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KAIST and Hynix Semiconductor Jointly Foster Manpower
KAIST and Hynix Semiconductor Jointly Foster Manpower
- Joint running of industry-academy programs for excellent semiconductor manpower training
- Regular mutual manpower exchange for on-site education and research
KAIST Department of Raw Material Science and Engineering and Hynix Semiconductor concluded an agreement to manage a ‘joint industry-academy business group’, Wednesday, December 6.
The both bodies reached an agreement to jointly promote the first step of ‘the excellent semiconductor manpower training program’ for 4 years beginning 2007.
KAIST plans to foster creative and excellent semiconductor manpower possessing both of theories and technologies through research topics and lectures that reflect Hynix Semiconductor’s necessities, and will promote regular manpower exchanges with Hynix Semiconductor to enhance trainees’ on-site adaptabilities.
Hynix Semiconductor will actively participate in the researches and support the expenses for research and education and high-cost equipment. Furthermore, Hynix Semiconductors will dispatch its researchers to KAIST as adjunct professors to educate doctorate students, who join the researches, and assist on-site education.
2006.12.11 View 14257 -
Final competition of 'UFC' contest
Final competition of ‘UFC’ contest
Joint university team D-M2 won first prize
The final winner of ‘the 2nd Ubiquitous Fashionable Computer (UFC) contest‘, co-hosted by KAIST and the Korean Society for Next-Generation Computing (KSNGC), was determined.
At the final competition of November 17 among 9 qualified teams, the first prize went to D-M2, composed of students from Seokyeong University, Kookmin University, Hongik University, and Sungshin Women’s University. D-M2 manufactured a work utilizing a user’s motion information by applying motion capture technologies to UFC. Particularly, the work gained a high score at the item of the functional perfection by controlling the robot according to a user’s motion.
The gold prize went to the smart jacket by Jjik-eo-cha-ki (Kwangwoon University and Duksung Women’s University). The smart jacket is embedded with an intelligent clothes function in terms of checking a user’s status in a real-time basis and delivering it to a doctor, etc.
The silver and bronze prizes went to Samsung Software Membership (SSM) and Hanse University, respectively. SSM manufactured a training suit with sensors for grasping the movement of each articulation of a user built-in, and Hanse University developed a system enabling blinders to get a voice service of general documents or books regardless of time and place.
The participants composed of university students or graduate students have passed the severe qualifying contest through the examination of written plan and presentation of last April and manufactured creative works that realize the fusion of IT technologies and fashion.
At the contest, that fact that all winners of the first, gold, and silver prizes were the members of SSM gained more attention.
UFC is a new field that pursuits the enhancement of computer technologies and the creation of fashion simultaneously by fusing IT technologies and fashions. UFC is a one-step advanced field of the existing wearable computer and an important cutting-edge field that leads a computer industry in the era of ubiquitous.
“The level of the works exhibited was higher than I’d expected and the cooperation between the departments of Closing Textile and Electronics appeared to be so positive, which made me expect more brilliant future of the next-generation computing industry,” said Hoijoon You, Co-chairman of the contest and professor of the department of Electrical Engineering.
2006.11.27 View 16876
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KAIST Chong-Moon Lee Library Opens
KAIST Chong-Moon Lee Library Opens
Jong-Moon Lee Library, management education library for scientists possessing the biggest amount of entrepreneurship data in Asia, opens in KAIST (President Nam-Pyo Suh) on Thursday, November 9, 2006.
Jong-Moon Lee Library was planned when Jong-Moon Lee, Chairman of AmBex, donated 2 million dollar to KAIST and founded Entrepreneurship Research Center at KAIST in 2004. Chairman Lee emphasized on the necessity of management education for scientists of advanced technology-based venture companies and set the management plan for Jong-Moon Lee Library securing the biggest amount of Entrepreneurship data in Asia.
Jong-Moon Lee Library possesses books for inspiring entrepreneurship, including ▲ books regarding how to prepare and evaluate business plans that support the realization of business ideas such as venture company founding, etc. ▲ administrative books necessary for company management such as leadership and finance, accounting, etc. ▲ economic books that foster reader’s insight over economy and society. The number of books is about 4,900 and various journals including Harvard Business Review are also provided.
KAIST Entrepreneurship Research Center (President Tae-Yong Yang) is now carrying out ▲ the management of entrepreneurship library for Engineering students and businessmen ▲ programs for entrepreneurship education and venture-company founding ▲aid for business plan forums and academic conferences. It benchmarks Stanford Technology Venture Program (STVP) of Stanford University, which is evaluated the most excellent program in researches and realization of entrepreneurship, and manages education programs for scientific manpower with international managing minds on the basis of world’s best capabilities in scientific researches and education of KAIST.
President Yang explained about the management plan by saying, “Following Chairman Jong-Moon Lee’s intention, the center will educate entrepreneurship to engineering students and properly diagnose initial values of excellent technologies, thereby making venture companies flourish.”
2006.11.16 View 15902
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Professor Sang-Yup Lee publishes a requested paper in Nature Biotechnology
Professor Sang-Yup Lee publishes a requested paper in Nature Biotechnology
“The era of commercialized bioplastic is coming”
Disclose an opinion as specialist at a requested paper in Nature Biotechnology, October 2006
A team led by Barbel Friedrich, Professor of Humboldt-Universitat zu Berlin, and Alexander Steinbuchel, Professor of West falische Wilhelms-Universitat Munster, found out the entire genome sequence of the typical bioplastic-producing microorganism ‘Ralstonia eutropha’ and published a paper on it in Nature Biotechnology, October 2006. As the entire genome sequence of the typical bioplactic-producing microorganism has been discovered, it is expected that the efficient production of bioplastic will be available through strain improvement at a more systematic level.
Regarding this paper, Nature Biotechnology requested world-renowned scholar Sang-Yup Lee, LG Chemical Chair-Professor of KAIST Chemical and Biomolecular Engineering Department, an expert analysis on the future of bioplastic production as a result of the deciphering of the genome sequence, and Professor Lee revealed his opinion at ‘News and Views’ in Nature Biotechnology, October 2006, issued on October 10. In the analysis, he insisted, “The deciphering of the genomes of Ralstonia means to pave the way for the improvement of strains at a system level by combining simulation through various omics and imaginary cells and engineering at a genome level. It will be possible to produce plastic with desired properties by altering the components of plastic as desired and produce bioplastic, more efficient and economical than have been reported so far, through the optimization of metabolic flow.”
Professor Lee is a world-renowned scholar in the bioplastic field, who has presented about 70 SCI papers in the field. He created a word ‘Plastic Bacteria’ at Trends in Biotechnology in 1996 and published an expert paper regarding E.Coli Plastic at Nature Biotechnology in 1997. He is now performing a research concerning the improvement of bioplastic-producing strains as an example of a research employing a systematic method for the system biological research and development project of the Ministry of Science and Technology.
The followings are the contents of Professor Lee’s paper concerning microorganism plastic published at ‘News and Views’ in Nature Biotechnology, October 2006.
- Polyhydroxyalkanoate (PHA) is a high molecule that numerous microorganisms accumulate in their own cells as energy storage substance when they are rich in carbonic resources, but poor in the other growth factors. The PHA high molecule is polyester, in which the unit substances (unit chemicals) are ester-bonded, and has been studied worldwide about twenty years before. However, PHA’s worse properties than petrochemical plastic and extremely high production cost have prevented its commercialization. The production cost of PHA was 15 dollars per kg in 1980’s, twenty times higher than the price of polypropylene. Sang-Yup Lee, LG Chemical Chair-Professor of KAIST Chemical & Biomolecular Department’s BK21 Project Group, has performed a research concerning the efficient production of microorganism plastic through the combination of metabolic engineering and fermentation process under the support of the Ministry of Science and Technology, and developed a process that lowers the production cost of PHA to 2-3 dollars per kg. He also has developed PHA-producing bacteria, efficient enough to fill plastic tightly, and named it ‘Plastic Bacteria’.
- The unprecedented rise of oil price for the past two years activated the researches on Bio-based energies and chemical production globally. PHA is also regaining attentions although the researches on it have been withered so far due to its poor economical efficiency and properties. The result of the genome deciphering of the typical plastic-producing microorganism ‘Ralstonia eutropha’ published by a German research team in Nature Biotechnology, October 2006 suggests huge meanings. That is, it will provide a blueprint over the metabolic activities of the bacteria and thus enables more systematic strain improvement.
- Eyeing on these facts, Nature Biotechnology requested Professor Sang-Yup Lee an expert analysis, and Professor Lee analyzed that there would be a dramatic development of microorganism plastic production through the application of the system biological engineering method, which is now being performed actively by Professor Lee at KAIST. In the analysis, Professor Lee revealed, “As the genome sequence has been found out, it becomes possible to establish metabolic network at a genome level, and since simulation becomes available, numberless trial and errors and experiments can be replaced with imaginary experiments rapidly. In addition, It makes the more efficient development of strains possible by fusion-analyzing the omics result such as various transcripts, proteins, metabolites, etc.” He also expected that it would be possible to produce tailor-made PHA having desired properties through metabolic engineering as well as the efficient production of plastic. Besides, he prospected that his research on the production of optically pure hydroxyl carboxyl acid, Professor Lee’s international patent right, would gain driving forces and technical development would be made rapidly at biological hydrogen production, production, dissolution and application of aromatic compounds, etc. by featuring this strain.
- Recently, Metabolic and ADM, U.S. companies, jointly started to produce PHA at a commercialization level, and Brazil having rich natural resources is commercializing PHA, following Bio-ethanol. In addition, Japan and Germany having a bunch of research performance in this field, and Australia having rich biomass are also performing consistent researches on PHA’s commercialization. Professor Lee prospected, “With the finding out of the genome sequence of the typical bioplastic-producing microorganism, competition for commercialization will be fiercer among nations through the development of efficient production systems.”
- Professor Lee prospected that as the efficient production of PHA becomes possible, the production of plastic from various renewable ingredients (cellurose, starch, suger, etc.) through microorganism fermentation would be made practically and the white biotechnologies of existing chemicals would gain more power. He also said, “Korea also will have to try to secure the production technologies and industry of Bio-based chemicals through strategic cooperation with resource powerfuls, etc. on the basis of the technical dominancy in some system metabolic engineering fields.”
- ‘News and Views’ in Nature Biotechnology is a section that publishes analyses of world-renowned specialists in the corresponding fields over the contents of some papers having great influences among papers published in the issue. KAIST Professor Sang-Yup Lee has published his second expert analysis of ‘Deciphering bioplastic production’ in the volume of October 2006, following the first paper ‘Going into the era of E.Coli plastic’.
2006.10.23 View 16533
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Bently Pressurized Bearing Company donates 1 million dollars to KAIST to establish a new chair professorship
KAIST has announced that it recently received an endowment of 1 million US dollars from an American company, Bently Pressurized Bearing Co., earmarked to establish a chair professorship, and appointed Professor Jong Hyun Kim of Nuclear and Quantum Engineering Department as Donald E. Bently and Agnes Muszynska Endowed Chair Professor.
Professor Kim is a world-renowned expert in thermal and fluids sciences applied to energy systems and an authority on their applications to rotating machinery and nuclear safety analysis. He did his research in these areas at EPRI, GE, Brookhaven National Laboratory, and Penn State University. He is a Fellow of American Society of Mechanical Engineers (ASME) and of American Nuclear Society, and is currently Editor-in-Chief of International Journal of Transport Phenomena.
Bently Pressurized Bearing Co. (BPB) is pioneering fully lubricated, pressurized bearing to improve energy efficiency in rotating machinery. Mr. Donald E. Bently, Chairman and CEO of BPB, is an international authority on vibration monitoring and diagnostics of rotating machinery, published widely on these topics and holds patents. A philanthropist deeply interested in technology and science education, Mr. Bently made generous donations to a number of universities. He received numerous honors and awards, including those from ASME, the Pacific Center of Thermal-Fluids Engineering, University of Iowa, and received Nevada’s Outstanding Inventor Award. He was conferred an Honorary Doctorate Degree by the University of Nevada and is a Fellow of ASME.
Dr. Agnes Muszynska is a world-renowned scientist in the area of rotating machinery dynamics in which she published 300 papers and a book. She was in responsible charge of research and development at Bently’s companies for many years. She was conferred the prestigious national title of Professor granted by the President of Poland. Dr. Muszynska is a Fellow of ASME.
Professor Kim said, “I am pleased that KAIST received this endowment, which can be interpreted as an international recognition for the research standard of KAIST. The chair named after the two prominent engineers means a lot to me, as they are familiar with my research activities. I feel particularly honored because the endowment came from overseas.”
KAIST has raised its eyesight to become a global leader in technology and science and recently lured a Nobel Laureate from Stanford University, Dr. Robert Laughlin, to head the institute. The school is striving to accelerate the pace for globalizing itself. The establishment of this chair professorship through a foreign endowment is in concert with the KAIST’s grand vision.
Resume for Jong Hyun Kim, Ph.D. Donald E. Bently and Agnes Muszynska Endowed Chair Professor
Education
1966 BS in Mechanical Engineering, Seoul National University
1967 MS in Mechanical Engineering, University of Missouri
1971 Ph.D. in Mechanical Engineering, Californian Institute of Technology
Professional Career
2002 - present Professor, Dept. of Nuclear and Quantum Engineering, KAIST
2001 - 2002 Distinguished Chair Professor, Dept. of Mechanical & Aerospace Engineering, GyeongSang National University
1980 - 2000 Project Manager, EPRI
1977 - 1980 Senior Engineer, GE
1975 - 1977 Associate Engineer, Brookhaven National Laboratory
1973 - 1975 Research Associate, Applied Research Laboratory, Penn State University
1971 - 1973 Research Fellow, California Institute of Technology
Achievements/Recognitions
Fellow, American Nuclear Society
Fellow, American Society of Mechanical Engineers
National Academy of Engineering of Korea: overseas Korean member
Research:
- Total 185 publications: 117 papers, 11 books, 16 symposia volumes, and others
- Professor Kim’s research products helped nuclear industry save a few hundred million dollars
Editor-in-Chief, International Journal of Transport Phenomena
Chairman, Thermal Hydraulics Division, American Nuclear Society (2002-2003)
Chairman, Heat Transfer Division. American Society of Mechanical Engineers (2001-2002)
UC Berkeley, Adjunct Professor in Mechanical Engineering (1993-1995)Stanford University, Consulting Professor in Mechanical Engineering (1988-1995)
About Donald E. Bently and Agnes Muszynska
Donald E. Bently, Chairman & CEO of Bently Pressurized Bearing Company, Minden, Nevada, is an engineer, inventor, entrepreneur, agriculturist, environmental conservationist, and visionary who is also a philanthropist.
Entrepreneurial Accomplishments
Founder, Chairman, and CEO of Bently Nevada Corp., the world"s leading supplier of condition monitoring instrumentation and services for rotating machinery until it was sold to GE in 2002
Founder of Bently Rotor Dynamics Research Corporation, a wholly owned subsidiary of Bently Nevada, where the basic ideas for his bearing technology were pioneered
Pioneered the first commercially successful eddy current proximity transducer and introduced its use to measure vibration and other critical parameters in rotating machinery. Today, he is actively pioneering fully lubricated, pressurized bearing technology.
His Bently Agrowdynamics practices environmentally sustainable agriculture through the innovative use of renewable resources and conducts research and development of biofuels such as biodiesel, which can be used in conventional diesel engines.
In addition, Donald E. Bently owns a diverse portfolio of other businesses including National Tribology Services, Inc., Gibson Tool & Supply, and Bently Holdings California, LP.
Scientific and Technological Contributions
Mr. Bently is an international authority on rotor dynamics as well as vibration monitoring and diagnostics. He has authored or co-authored more than 140 papers and a book on these subjects, Fundamentals of Rotating Machinery Diagnostics, and is the holder of two patents.
Honors and Awards
2003: Distinguished Service Award, California Polytechnic State University, San Luis Obispo.
2002: Distinguished Nevadan Award, the University of Nevada, Reno. Fellow, American Society of Mechanical Engineers (ASME)
2001: Inducted into the University of Iowa"s Distinguished Engineering Alumni Academy
2000: Frederick P. Smarro Award, American Society of Mechanical Engineers
1999: R. Tom Sawyer Award, American Society of Mechanical Engineers
1997: N.O. Myklestad Award, ASME Design Engineering Division
1995: ISROMAC Award for his distinguished research achievements in the field of rotating machinery, the Pacific Center of Thermal-Fluids Engineering
1992: Elected a Foreign Member of the St. Petersburg Academy of Engineering in Russia
Visiting Scholar, Tsinghua University, China
The first recipient of the Vibration Institute"s DECADE Award
1983: Nevada"s outstanding inventor award, the Nevada Innovation and Technology Council
1945-1946: Received four battle stars while on an amphibious landing team in the Pacific as a member of the U.S. Navy Seabees during World War II
Educational and Professional Credentials
Registered Professional Engineer in Electrical Engineering, Nevada and California
A senior member of IEEE and a Fellow of ASME
A member of honorary societies Sigma Xi, Eta Kappa Nu, and Tau Beta Pi
B.S. in Electrical Engineering (with Distinction), University of Iowa, 1949
M.S. in Electrical Engineering, University of Iowa, 1950
Honorary Doctorate in Engineering, University of Nevada at Reno, 1987
Honorary AA Degree, Western Nevada Community College, 1998
Agnes Muszynska, President, A.M. Consulting Co.
Dr. Agnes Muszynska, a native of Poland, is a world-renowned scientist in the area of rotating machinery dynamics. She worked for 18 years as a Senior Research Scientist and Research Manager at Bently Nevada Corporation and Bently Rotor Dynamics Research Corporation. For more than 40 years, Dr. Muszynska had conducted theoretical and experimental research on rotating machine dynamics. Dr. Muszynska received B.S. and M.S. degrees in Mechanical Engineering from Technical University of Warsaw, Poland. She received her Ph.D. from Polish Academy of Sciences and the prestigious title of Professor granted by the President of Poland. She is author or co-author of almost 300 scientific publications including a comprehensive book on rotordynamics. Several of her papers received awards from ASME, NASA, and ASEM. She also received the Distinguished Research Award for research achievements from the Pacific Center of Thermal-Fluids Engineering. Dr. Muszynska is currently the owner and President of A.M. Consulting Company. She is a Fellow of American Society of Mechanical Engineers. Mr. Donald Bently and Dr. Agnes Muszynska fruitfully collaborated on rotating machinery dynamics and diagnostics for many years.
2004.11.08 View 20469
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Professor Kim Donates W5 Bil. to KAIST
Korea Times 2004.5.21
By Kim Tae-gyu / Staff Reporter
A professor from the Korea Advanced Institute of Science and Technology (KAIST) has donated his inherited wealth of 5 billion won to the state-owned institute.
The KAIST announced professor Kim Dong-won contributed 5 billion won in properties and cash, which he inherited from his father, who passed away late last year.
``Professor Kim has asked us to spend the contribution in the development of Korea’s science in accordance with the late Kim’s will,’’ said Park Jae-wook, a KAIST spokesman.
Park added Kim had tried to remain anonymous, but his identity was revealed by some local newspapers. Kim is currently in the United States as he is out of his post on an interim basis and will come back to Korea in August.
Four billion won of the donation will be used to set up scholarships, which will endow 20 million won each to 10 KAIST students every year. The remaining 1 billion won will help invite illustrious scholars to the institute.
Adding to the good news for KAIST, Lee Chong-moon, chairman of the U.S.-based venture company Ambex, has also donated 2 billion won.
The 76-year-old Lee called for the KAIST to inspire a sprit among students by establishing a management center named after him.
2004.05.21 View 17579
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133 Diplomats Worldwide Visit KAIST
THE KAIST Herald April 8, 2004by jong-kyoung Kim
On March 12, diplomatic corps in Korea visited Daedeok Valley"s KAIST after taking a trial run on the Korea Train eXpress(KTX). Composed of ambassadors from 79 nations and 54 international organizations, the 133 diplomatic corps went on board KTX at 10:30 AM in Seoul and arrived in Daejeon at 11:20 AM.
Shortly after arrival, the diplomatic corps attended a luncheon hosted by the Minister of Foreign Affairs and Trade(MOFAT) before paying visits to the Electronics and Telecommunications Research Institute(ETRI) and KAIST. After being introduced to the current issues at KAIST, the diplomatic corps returned back to Seoul at 4:00 PM.
Seventy-nine embassy representatives out of eighty-seven currently stationed in Korea participated in this event, with fifty-four representatives from three international organizations. In addition, officials from the Ministry of Foreign Affairs and Trade, a commercial relations director, and a regional representative accompanied them.
The trial rides on April 1 were organized by the Ministry of Foreign Affairs and Trade to publicize Korea as being the fifth country (after Japan, France, Germany, and Spain) in the world to own an express train and to introduce the growth of Korea"s IT industry through visits to ETRI and KAIST.
Events such as this are held annually to improve the understandings of the diplomatic corps about Korea"s science, technology, culture and art and to further enhance bilateral relations.
2004.04.20 View 17995