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New director of National Nano Fab Center was named.
Professor Ki-Ro Lee from the Electrical Engineering Department of KAIST has been appointed as the new Director of National Nano Fab Center, an affiliated institute to KAIST and will serve the position for three years beginning from May 4, 2010. Director Lee graduated from Seoul National University in 1976 and received his doctoral degree from University of Minnesota, Twincities, the US, in 1983. He has taught at the Electrical Engineering Department since 1986. While at KAIST, he served as the dean of research affairs from 1998-200 and 2004-2005, respectively. From 2005 to 2007, he worked as the Director of LG Advanced Institute of Technology.
2010.05.19
View 10435
A KAIST graduate to become a professor at a prestigious university in UAE
A KAIST graduate to become a professor at a prestigious university in UAE Dr. Jerald Yoo, a KAIST graduate, has been appointed as an assistant professor at the Masdar Institute of Science and Technology (MIST) in Abu Dhabi, United Arab Emirates (UAE), by the recommendation of the Massachusetts Institute of Technology (MIT) since April 1, 2010. The MIST is a private, not-for-profit, independent, research-driven institute developed with the support and cooperation of MIT and the Abu Dhabi government, which was opened in September 2009. Currently, at the school, there are 25 professors and 100 students from 22 countries around the world. The institute has a campus in Masdar City where the Abu Dhabi government plans to nurture it as a “place for zero carbon emissions.” According to an agreement between the MIST and MIT, Professor Yoo will teach and work on co-research projects at MIT for one year beginning in May 2010 and then working at the MIST thereafter. Professor Yoo received all of his degrees (BS, MS, and Ph.D.) from KAIST majoring in electrical engineering and earned his doctoral degree in January 2010. His research works included developing a wearable patch to monitor bio signals with an application of wearable sensor networks and low energy electronic circuit technologies. During his doctoral study, Professor Yoo published papers at the IEEE International Solid-State Circuits Conference (ISSCC) and in journals of IEEE Solid-State Circuits Society (SSCS). Professor Yoo said, "The wearable health care system is certainly necessary to improve the quality of our lives, and the field should receive a sustaining support for further research. I will do my best to continuously produce valuable research results and hope that my research works will be helpful for an academic exchange between South Korea and Abu Dhabi.” About the Masdar Institute of Science and Technology (MIST) in Abu Dhabi: http://www.masdar.ac.ae/ The Masdar Institute is the centerpiece of the Masdar Initiative, a landmark program announced in April 2006 by the government of Abu Dhabi to establish an entirely new economic sector dedicated to alternative and sustainable energy. Masdar is a highly-strategic initiative with primary objectives of: helping drive the economic diversification of Abu Dhabi; maintaining and expanding Abu Dhabi"s position in evolving global energy markets; positioning Abu Dhabi as a developer of technology; and making a meaningful contribution towards sustainable human development. The Masdar Institute is a private, not-for-profit, independent, research-driven institute developed with the support and cooperation of the Massachusetts Institute of Technology (MIT). The Institute offers Masters and (eventually) PhD programs in science and engineering disciplines, with a focus on advanced energy and sustainable technologies. It welcomes and encourages applications from qualified local and international students and provides fellowships to talented students who meet its high admission standards. Its faculty is of the highest quality and the intent is to have the structure of its top administration similar to MIT"s.
2010.04.13
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News Article: Naro space rocket getting ready for second launch, April 12, 2010
News Article on KIAST published on April 12, 2010 The Korea Herald, 2010-04-12 17:07 Naro space rocket getting ready for second launch By Bae Hyun-jung (tellme@heraldm.com) The Ministry of Education, Science and Technology is checking on the second launch of Naro, Korea’s first space rocket, as all the necessary parts were transferred to the launch center last week. The Science Technology Satellite No. 2 was transferred last Thursday from the KAIST Satellite Technology Research Center in Daejeon to the Naro Space Center in South Jeolla Province, said ministry officials. The solid-fuel second-stage rocket reached the center last Monday and the liquid-fuel first-stage rocket did so on March 23. The latter was manufactured in Russia’s Khrunichev State Space Science and Production Center. The satellite, a small one weighing 100 kilograms, was co-developed by the Korea Aerospace Research Institute, KAIST SaTReC and the Gwangju Institute of Science and Technology. It is to revolve around the Earth for two years collecting data on climate change by gauging the hydrogen content in the atmosphere, said officials. “With all the crucial parts ready here in the center, we have officially kicked off our final investigation before setting the details of the second Naro launch,” said a ministry official. Second Vice Minister Kim Joong-hyun last week visited the Naro center to attend the overall inspection on all facilities related to the rocket launch. The date has not yet been set for the second launch but will be fixed within this month, said officials. With the general inspection completed on the facilities, the first-stage rocket and the satellite will be assembled and the combination will be joined by the second-stage rocket in May. The first launching attempt ended in failure in August due to faulty electrical wiring or a mechanical problem in the fairing separation mechanism, according to panels. The two fairings -- used to cover and protect the satellite placed on top of the Naro -- failed to separate timely and thus stopped the satellite from gaining sufficient velocity to reach its planned orbit. Korea has so far spent 502.4 billion won ($428.1 million) on the Naro project since it began in August 2002.
2010.04.13
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New drug targeting method for microbial pathogens developed using in silico cell
A ripple effect is expected on the new antibacterial discovery using “in silico” cells Featured as a journal cover paper of Molecular BioSystems A research team of Distinguished Professor Sang Yup Lee at KAIST recently constructed an in silico cell of a microbial pathogen that is resistant to antibiotics and developed a new drug targeting method that could effectively disrupt the pathogen"s growth using the in silico cell. Hyun Uk Kim, a graduate research assistant at the Department of Chemical and Biomolecular Engineering, KAIST, conducted this study as a part of his thesis research, and the study was featured as a journal cover paper in the February issue of Molecular BioSystems this year, published by The Royal Society of Chemistry based in Europe. It was relatively easy to treat infectious microbes using antibiotics in the past. However, the overdose of antibiotics has caused pathogens to increase their resistance to various antibiotics, and it has become more difficult to cure infectious diseases these days. A representative microbial pathogen is Acinetobacter baumannaii. Originally isolated from soils and water, this microorganism did not have resistance to antibiotics, and hence it was easy to eradicate them if infected. However, within a decade, this miroorganism has transformed into a dreadful super-bacterium resistant to antibiotics and caused many casualties among the U.S. and French soldiers who were injured from the recent Iraqi war and infected with Acinetobacter baumannaii. Professor Lee’s group constructed an in silico cell of this A. baumannii by computationally collecting, integrating, and analyzing the biological information of the bacterium, scattered over various databases and literatures, in order to study this organism"s genomic features and system-wide metabolic characteristics. Furthermore, they employed this in silico cell for integrative approaches, including several network analysis and analysis of essential reactions and metabolites, to predict drug targets that effectively disrupt the pathogen"s growth. Final drug targets are the ones that selectively kill pathogens without harming human body. Here, essential reactions refer to enzymatic reactions required for normal metabolic functioning in organisms, while essential metabolites indicate chemical compounds required in the metabolism for proper functioning, and their removal brings about the effect of simultaneously disrupting their associated enzymes that interact with them. This study attempted to predict highly reliable drug targets by systematically scanning biological components, including metabolic genes, enzymatic reactions, that constitute an in silico cell in a short period of time. This research achievement is highly regarded as it, for the first time, systematically scanned essential metabolites for the effective drug targets using the concept of systems biology, and paved the way for a new antibacterial discovery. This study is also expected to contribute to elucidating the infectious mechanism caused by pathogens. "Although tons of genomic information is poured in at this moment, application research that efficiently converts this preliminary information into actually useful information is still lagged behind. In this regard, this study is meaningful in that medically useful information is generated from the genomic information of Acinetobacter baumannii," says Professor Lee. "In particular, development of this organism"s in silico cell allows generation of new knowledge regarding essential genes and enzymatic reactions under specific conditions," he added. This study was supported by the Korean Systems Biology Project of the Ministry of Education, Science and Technology, and the patent for the development of in silico cells of microbial pathogens and drug targeting methods has been filed. [Picture 1 Cells in silico] [Picture 2 A process of generating drug targets without harming human body while effectively disrupting the growth of a pathogen, after predicting metabolites from in silico cells]
2010.04.05
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KAIST Commencement 2010 was held on February 26, 2010.
A total of 2,205 are the newly conferred degree holders: 479 for Ph.D., 988 for Master’s, and 738 for B.S. degrees. Since its foundation in 1971, KAIST has so far produced 38,882 graduates. KAIST held the 2010 graduation ceremony on February 26, 2010 at its newly built place, called “Sports Complex Building.” Approximately 2,500 guests including Minister Byung-Man Ahn, Education, Science and Technology Ministry; Chairman Mun-Sul Jeong, KAIST Board of Trustees; representatives from the KAIST alumni; graduating students; and faculty joined the ceremony to celebrate the commencement. Honorary Doctorates At the ceremony, KAIST has conferred four honorary doctorate degrees in recognition of recipients’ contribution to the advancement of science and technology and development of science and engineering education in Korea and the world. The recipients were Arden L. Bement Jr., Director of US National Science Foundation; Lars Pallesen, President of Technical University of Denmark; Donald C.W. Kim, Chairman of AMKOR A&E, Inc.; and Beang-Ho Kim, Chairman of Seojeon Farm. Graduation Honors: President’s List Dong-Han Kim, majoring in Mathematical Sciences, College of Natural Science, was nominated as President’s List. He received an award for an outstanding academic achievement from the Minister of Education, Science and Technology and gave a gradation speech on behalf of the graduating class. Birthplace of Promising Young Scientists in Korea KAIST has earned a reputation for training the next generation of young scientists in Korea, and its 2010 Commencement has confirmed such fame. Among 479 Ph.D. degree holders, 151 (31%) students are in their 20s. The youngest who has received a doctoral degree is Jin-Ah Lee, graduating from College of Life Science and Bioengineering. Commencing International Students Among international students graduating this year, two students from India received their doctoral degrees in Biological Sciences: Kataru Raghu Prasad and Chaya Mohan. They are a married couple and now both postdoctoral researchers, working at KAIST labs. Wearing academic regalia and standing together to take a picture, the couple said, “We would definitely recommend KAIST to prospective international students because it offers the best education and research facilities comparable to those of any leading universities in the world. With the knowledge and experience acquired from studying at KAIST, we hope to contribute to the development of our country in the future.”
2010.03.04
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Future of Electric Automobile Glimpsed from KAIST
Etnews.co.kr. printed an interview with Professor Edward A. Lee, from the Department of Electrical Engineering and Computer Sciences, University of California in Berkeley, who visited KAIST to attend the 2010 International Workshop on Information Technology (IT) Convergence. During the workshop, Professor Lee had a chance to ride KAIST’s Online Electric Vehicle (OLEV), and etnews.co.kr. asked him about his impressions. Article published on Friday, February 19, 2010 (For the Korean article, please click the link at http://www.etnews.co.kr/news/detail.html?id=201002190158) The below is a translation from the Korean text. ----------------------------------------- Reported by Hee-Bum Park (hbpark@etnews.co.kr) "Future of Electric Automobile Glimpsed from KAIST"s Online Electric Vehicle Project," said Professor Lee. Distinguished Professor Edward A. Lee, from the Department of Electrical Engineering and Computer Sciences, University of California in Berkeley, expressed his impressions after a ride on KAIST’s Online Electric Vehicle. “KAIST’s Online Electric Vehicle (OLEV) really grabs my attention because the vehicle receives its needed electricity from a cable buried underground, not from batteries. Still, many challenges lie ahead for the electric vehicle to be commercialized, but I think, today, I saw the future of electric vehicles from the KAIST project,” explained Professor Lee. Professor Lee came to Daejeon to attend the “2010 International Workshop on Information Technology (IT) Convergence,” which was held on February 19, 2010 at KAIST’s Information and Communication Convergence (ICC) Campus. “I rode the bus and saw its instrument panel, which displays figures of electricity picked up from the ground. The bus presents the possibility of an electric car that can actually be built in the near future,” added Professor Lee. Professor Lee, however, pointed out that a number of issues should be addressed beforehand to commercialize OLEV, such as public concerns about magnetic waves, the economic impact of laying power strips underground, and battery efficiency as an alternative to petroleum based fuel. Nonetheless, he said that given people’s increased awareness of the problems associated with CO2 emissions, OLEV’s development is timely. “As far as I know, there has been no research in the US to develop an electric car that receives electricity from cables buried beneath the road. It is creative and ambitious for KAIST to try to find the technological breakthrough necessary for the development of electric cars,” Professor Lee stated. Professor Lee further commented, “So far, batteries on electric cars are heavy and bulky, and they require frequent recharging. I think KAIST has provided a solution to address this issue.” Graduating from Yale University and Massachusetts Institute of Technology (MIT), Professor Lee earned his doctoral degree in Electrical Engineering and Computer Sciences from UC Berkeley. He worked for Bell Telephone Laboratories in Holmdel, New Jersey.
2010.03.03
View 12521
A Breakthrough for Cardiac Monitoring: Portable Smart Patch Makes It Possible for Real-time Observation of Heart Movement
Newly invented device makes the monitoring easier and convenient. Professor Hoi-Jun Yoo of KAIST, Department of Electrical Engineering, said that his research team has invented a smart patch for cardiac monitoring, the first of its kind in the world. Adhesive and can be applied directly to chest in human body, the patch is embedded with a built-in high performance semiconductor integrated circuit (IC), called Healthcare IC, and with twenty five electrodes formed on the patch’s surface. The 25-electrodes, with a capability of creating various configurations, can detect cardiac contractions and relaxations and collect electrocardiogram (ECG) signals. The Healthcare IC monitors ECG signals and sends the information to a portable data terminal like mobile phones, making it possible for a convenient, easy check up on cardiac observations. The key technologies used for the patch are the Healthcare IC that measures cardiovascular impedance and ECG signals, and the electronic circuit board made of four layers of fabric, between which electrodes, wireless antenna, circuit board, and flexible battery are installed. With the P-FCB (Planar Fashionable Circuit Board) technology, the research team explained, electrodes and a circuit board are directly stacked into the fabric. Additionally, the Healthcare IC (size: 5mm x 5mm), which has components of electrode control unit, ECG and cardiovascular resistance detection unit, data compression unit, Static Random Access Memory (SRAM), and wireless transmitter receiver, is attached on the fabric. The Healthcare IC is operated by an ultra-low electrical power. Like a medicated patch commonly used to relieve arthritis pains, the surface of smart patch is adhesive so that people can carry it around without much hassle. A finished product will be 15cm x 15 cm in size and 1mm high in thickness. The Healthcare IC can measure cardiovascular impedance variances with less than 0.81% distortion in 16 different configurations through differential current injectors and reconfigurable high sensitivity detection circuitry. “The patch will be ideal for patients who suffer a chronic heart disease and need to receive a continuous care for their condition. Once commercialized, the patch will allow the patients to conduct a self-diagnosis at anytime and anywhere,” said Yan Long, a member of the research team. There has been a continuously growing demand worldwide since 2000 for the development of technology that provides a suitable healthcare management to patients with a chronic heart disease (e.g., cardiovascular problems), but most of the technology developed today are only limited to monitoring electrical signals of heart activity. Cardiovascular monitors, commonly used at many of healthcare places nowadays, are too bulky to use and give uncomfortable feelings to patients when applied. Besides, the current monitors are connected to an electrical line for power supply, and they are unable to have a low power communication with an outdoor communication gadget, thus unavailable for wide use. Professor Yoo gave his presentation on this new invention at an international conference, International Solid-State Circuits Conference, held on February 8-10 in San Francisco. The subject of his presentation was “A 3.9mW 25-electorde Reconfigurable Thoracic Impedance/ECG SoC with Body-Channel Transponder.” (Picture 1) Structure of Smart Patch (Picture 2) Smart patch when applied onto human body (Picture 3) Data received from smart patch (Picture 4) Healthcare IC
2010.02.17
View 13759
President Nam Pyo Suh of KAIST discussed cooperation with KUSTAR on the training of skilled manpower for research and development (R&D)
Representatives from Korea Advanced Institute of Science and Technology (KAIST), Khalifa University of Science, Technology and Research (KUSTAR), Emirate Nuclear Energy Corporation (ENEC), and the Institute of Applied Technology (IAT) had a meeting on mutual cooperation at the Intercontinental Hotel in Abu Dhabi, the United Arab Emirates (UAE), on January 14, 2009. Participants of the meeting were President Nam Pyo Suh of KAIST, President Arif Sultan Al Hammadi of KUSTAR, President Mohamed Al Hammadi of ENEC, and Director General Abdullatif Mohamed Al Shamsi of IAT. A press conference on the training of skilled manpower for research and development (R&D) in the UAE followed afterwards. At the end of December in 2009, a Korean consortium led by Korea Electric Power Corporation (KEPCO) beat bids from its competitors to construct four nuclear power plants in the UAE. Representing the consortium, Minister Kyung Hwan Choi of Knowledge Economy Ministry signed a comprehensive agreement with KUSTAR and the Institute of Applied Technology (IAT) for the delivery of nuclear power plants. On his visit, President Suh discussed with KUSTAR the agreement above in greater detail on subjects, where KAIST renders its cooperation, such as research collaboration, university degree program, and training to produce qualified personnel necessary for the development of UAE’s nuclear energy industry. On research collaboration, sharing its expertise and knowledge accumulated years from the operation of academic and research programs, KAIST agreed to provide cooperation to KUSTAR in developing the latter as a leading science, technology, and research university in ten years through mutual activities such as research collaborations, recruitment and exchange of outstanding researchers and graduate students, expansion of research facilities, and creation of major research policies. Furthermore, in support of nuclear energy program in the UAE, KAIST agreed to develop a joint research program in nuclear engineering and exchange faculty members and students for research collaboration. On a university degree program, KAIST agreed for mutual cooperation to launch academic programs at KUSTAR, covering BSc, MSc, and PhD degrees to specialize in areas such as mechanical engineering, electrical engineering, nuclear engineering, biomedical engineering, nano technology, science, and information technology. To that end, KAIST will dispatch its faculty to KUSTAR; provide assistance in developing curriculum and teaching materials; and exchange students for research collaboration. President Arif of KUSTAR mentioned that the university will cooperate with the relevant institutions in Korea, i.e., Korea Development Institute (KDI) and the Korea Institute of Nuclear Safety (KINS), to train skilled workers required for the development of nuclear energy program in the UAE. He also added, “These cooperative programs will introduce more educational opportunities to our students, and as a result, they can make greater contributions to the development of our nation’s future technologies in various areas. Our students will have a chance to study a broad range of academic subjects through partnership made with the Republic of Korea, and I expect to see improvements in our engineering programs by integrating KAIST’s state-of-the-art academic courses into our system.” President Arif expressed his hope “to increase cooperation beyond the agreement made between the two countries, like allowing more exchanges and interactions with KAIST for the development of science and technology in Korea and the UAE.” “Establishing mutual cooperation between KAIST and KUSTAR is a historic event not only for our two universities but also for our two countries. The two universities will make a great contribution to the improvement of the future of humanity by working together to solve the most important, difficult issues faced in the 21st century,” said President Suh. He also said that “all members of KAIST community will make our utmost efforts to advance the quality of education in two schools and to implement innovative researches through mutual cooperation.” KUSTAR, a national university in the UAE, was founded on February 13, 2007 by a mandate of the current President Shaikh Khalifa Bin Zayed Al Nahyan to create a higher education institute. KUSTAR has been building its permanent campus in Abu Dhabi, the capital of UAE since establishment and merged with the campus in Sharjah (formerly known as Etisalat University College with 18 years of history) in 2008. The University offers education and research programs in five disciplines of engineering, logistics and management, health science, homeland security, and applied science. There are more or less 30 foreign accredited universities set up in the UAE from countries like the US, UK, Australia, France, Ireland, and Canada. Examples of such, among other things, are New York University Abu Dhabi campus and Middlesex University Dubai campus. Many of the foreign universities in the UAE, however, have colleges of pharmacy, computer science, aviation, management information, fashion design, business management, and medical science including Harvard Medical School Dubai Center, but not many in science and research. Therefore, KAIST’s assistance in KUSTAR’s endeavor to become a leading science and research university in the UAE is timely. The current government of UAE anticipates, with a great interest, to see a leading science and research intuition built in their nation. Attachment: Current Status of Universities in the UAE as of 2009 Background Information The United Arab Emirates (UAE) is a federation of seven emirates (Abu Dhabi, Dubai, Sharjah, Ajman, Umm al-Quwain, Ras al-Khaimah, and Fujairah) situated on the Arabian Peninsula, which borders with Oman and Saudi Arabia. The UAE has the world"s sixth largest oil reserves. As of 2008, its gross domestic product is $2,621,000.5 million and its nominal per capita gross domestic product is $5 5,028, becoming one of the most developed economies in the Middle East. The UAE’s total population as of the said year is 4,760.4 thousand, and its purchasing power per capita is 40th largest in the world. The UAE’s Human Development Index for Asian continent is relatively high, ranking 31st globally. In 1985, the UAE launched its own airline, Emirates Airline, which has become one of the fastest growing airlines in the world. The Emirates Airline is a sponsor for Arsenal soccer club. The Republic of Korea established full diplomatic relations with the UAE in June of 1980. On December 27, 2009, a Korean consortium led by Korea Electrical Power Corporation (KEPCO) signed a contract with the UAE to build nuclear power plants.
2010.01.15
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Prof. Lee"s Team Succeeds in Producing Plastics Without Use of Fossil Fuels
A team of scientists led by Prof. Sang-Yup Lee of the Department of Biological Sciences at KAIST have succeeded in producing the polymers used for everyday plastics through bioengineering, rather than through the use of fossil fuel based chemicals, the university authorities said on Tuesday (Nov. 24). This groundbreaking research, which may now allow for the production of environmentally conscious plastics, has been published in two papers in the journal Biotechnology and Bioengineering. Polymers are molecules found in everyday life in the form of plastics and rubbers. The team consisted of scientists from KAIST and Korean chemical company LG Chem focused their research on polylactic acid (PLA), a bio-based polymer which holds the key to producing plastics through natural and renewable resources. "The polyesters and other polymers we use everyday are mostly derived from fossil oils made through the refinery or chemical process," said Lee. "The idea of producing polymers from renewable biomass has attracted much attention due to the increasing concerns of environmental problems and the limited nature of fossil resources. PLA is considered a good alternative to petroleum based plastics as it is both biodegradable and has a low toxicity to humans." Until now PLA has been produced in a two-step fermentation and chemical process of polymerization, which is both complex and expensive. Now, through the use of a metabolically engineered strain of E.coli, the team has developed a one-stage process which produces polylactic acid and its copolymers through direct fermentation. This makes the renewable production of PLA and lactate-containing copolymers cheaper and more commercially viable. "By developing a strategy which combines metabolic engineering and enzyme engineering, we"ve developed an efficient bio-based one-step production process for PLA and its copolymers," said Lee. "This means that a developed E. coli strain is now capable of efficiently producing unnatural polymers, through a one-step fermentation process," This combined approach of systems-level metabolic engineering and enzyme engineering now allows for the production of polymer and polyester based products through direct microbial fermentation of renewable resources. "Global warming and other environmental problems are urging us to develop sustainable processes based on renewable resources," concluded Lee. "This new strategy should be generally useful for developing other engineered organisms capable of producing various unnatural polymers by direct fermentation from renewable resources".
2009.11.30
View 13906
KAIST to Host ITTP Conference in Tunisia
KAIST"s Global IT Technology Program (ITTP) will host an international conference at Hammamet Hotel in Tunisia in cooperation with its counterpart at Seoul National University (SNU) on Nov. 23, university authorities said on Wednesday (Nov. 18). The event is a pre-conference for the ICT4All Forum on Nov. 24-25 which the Tunisian government is organizing with the ADB, World Bank, Arab Society for Intellectual Property and the UTICA to deal with developing information and communication technologies. KAIST"s ITTP which started in 2006 is designed to build global network of IT leaders around the world. The program supported by the Korean Ministry of Knowledge and Economy offers a customized master"s and doctoral degree program for foreign government officials, employees of public institutions and senior researchers at national research centers working in the IT fields. Scholarships are provided for all trainees, for up to 2 years for master"s students and up to 3 years for doctoral students. The program focuses on transferring advanced technologies and business strategies of Korea to the global IT leaders of the next generation. During the conference, seven government officials from as many countries currently under the KAIST or SNU programs will present international cooperation cases based on their own experiences in the IT fields. KAIST ITTP organizers will also provide an educational session on the mobile government for Tunisian experts and conference participants in the information and communications fields.
2009.11.20
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KAIST, CJ Sign MOU for Joint Research in Fundamental Technologies
KAIST and CJ Corporation, Korea"s leading foodstuff maker, have reached an agreement for an enhanced industry-academy cooperation in the biotechnology area, the university authorities said on Tuesday (Nov. 10). KAIST President Nam-Pyo Suh signed a memorandum of understanding with Kim Jin-soo, CEO of CJ, at the KAIST campus on Tuesday (Nov. 10). Under the agreement, KAIST and CJ will cooperate in nurturing elite research manpower and conducting joint researches in fundamental technologies. Specifically, CJ researchers will suggest research subjects linked with doctorate programs to KAIST, and once these subjects are accepted by KAIST, CJ researchers will conduct research under the guidance of KAIST professors to get doctorate degrees. All the costs including research expenses incurred during the program will be provided by CJ. The agreement also calls for CJ to provide funding for the research subjects it selected among the ones suggested by KAIST"s biotechnology professors. CJ CEO Jin-Soo Kim said: "Through the joint researches with KAIST which has the highest research capabilities, CJ can strengthen basic research capabilities and secure elite research manpower. We hope that the KAIST-CJ partnership will become a successful model for cooperation between industry and academia."
2009.11.11
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Board Chairman Chung Makes First Visit to Building Named After Him
Moon-Soul Chung, chairman of the KAIST board of trustees, visited the building built with his donation on Monday (Oct. 19) for the first time since he made the deed of gift eight years ago, university authorities said on Monday (Oct. 19). In 2000, Chung, founder and former CEO of Mirae Corp, manufacturer of semiconductor testing equipment, announced retirement and handed over the presidency of his company to one of his managing directors. One year later in 2001, he donated 30 billion won, then equivalent to $30 million, to KAIST. It was by then the largest amount given by a single donor. The major part of his donation went to constructing a building for the newly-established Department of Bio and Brain Engineering, and it was named after him. However, Chung did not attend the ground-breaking and dedication ceremonies, saying that he would not enter the building until KAIST achieved a breakthrough technology which can inject a hope to Koreans. On his first visit to the building, he was briefed on the major research outcomes of the department over the past seven years, which were highlighted by the recent invention of an apparatus for measuring perfusion rate of legs. A KAIST team headed by Prof. Chul-Hee Choi invented a light leakage prevention unit including a light emitting device for radiating light having a certain wavelength onto a living body injected with Indocyanine Green (ICG). According to Prof. Choi, the invention relates to an apparatus for measuring the perfusion rate of legs. The invention also includes a light leakage prevention housing formed to prevent transmission of external light. Chung expressing satisfaction with the achievements and encouraged professors, researchers and students working at the Moon-Soul Chung Building.
2009.10.20
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