiency and minimizing the cost of installing the non-contact power supply system. KAIST has established the Online Electric Vehicle Co., Ltd., to undertake business activities related to the OLEV project, including the IPR on power supply and pick-up devices, parts and accessories and commercial promotion. A demonstration event is scheduled for Aug. 13, Thursday.
The impact of the development of the OLEV technology on the energy and environment issues and the overall economy will be enormous. In case a half of the total automobiles running in Korea, or 6 million vehicles, are replaced with OLEV, electric power produced by just two of the nation"s atomic power plants will be enough to operate them all, and the nation will be able to reduce crude oil import by 35 million barrels worth U.S.$3 billion a year (supposing $80 per barrel).
Korea"s export of OLEV units will in the future surpass the present level of overseas sale of conventional cars. When nations use online electric vehicles in large numbers, their demand for CO2-free power plants will grow. Korea has cutting-edge technology in the construction of atomic power plants. As a world leader in the area of nuclear power plant, Korea will enjoy new opportunities to contribute to the global advancement of atomic power generation as well as transportation industries.
Korea still shares a small portion of the world"s automobile market estimated to worth some 2,000 trillion Korean won. But commercialization of the OLEV technology worldwide will greatly enhance Korea"s global automotive market share. Successful development of the online electric vehicle requires preemptive investment and positive support by the government for the ultimate purpose of resolving energy and environment problems.
If and when domestic enterprises secure technological supremacy in the next generation automobile market with their online electric vehicles which will replace the 100-year-old combustion engine, it will be the most desirable shortcut to raising Korea"s international competitiveness. OLEV promises to be the model of creative growth engine in the 21st century.
2009.07.30 View 19919 -
KAIST Ranked Seventh in Chosun-QS 2009 Asian University Rankings
- Major Criteria in Research, Education, Globalization
KAIST ranked top in Korea and seventh in Asia in a ranking compiled jointly by the Chosun Ilbo, a major Korean daily, and global university evaluation institute QS of Britain.
In the rankings released on Tuesday (May 12), KAIST scored 94.9 based on the full 100 of the top-ranking university, the University of Hong Kong. KAIST was closely followed by Seoul National University (SNU), which ranked 8th in the Asian ranking. KAIST outpaced SNU in terms of globalization, but lagged behind in terms of peer review and recruiters review.
The Chosun Ilbo said that KAIST achieved the distinction by encouraging competition among research professors, introducing competitive educational systems such as conducting all classes in English, and speeding up globalization drive based on a strong leadership of President Nam-Pyo Suh.
In an interview with the daily published on the same day, President Nam-Pyo Suh expressed enthusiasm for stepping up his university"s drive to make it one of the world"s leading research universities, without resting on its present reputation. "The goal of KAIST is to stand at the forefront in addressing critical problems facing the humanity in the 21st century. The problems include alternative energies and transportation and logistics. If we resolve these problems, KAIST will join the ranks of the world"s best universities," Suh said.
The evaluation, the only such survey in Asia, was conducted with 463 universities in 11 countries, including 106 in Korea. The universities were ranked for competitiveness in four categories -- research quality (60 percent), teaching quality (20 percent), graduate employability (10 percent) and international outlook (10 percent).
The top-ranked University of Hong Kong was followed by Chinese University of Hong Kong, Tokyo University, Hong Kong University of Science and Technology, and Osaka University.
The top 100 Asian universities include 17 Korean universities, 33 Japanese, 11 Chinese, seven Indian, six in Hong Kong and two in Singapore.
Universities were ranked through a quantitative analysis based on data submitted by the universities in March and a qualitative analysis based on the competitiveness of professors and graduates evaluated by about 3,100 academics and businesspeople around the world.
Meanwhile, KAIST was ranked 95th among top 200 universities of the world in the Times Higher Education-QS World University rankings in 2008. It ranked 34th in the area of engineering and information technology, and 46th in natural science.
2009.05.13 View 14515
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KAIST Dedicates Geocentrifuge Experiment Center
KAIST dedicated the KOCED Geo-Centrifuge Experiment Center for researches in monitoring natural disasters such as earthquake and embankment collapse through miniature simulation tests on Wednesday (April 9) after a two-year construction work.
The experiment center is part of the Korea Construction Engineering Development Collaboratory Program (KOCED) which has been sponsored by the Ministry of Land, Transport and Maritime Affairs to build an infrastructure for construction engineering researches at a national level. The ministry plans to build a total of 5 similar centers nationwide by the end of the year.
On hand at the dedication ceremony were Jae-Choon Lee, President of the Korea Institute of Construction & Transportation Technology Evaluation and Planning, KAIST President Nam-Pyo Suh, and scores of experts and administration officials.
The construction of the five-story building on an area of about 3,328 square meters cost 8.4 billion won (US$6.3 million).
The center is expected to serve as a major laboratory in the field of geotechnical engineering. It is equipped with such state-of-the-art facilities as geocentrifuge, a useful tool for studying flow in unsaturated soil under well-controlled, repeatable conditions, a bidirectional shaking-table that can reproduce earthquake-like wave; and robots that can reproduce construction procedures by remote control.
Geocentrifuge experiment allows detecting ground and structure motions easily and rapidly by simulation tests. Thus, it is widely used for various geotechnical engineering researches such as evaluation of seismic safety, soft ground movement, slope stability analysis, etc. The causes of the embankment collapse in New Orleans by Hurricane Katrina in 2005 were also revealed by the geocentrifuge experiment.
The geocentrifuge research facility is available for use by outside researchers, so scientists from other universities, research institutes and corporations can perform research and test their scientific and engineering hypotheses.
The center is divided into two sections, experiment building and research building. The experiment building is composed of a geocentrifuge laboratory, model-making rooms, workshops, a geotechnical engineering laboratory and specimen storehouse, while the research building has a control room, a video conference room, an electronic library and research rooms.
2009.04.09 View 15678 -
Workshop on Biomedical IC to Be Held on March 26
KAIST will hold a workshop on "biomedical IC for future healthcare system" on March 26 at a lecture room of the School of Electrical Engineering & Computer Science. The workshop is organized by SEECS and the Korean Institute of Next Generation Computing.
At the workshop, a variety of new technologies expected to expedite the development of biomedical systems will be presented. KAIST Prof. Hoi-Jun Yoo will speak on the "body channel communication" using the human body as the signal transmission medium and Dr. Seung-Hwan Kim of Electronics and Telecommunications Research Institute (ETRI) on a wearable vital sign monitoring system.
Other subjects are CMOS (complementary metal-oxide semiconductor) fully electronic biosensor for biomolecular detection to be presented by KAIST Prof. Gyu-Hyeong Cho; nerve interface and IC (integrated circuit) system design by KAIST Prof. Yoon-gi Nam; design of neural recording and stimulation IC using time-varying magnetic field by KAIST Prof. Seong-Hwan Cho; low power multi-core digital signal processor for hearing aid by Dong-Wook Kim, senior researcher at the Samsung Advanced Institute of Technology; and a non-contact cardiac sensor by KAIST Prof. Seung-Chul Hong.
With the advent of the ageing society, medical expenses of the elderly people are rapidly increasing. As a way to address the issue, interests are growing in "ubiquitous healthcare," a technology that uses a large number of environmental and patient sensors and actuators to monitor and improve patients’ physical and mental condition.
The upcoming workshop is the first academic event on biomedical integrated chips to be held in Korea. The workshop will provide a valuable opportunity for experts in biomedical area to get together and examine the present status of Korean biomedical area and discuss about its future, KAIST officials said.
2009.03.20 View 22588
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Six Organizations Join Forces to Induce Projected National Brain Institute to Daejeon
Six major organizations including KAIST have joined forces to help Daejeon City to win the government approval to build the envisioned Korean Brain Institute in Daedeok Research Complex.
The six organizations signed a memorandum of understanding on cooperating in establishing the government-funded institute built within the Daedeok Research Complex in the city of Daejeon, at KAIST on Jan. 14. The six organizations are KAIST, the Daejeon City Government, Korea Research Institute of Bioscience and Biotechnology, Korea Research Institute of Standard and Science, Asan Medical Center, and SK Corp., a pioneer in effective therapeutic invention for serious brain disorders.
The partnership of the six organizations is expected to bring a broad-based cooperation opportunities and create a massive synergy effect in the brain science researches and the development of new therapeutic treatment for brain disorders by combining their resources and infrastructures.
The six organizations have also built an international research network with such globally-renowned brain research institutions as RIKEN, a large natural sciences research institute in Japan, Max Plank Institute in Germany, Federal Institute of Technology, Lausanne, in Switzerland and Brain Research Institute of University of Queensland in Australia. The research network is under the support and guidance of Dennis Choi, a prominent neuroscientist who once served as the President of the Society for Neuroscience and is currently a professor in the Departments of Neurology and biology at Emory University.
The tentatively titled Korea Brain Institute is envisioned to help fight brain disorders and create Korea"s new growth engine, as well as lengthening life span, by conducting convergence researches in nero science, brain science and pharmacology. If the consortium of the six organizations wins the government approval to build the proposed institute within the Daedeok complex, the central government and the Daejeon city government are expected to pour a total of 329.7 billion won into the project by 2020.
2009.01.14 View 21870 -
2008 IEEE International Conference on Humanoid Robots Opens
The 2008 IEEE-RAS International Conference on Humanoid Robots, an international gathering to identify new research trends and technology in humanoid robotics, will open a three-day session on Monday (Dec. 1) at the Hotel Rivera and KAIST in Daejeon.
The annual conference is organized by KAIST and the Robotics and Automation Society of the Institute for Electric and Electronic Engineers, a U.S.-based international non-profit, professional organization for the advancement of technology related to electricity.
The conference is expected to draw a total of 200 robotics researchers from 19 different countries. Prof. Jun-Ho Oh, at the Department of Mechanical Engineering who led the creation of Korea"s first humanoid robot Hubo, is serving as general chair of the conference. Prof. Oh was named the host of the 2008 conference at the 2007 conference held at the Carnegie Melon University of the United States. The eight-year old conference was inaugurated in Boston in 2000.
On the opening day of Dec. 1, seven lectures will be given on diverse areas of robotics including cognitive humanoid vision, and robot vision sensor and sensing. On the subsequent two days, a total of 110 papers will be presented.
During the conference period, a variety of robots produced by six local and foreign robot makers will be on demonstration, providing opportunities for researchers and industrial robot makers to share technological ideas.
Highlights of the conference will be special lectures by world-renowned robot researchers Prof. Yoshiyuki Sankai of University of Tsukuba, who has created an exoskeletal "robot suit," and Prof. Art Kuo of Univerity of Michigan who is regarded as a leading authority in dynamic walking.
Following the conference, all participants are scheduled to tour Prof. Oh"s Hubo Lab and the Human-Robot Interaction Research Center, both located at KAIST.
2008.12.01 View 19180
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KAIST, KRIBB Agree to Cooperate in Research of Convergence Technologies
Oct. 15, 2008 -- KAIST and Korea Research Institute of Bioscience and Biotechnology (KRIBB) have agreed to cooperate in the research of convergence fields of biotechnology, information technology and nanotechnology.
To this end, the two institutions concluded a memorandum of understanding to create a new academia-institute cooperative model in the convergence fields on Oct. 15 in Seoul, with KAIST President Nam-Pyo Suh, KRIBB Director Young-Hoon Park and Vice Minister of Education, Science and Technology Jong-Koo Park in attendance.
Under the agreement, the two institutions will set up the tentatively-named KAIST-KRIBB BINT Convergence Institute for the development of technologies and nurturing skilled manpower in the convergence fields.
The partnership of the two institutions is expected to bring broad-based cooperation opportunities and create a massive synergy effect by combining their resources and infrastructure for the development of convergence technologies, KAIST officials said..
The proposed institute is also designed to build a world-class research hub in systems biotechnology by combining strengths of the two institutions with initiatives to achieve the Korean government"s new vision for "low carbon, green growth."
The institute will also serve as a base for domestic brain convergence by concentrating the nation"s research capacities in genetics and brain technology.
KAIST also signed a memorandum of understanding for cooperation in researches in Oriental medicine with three institutions, KRIBB, Daegu Hanny University and Korea Institute of Oriental Medicine.
The agreement calls for the four institutions to conduct joint researches in traditional sciences and Oriental medicine based on systems biology, develop manpower in related fields and share academic and research information.
The agreement is expected to provide impetus to reinforcing competitiveness in compound and convergence technologies and discover new properties in Oriental medicine, according to KAIST authorities.
2008.10.16 View 20455 -
KAIST Professor Finds Paradox in Human Behaviors on Road
-Strange as it might seem, closing roads can cut delays
A new route opened to ease traffic jam, but commuting time has not been reduced.Conversely, motorists reached their destinations in shorter times after a big street was closed. These paradoxical phenomena are the result of human selfishness, according to recent findings of a research team led by a KAIST physics professor.
Prof. Ha-Woong Jeong, 40, at the Department of Physics, conducted a joint research with a team from Santa Fe Institute of the U.S. to analyze the behaviors of drivers in Boston, New York and London. Their study found that when individual drivers, fed with traffic information via various kinds of media, try to choose the quickest route, it can cause delays for others and even worsen congestion.
Prof. Jeong and his group"s study will be published in the Sept. 18 edition of the authoritative Physical Review Letters. The London-based Economist magazine introduced Prof. Jeong"s finding in its latest edition.
Prof. Jeong, a pioneer in the study of "complex system," has published more than 70 research papers in the world"s leading science journals, including Nature, PNAS and Physical Review Letters. "Initially, my study was to reduce annoyance from traffic jam during rush hours," Prof. Jeong said. "Ultimately, it is purposed to eliminate inefficiency located in various corners of social activities, with the help of the network science."
The Economist article read (in part):
"...when individual drivers each try to choose the quickest route it can cause delays for others and even increase hold-ups in the entire road network.
"The physicists give a simplified example of how this can happen: trying to reach a destination either by using a short but narrow bridge or a longer but wide motorway. In their hypothetical case, the combined travel time of all the drivers is minimized if half use the bridge and half the motorway. But that is not what happens. Some drivers will switch to the bridge to shorten their commute, but as the traffic builds up there the motorway starts to look like a better bet, so some switch back. Eventually the traffic flow on the two routes settles into what game theory calls a Nash equilibrium, named after John Nash, the mathematician who described it. This is the point where no individual driver could arrive any faster by switching routes.
"The researchers looked at how this equilibrium could arise if travelling across Boston from Harvard Square to Boston Common. They analysed 246 different links in the road network that could be used for the journey and calculated traffic flows at different volumes to produce what they call a “price of anarchy” (POA). This is the ratio of the total cost of the Nash equilibrium to the total cost of an optimal traffic flow directed by an omniscient traffic controller. In Boston they found that at high traffic levels drivers face a POA which results in journey times 30% longer than if motorists were co-ordinated into an optimal traffic flow. Much the same thing was found in London (a POA of up to 24% for journeys between Borough and Farringdon Underground stations) and New York (a POA of up to 28% from Washington Market Park to Queens Midtown Tunnel).
"Modifying the road network could reduce delays. And contrary to popular belief, a simple way to do that might be to close certain roads. This is known as Braess’s paradox, after another mathematician, Dietrich Braess, who found that adding extra capacity to a network can sometimes reduce its overall efficiency.
"In Boston the group looked to see if the paradox could be created by closing any of the 246 links. In 240 cases their analysis showed that a closure increased traffic problems. But closing any one of the remaining six streets reduced the POA of the new Nash equilibrium. Much the same thing was found in London and New York. More work needs to be done to understand these effects, say the researchers. But even so, planners should note that there is now evidence that even a well intentioned new road may make traffic jams worse."
2008.09.18 View 17363 -
Research University Presidents Discuss Global Network to Increase Cooperation
Presidents and leaders of research universities participating in the 2008 International Presidential Forum on Global Research Universities (IPFGRU) held at the Westin Chosun Hotel in Seoul, Korea on Sept. 8, 2008 exchanged views and ideas on how to build and effectively utilize a global research network in order to increase cooperation and exchanges among institutions of science and technology across the world.
The participants agreed on the need to promote the sharing of expertise and facilities, conduct joint researches and positively implement dual degree, roaming professorship and other programs that help institutions in societies at different stages of scientific and technological development maximize the fruits of their research activities.
As a major goal, the participants agreed to create alliances for research and education that can become a new paradigm for global cooperation, with the outcome of discussions at the 2008 IPFGRU providing the guidelines for future endeavors in this direction.
Through the day-long symposium, participants reached general agreements on the following points:
--The concept of sharing faculty or roaming professorship should be actively promoted in order to accelerate global dissemination of academic expertise with the institutions and state authorities concerned easing existing restrictions to such arrangements and ensuring maximum academic freedom of professors involved.
--Dual degree programs especially those involving institutions of different countries need to be further encouraged in view of their benefits of resources sharing, expansion of knowledge and cultural exchanges and that educational authorities should try to remove various forms of limitations.
--As competitions over university ranking would grow intensive as institutions seek to attract better students and more donations, there is need to institutionalize a fairer, globally recognized national, regional and international assessment systems.
--In view of rapid expansion of interdisciplinary researches which calls for the sharing of facilities and expertise among different institutions, it is necessary to establish national or regional hubs to make state-of-the-art facilities and equipment available for researchers and research programs experiencing limitations in financial and material resources.
--National governments and political leaders should better recognize the importance of science and technology for societal and global prosperity and the science and technology community needs to make more communicative approaches to politicians so that greater trust may be built between them.
--Arrangements to conduct joint research involving international industries, academia and government should be accelerated with a view to addressing the common problems facing the mankind in the 21st century, including energy, environment, water, food and sustainability. The United Nations and other international organizations need to provide stronger support for research universities’ efforts in this direction.
--Research universities across the world should make concerted efforts to establish a global cooperative network that can facilitate the flow of information, resources and research personnel to realize universal advancement of science and technology and, ultimately, enhance the quality of human life.
Keynote speakers and panelists and the subjects of their presentations were:
Participants" List
Topic
Name of University
Speaker
Position
1. Roaming Professorships: To Whose Benefit?
Illinois Institute of Technology
John L. Anderson
President
Improving the Competitiveness of Global University Education
National University of Sciences and Technology
Muhammad Mushtaq
Pro-Rector
Improving the Competitiveness of Global University Education
Tianjin University
Fuling Yang
Director of International Cooperation Office
Sharing Differences in Culture and Environment for Sustainable Education for the Future Generation
Kumamoto University
Tatsuro Sakimoto
President
Sharing Differences in Culture and Environment for Sustainable Education for the Future Generation
Odessa National I. I. Mechnikov University
Sergiy Skorokhod
Vice Rector for International Cooperation
Promoting Science and Engineering Education among Secondary Students
Czech Technical University of Prague
Miroslav Vlcek
Vice Rector
Promoting Science and Engineering Education among Secondary Students
South China University of Technology
Xueqing Qiu
Vice President
Preserving and Utilizing Expert Knowledge for Better Education
Eotvos Loran University
Jösef Nemes-Nagy
Vice Dean
2. Dual Degree Programs: Future Potential & Challenges
University of Queensland
Paul Greenfield
President and Vice Chancellor
Benefits of Dual Degree Program
Institut National des Sciences Appliquées de Lyon
Martin Raynaud
Director, International Relations
Benefits and Limitations of Dual Degree Program
National Institute of Development Administration
Pradit Wanarat
Vice President for Academic Affairs
The Role of Dual Degree Program Easing Brain Drain
Nanyang Technological University
Lam Khin Yong
Associate Provost, Graduate Education & Special Projects
International Dual Degree Programs and Strategies
Georgia Institute of Technology
Steven W. McLaughlin
Vice Provost, International Initiatives
Dual Degree Program and Global Learning Networks
City University of Hong Kong
Richard Yan-Ki Ho
Special Advisor to the President
Raising International IQs of Scientists and Engineers for Global Enterprise
Technion, Israel Institute of Technology
Moshe Shpitalni
Dean,
Graduate Studies
Luncheon Speech
“Beneficial Relationships between Academia and Companies”
Medical Information Technology
A. Neil Pappalardo
Chairman and CEO
3. Sharing Facilities and Expertise
KAIST
Nam Pyo Suh
President
Promoting International Sharing of Research Facilities and Expertise to Strengthen Research Outcomes
Griffith University
Ian O"Connor
President
Economic Benefits of Sharing Research Facilities and Expertise
POSTECH
Sunggi Baik
President
Economic Benefits of Sharing Facilities and Expertise: National NanoFab Center
National NanoFab Center
Hee Chul Lee
President
Communicating Science and Technology to Political Leaders
Office of the President of KOREA
Chan Mo Park
Special Advisor to the President for Science and Technology
Filling the Gap of University Resources
Bandung Institute of Technology
Djoko Santoso
Rector
4. An Approach to Joint Research Ventures with NASA
NASA
Yvonne Pendleton
Deputy Associate Center Director
Benefits of International Joint Venture Research Projects
University of Adelaide
Martyn J. Evans
Director, Community Engagement
Benefits of International Joint Projects
Mahidol University
Sansanee Chaiyaroj
Vice President
International Joint Research Projects
University of Iowa
P. Barry Butler
Dean, College of Engineering
Joint Research: University of Technology Malaysia’s Experience at National and International Level
University Technology of Malaysia
Tan Sri Mohd Ghazali
Vice-Chancellor
Sharing Intellectual Property Rights
Paris Institute of Technology
Cyrille van Effenterre
President
Global Economic and Social Contribution of International Joint Project Cooperation
Kyushu University
Wataru Koterayama
Vice President
5. Globalization through Interfacing with Existing Networking
Technical University of Denmark
Lars Pallesen
Rector
Establishing Global Science and Technology Networking
National Cheng Kung University
Da Hsuan Feng
Senior Executive Vice President
Establishing Global Science and Technology Networking
University of Technology of Troyes
Christian Lerminiaux
President
The Role of Global Science and Technology Network for Higher Education in the 21st Century
Iowa State University
Tom I-P. Shih
Department Chair
Regionalized or Globalized Science and Technology Networking
Babes-Bolyai University
Calin Baciu
Dean, Faculty of Environmental Sciences
Globalized Science and Technology Networking
Harbin Institute of Technology
Shuguo Wang
President
Connecting Regional Science and Technology Networks for the Global Networking
Ritsumeikan University
Sadao
Kawamura
Special Aide
to the Chancellor
How Can a Publisher Strengthen the Global Network of Universities?
Elsevier
Youngsuk Chi
Vice Chairman
2008.09.18 View 26243
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KAIST, KARI to Conduct Joint Research, Exchange Tech Manpower
KAIST and the Korea Aerospace Research Institute (KARI) have agreed to conduct joint researches and exchange technical personnel in order to spur research activities on artificial satellite and other aerospace technology, KAIST announced Wednesday, Sept. 17.
An MOU was signed in a ceremony at the KARI Tuesday, attended by senior officials of the two institutions which both are located in the Daedeok Technopolis in Daejeon City.
Researchers from KARI will participate in KAIST"s interdisciplinary project of "Space Exploratory Engineering" and the two organizations will also jointly take part in the International Lunar Network (ILN), an international moon exploration program, to accelerate development of space technology in Korea.
As a result of the tieup, Dr. Lee So-yeon, Korea"s first astronaut who lived in space for a week aboard a Russian spacecraft this year, will be able to teach and conduct research at KAIST as an adjunct professor. Lee earned her doctorate from KAIST.
2008.09.17 View 19005 -
World Research University Heads To Discuss Global Networking at KAIST Symposium
About 70 leaders of the world"s major research universities will discuss how to strengthen and operate global networks to share faculty, students, facilities and other resources for common advancement at a symposium Monday, Sept. 8, at the Westin Chosun Hotel in Seoul organized by KAIST, Korea"s foremost institute of science and technology education and research.
Participants of the 1st International Presidential Forum on Global Research Universities are from 39 universities in 20 countries. They include nine presidents of Korean universities.
The international symposium, the first such event to be held in Korea, will proceed in five panel sessions. The subjects of each session and their keynote speakers are:
-- "Roaming Professorships: To Whose Benefit?" by Dr. John Anderson, president of the Illinois Institute of Technology, USA,-- "Dual Degree Programs: Future Potential and Challenges" by Dr. Paul Greenfield, president of the University of Queensland, Australia, -- "Sharing Facilities and Expertise" by KAIST President Nam Pyo Suh,-- "An Approach to Joint Research Ventures with NASA" by Yvonne Pendleton, NASA, and-- "Globalization through Interfacing with Existing Networking" by Dr. Lars Pallesen, rector of the Technical University of Denmark.
KAIST President Suh said of the purpose of the conference: "Research universities have become global enterprises. Collaborations that were once primarily between individual researchers are now increasingly occurring at institutional and international levels. Similarly, educating students which used to be the responsibility of a single university has now become a multi-institutional undertaking, involving many universities in different countries.
"Now leading research universities in many countries depend on the continuous supply of outstanding graduate students from the "feeder" schools of developing nations. There are concerns that the current system may not be serving the interest and need of some institutions, especially those in developing nations. This should be examined and understood to devise international mechanisms that can accentuate the positive aspects of globalization.
"Through this forum, we hope to forge an international network of universities that will strengthen the effort of individual universities and create alliance for research and education that can become a new paradigm for global collaboration."
Prime Minister Han Seung-soo will give a speech at a dinner after the conclusion of the symposium. President of the Korea International Traders Association Lee Hee-beom will make a welcoming address at the start of the conference.
Co-sponsors of the international university presidents" forum include the Dong-a Ilbo, a major national daily, and the Dong-a Science magazine.
The research universities presidential forum will be followed on Sept. 9 by an international academic workshop at KAIST"s Daejeon campus on EEWS (Energy, Environment, Water and Sustainability).
Under the theme of "Challenges as Opportunities," research teams from MIT, CalTech, the Korean Ministry of Knowledge and Economy, KAIST Institute and KAIST EEWS team will present their research results at the workshop. Major Korean businesses, including SK Energy, GS Caltex and the Samsung Group will also introduce their research programs concerning EEWS, the most pressing prblems of today"s world.
A groundbreaking ceremony will be held at the KAIST campus in the afternoon of the same day for the construction of the KI Building, which will house all the eight research institutes of KAIST. The KI for Bio Century, KI for IT Convergence, KI for Design of Complex Systems, KI for Entertainment Engineering, KI for Eco-Energy, KI for Urban Space and Systems, and the KI for Optical Science and Technology were established between 2006 and 2008. More than 230 professors from 18 departments have actively engaged in research activities in their respective fields.
KAIST will start construction of the Pappalardo Medical Center in a ceremony on Wednesday with the attendance of Mr. Neil Pappalardo, chairman-CEO of Meditech Inc. of the United States who donated $2.5 million for the project. The medical facility for KAIST students, faculty and the residents of the university area will be completed in September 2009.
The President"s Advisory Council (PAC) for KAIST will hold its 3rd general meeting on Sept. 10 to discuss KAIST"s short- and long-term strategies to become the world"s top-ranked research university. The PAC was formed in 2006 with 11 foreign and 14 domestic figures from the business and academic circles.
Foreign PAC members include John Holzrichter, president of Fannie and John Hertz Foundation; Donald C. W. Kim, chairman of AMKOR A&E, Inc.; Chong-Moon Lee, chairman of AmBex Venture Group; Byung-Joon Park, founder of Bureau Veritas CPS, Inc.; Lars Pallesen, rector of the Technical University of Denmark. PAC members have advised the KAIST president on international publicity on KAIST"s academic excellence, fund-raising, and promotion of cooperative relations with overseas institutions.
2008.09.04 View 25062
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Prof. Lee Appointed to Advisory Board of the U.S. Joint BioEnergy Institute
Prof. Sang-Yup Lee of the Department of Chemical and Biomolecular Engineering, KAIST, has been appointed as a member of the scientific advisory board of the Joint BioEnergy Institute under the wing of the U.S. Department of Energy, university authorities said on Monday (Aug. 4).
The Joint BioEnergy Institute (JBEI) is a scientific partnership in the San Francisco Bay area, California, led by Lawrence Berkeley National Laboratory (Berkeley Lab). Its partner organizations include the Sandia National Laboratories, the University of California in Berkeley, UC Davis, the Carnegie Institution for Science and the Lawrence Livermore National Laboratory.
JBEI
2008.08.07 View 15446