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S&T Policy Agenda of Major Presidential Candidates
Science and Technology Policy Agenda of Major Presidential Candidates The KAIST TIMES recently reviewed science and technology policy suggestions made by five major presidential candidates. Below is a summary of the information assembled based on written interviews conducted by The KAIST TIMES, gatherings on science and technology policies, and press conferences. Chung Dong-young of the United New Democratic Party The UNDP’s Chung Dong-young presented a vision to join the world’s top seven aerospace leaders in an effort to transform Korea into a science-technology powerhouse. In order to achieve this goal, he suggested five policy strategies: support research and development of creative, innovative science and technology, ; expand resources for the innovation of science and technology, ; promote academia and business partnerships, ; strengthen infrastructure to innovate scientific and technological fields, ; boost the morale of scientists and engineers, ; and promote the dissemination of scientific culture. The most noticeable striking part element of his vision is to make add Korea to join the list of the world’s top seven aerospace powerhouses. Chung included the this vision in his 20 key 20 pledges, underscoring his commitment to the aerospace industry. He said that the aerospace industry can produce simultaneous growth of various high-tech industries. Chung also vowed that he would extensively foster high-value added assembly industry in conjunction with a scheme to nurture parts and material industries. As detailed action plans to achieve his vision, he cited development of small and medium-sized aircraft carriers and upgrading air control systems as part of the efforts to make Korea as a stronghold of popular aviation of in Northeast Asia. He also revealed plans to embark on a project to explore the Moon and send an unmanned probe there by 2020. To implement aerospace development plans systematically, he suggested inaugurating the envisioned Korean Aeronautics and Space Administration, modeled after the NASA of the United States and JAXA of Japan. Lee Myung-bak of the National Grand Party Presidential candidate Lee pointed out basic sciences and open-source technologies as crucial prerequisites to achieve economic growth. As five implementation strategies to promote the development of these areas, he called for the fostering of more scientific and technological talents; a drastic increase in investment in science and technology; creation of new fusion industries that will serve as future growth engines; promotion of autonomy and creativity; and popularization of science and technology. He also pledged to carry out two large-scale projects, the creation of “an international scientific-corporate city belt” and the technological development of new renewable energy. Among them, drawing the largest attention is the creation of an “international scientific-corporate city belt” connecting several technological complexes located in Chungcheong Provinces. The city belt is envisioned to connect the Daedok Innopolis in Daejeon, the proposed Bio-Health Science Technopolis in Osong, Sceintific Industrial Complex in Ochang, and the new administrative town under construction in Yeongi-Gongju. At a lecture hosted by the Science and Technology Forum and the Korean Engineers Club, Lee said that the project has been motivated by the idea of locating research and corporate complexes in close proximity to bring about maximum efficiency of commercializing research results. Kwon Young-ghil of the Democratic Labor Party In a written interview with The KAIST TIMES, Kwon summed up his vision for science and technology as shifting from “science-technology for the rich and privileged” to “science and technology to promote public interest and participation.” As action plans to realize his vision, he suggested increasing investment into public-interest research and development projects and building the necessary infrastructure as well as boosting relevance between science-technology policies and various welfare sectors including environment, health, and medicare. He also wishes to pay greater attention to improving the treatment of young engineers and scientists. Moon Kook-hyun of the Creative Korea Party Moon Kook-hyun’s science and technology policy proposals focus on nurturing more experts in the fields of science and technology. As specific action plans to ease the tendency among high-school graduates to shun the fields engineering and science as their majors, he revealed a plan to appoint a Prime Minister with an engineering or scientific background and positively expand social participation of engineering or science graduates. He also expressed strong commitment to making Korea a technological power house, focusing on convergence of various high-tech industries including BT and IT. He would also build infrastructure to increase cooperation for technological development among large and mid and small-sized companies, and among Korea and many other countries. Independent Candidate Lee Hoi-chang Lee Hoi-chang’s vision for science and technology can be highlighted by his strong commitment to greatly increasing R& D investment in this area. He said that the move is aimed at expanding science and technology capital, which will serve as a fundamental infrastructure for corporate activities. In particular, he said that he would concentrate on fostering eight core technologies based on individual knowledge and creativity: IT, BT, NT, ST, ET (Environment Technology), CT, MT(Marine Technology), and FT (Fusion Technology).
2007.12.17
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The US Science Magazine Published KAIST News on Nov. 30
An educational innovation of our university arouses world"s interest. The world science magazine, the U.S Science reports deeply President Suh Nampyo" KAIST reform, fund, tenure review, tuition, admission and faculty recruit in News Focus, internet version on 30 November. There is full text of the news below.http://www.sciencemag.org/cgi/content/full/318/5855/1371 News FocusHIGHER EDUCATION:MIT Engineer Shakes Korean Academia to Its CoreDennis Normile Radical measures from the new president of the Korea Advanced Institute of Science and Technology are roiling a tradition-bound system Worldly. To gain stature beyond Korea, KAIST has lured students from Vietnam, China, and Rwanda, among other countries. CREDIT: D. NORMILE/SCIENCE DAEJEON, SOUTH KOREA--When the Korea Advanced Institute of Science and Technology (KAIST) announced on 19 November that an entrepreneur had donated $2.5 million to the university with promises of more to follow, it marked the latest in a string of coups for the new president, Suh Nam Pyo. A mechanical engineer on leave from the Massachusetts Institute of Technology (MIT) in Cambridge, Suh has raised an unprecedented amount--$12.5 million--in a country where donations to universities are rare. He"s challenging other traditions as well. For example, KAIST"s latest tenure review turned down several candidates, a shocking move by Korean standards.Suh says he is aiming to make KAIST "as good as the best [universities], including MIT." Many faculty members agree that Suh"s "overall philosophy and vision are correct," says KAIST systems biologist Lee Sang Yup. But there are concerns about how Suh will implement that vision at the 36-year-old university. The KAIST community has reason to be cautious. In 2004, the university hired Nobel physics laureate Robert Laughlin as president--the first foreigner to lead a Korean university--with a mandate to transform KAIST into a world-class institution. Laughlin, on leave from Stanford University in Palo Alto, California, proposed privatizing KAIST and charging tuition, focusing on commercialization, and tripling undergraduate enrollment (Science, 25 February 2005, p. 1181; 20 January 2006, p. 321). But when Laughlin"s plans failed to materialize, "the faculty was disappointed," says KAIST molecular biologist Chung Jongkyeong. In 2006, the board of trustees decided to seek a new president. The board turned to Suh. Born in Gyeongju, South Korea, in 1936, Suh moved to the United States with his family as a teenager and earned a doctorate in mechanical engineering from Carnegie Mellon University in Pittsburgh, Pennsylvania. As an MIT professor, Suh has won plaudits for his engineering design theories, earned more than 50 patents, and helped start several companies. In the early 1980s, he was assistant director for engineering at the U.S. National Science Foundation, and he headed MIT"s Department of Mechanical Engineering from 1991 until 2001. Since arriving at KAIST in July 2006, Suh has opened undergraduate education to non-Korean students for the first time by insisting that many courses be taught in English. Suh decided that students who maintain "B" or better grades would continue to pay no tuition, whereas those with a "C" or below must pay about $16,000 per year starting in February. "We want students to take responsibility for their actions," Suh says. Agent of change. KAIST"s faculty supports Suh Nam Pyo"s reforms, so far. CREDIT: KAIST A new admissions process may also have broad impact. Previously, KAIST, like most of Korea"s top universities, selected the top scorers in a written exam. Most high school students spend their free time prepping for these tests in cram schools. But Suh says that scores "are a one-dimensional measure" that fails to identify leaders. So candidates for KAIST"s next incoming class were invited to campus this fall for interviews, to give presentations, and to engage in discussions while being observed by faculty members, who made selections based on scores and personal impressions. "We"re looking for future Einsteins and future Bill Gateses," says Suh.An even more radical step was putting teeth into tenure reviews. Traditionally, faculty members in Korea gain tenure after logging enough years. Suh insisted that KAIST professors up for tenure gather endorsements from experts in their field around the world. In September, 11 of 33 applicants were denied tenure and were given a year to find new jobs. The tenure review "is the beginning of an educational revolution," says KAIST chemist Ryoo Ryong. But he and others worry about the fate of those denied tenure. Suh understands their predicament but is standing firm. The professors who didn"t make tenure "are very good people, but in terms of the standard we set, they"re not as good as we expect our professors to be." He is asking other universities to consider giving these professors a chance. At the same time, Suh is looking to inject fresh blood--including foreigners--into the 418-strong faculty with a plan to add 300 professors over the next 4 to 5 years. (To expand the school, Suh is striving to win government approval for a doubling of KAIST"s base governmental support of $108 million.) His first catch is Mary Kathryn Thompson, who completed her Ph.D. in mechanical engineering at MIT last year. "It"s an exciting time to be here," says Thompson, who just started studying Korean when she arrived last August. Although they support Suh"s initiatives, some faculty members chafe at his blunt public comments implying that Korea"s professors take life too easy. "I cannot agree," says Choi Yang-Kyu, an electrical engineer. "Most professors here are working very hard." Biomolecular engineer Kim Hak-Sung adds: "President Suh should have sticks and carrots, not just sticks." Carrots don"t come cheap. "I"m spending most of my time trying to raise money," Suh says. Part of that effort is wooing private donors. "Giving to universities is not prevalent in Asia, but it is something I"m trying to nurture in Korea," he says. That"s a precedent all of Korea"s universities might want to embrace.
2007.11.30
View 14908
Professor Yang Named Recipient of Dupont Science & Technology Award
Professor Yang Named Recipient of Dupont Science & Technology Award - Named as the recipient of Dupont Science & Technology Award of 2007- In recognition of his development of optical?bio-functional photonic crystal structures through Self-assembly of nanoparticles Seung-Man Yang, a professor of Chemical and Biomolecular Engineering of KAIST (President Nam Pyo Suh) and the president of the National Creative Research Initiatives Center for Photon and Fluid Integrated Circuit by the Ministry of Science and Technology, has been named as the recipient of Dupont Science & Technology Award. Dupont Korea, associate of Dupont, a world-class science firm, has established and conferred ‘Dupont Science & Technology Award’ since 2002 to promote basic sciences and industrial development of Korea. Dupont Science & Technology Awards are awarded to scientists of universities or state-run institutes who have made outstanding R&D achievements in the fields of Chemistry, Chemical Engineering, Material Science and Material Engineering within five years. Dupont Korea announced on May 2, 2007 that Professor Yang is the recipient of the award this year, following the strict examination by the Koran Academy of Science and Technology (KAST). The reason for the award is Professor Yang’s development of prototype optical?bio-functional photonic crystal structures that can process a huge amount of data, resulting from a study that has discovered the principle of Self-assembly where multifunctional nanoparticles are manufactured and assembled for themselves. Professor Yang’s recent research result about photon structures and nano patterns was published by Nature (February 2, 2006 edition); posted on Heart-Cut, the portal site of the American Chemistry Society (ACS), as highlight paper two times (November 4, 2002 and May 1, 2006); and introduced at Research/Researcher of MRS Bulletin by the U.S. Material Research Society (MRS) as main paper in December 2003. Professor Yang is very famous in Korea and abroad for the excellences of his research achievements and has made request seminars at Harvard University, University of Wisconsin, Caltech, University of California, etc. He is also invited speaker and session organizer of the MRS and the SPIE.
2007.05.08
View 17147
Prof. Hwang Inaugurated as 22nd President of KISS
Prof. Hwang Inaugurated as 22nd President of KISS Kyu-Young Hwang, a professor of Computer Sciences, has been inaugurated as the 22nd president of the Korea Information Science Society (KISS). The KISS, established in 1973, is Korea’s largest computer science-related society holding about 4,000 members. Prof. Hwang is now managing programs to issue the society’s publications and for information exchanges and putting huge efforts on promoting global cooperation and strengthening the partnership with overseas institutions to raise the society’s global standings. He is also making great efforts to enhance the capabilities and competitiveness of future human resources through a program to improve education systems concerning computer/ programming.
2007.04.30
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Maximum Yield Amino Acid-Producing Microorganism Developed with use of System Biotechnology
Maximum Yield Amino Acid-Producing Microorganism Developed with use of System Biotechnology A team led by Sang-Yup Lee, a distinguished professor of Chemical and Biomolecular Engineering and chair professor of LG Chemical, has succeeded in developing maximum yield L-valine-producing microorganism by using System Biotechnology methods. The research results will be published at the April fourth week (April 23 - 27) edition of the Proceedings of the National Academy of Sciences (PNAS) of the USA. Prof. Lee’s team has developed maximum yield amino acid-producing microorganism (target substance of L-valine, an essential amino-acid) by using microorganism E cell system and simulation methods. His team produced initial producing microorganism by selectively operating necessary parts in colon bacillus genome and excavated preliminary target gene which is to newly be operated through transcriptome analysis using DNA chips. Then they performed a great amount of gene deletion experiment on computer by using MBEL979, E-cells of colon bacillus, and excavated secondary engineering targets. And they finally succeeded in developing maximum yield valine-producing microorganism that can extract 37.8 grams of valine from 100 grams of glucose by applying experiment results to the actual development of microorganism so as to achieve the optimization of metabolic flux in cells, Prof. Lee said, “Since successfully used for the development of microorganism on a systematic system level, system biotechnology methods are expected to significantly contribute to the development of all biotechnology-relevant industries. At the beginning, we had huge obstacles in fusing IT and BT, but my team mates cleverly overcame such obstacles, hence I’m very proud of them.” The producing microorganism and its developing methods are pending international applications (PCT).
2007.04.26
View 13623
KNS" International Journal Registered as SCIE
KNS" International Journal Registered as SCIE International journal ‘Nuclear Engineering and Technology’, published by the Korean Nuclear Society (KNS, President Si-Hwan Kim) under the supervision of Poong Hyun Seong, a professor of Nuclear and Quantum Engineering of KAIST, has been made a member of Science Citation Index Expanded (SCIE) administrated by Thomson Scientific. Thomson Scientific has notified such decision on April 14 and revealed the actual thesis title index will officially be notified within this year.
2007.04.19
View 12513
Dual Degree Programs with TU Berlin
Dual Degree Programs with TU Berlin- Five students to be exchanged each year from this year, receive degrees from both schools- Final stage of negotiation with GIT, UCSB- On-going DDP negotiations with Delft University of Technology in Netherlands, Royal Institute of Technology in Sweden, Technical University of Denmark, Norwegian University of Science and Technology, Tsinghua University in China, Tokyo Institute of Technology- DDPs with Ecole Polytechnique, INSA Lyon of France, and University of Karlsruhe of Germany underway at department levels KAIST (President Nam-Pyo Suh) will begin Dual Degree Programs (DDP) with Technical University of Berlin (TU Berlin). The both recently reached an accord on the implementation of DDP and will exchange maximum five students each year, starting this year. The DDP allows each school involved to exchange students who meet the counterpart’s requirements one-by-one with prior consensus of departments to accept the students and to confer its own diplomas on students who complete the prescribed graduation requirements. TU Berlin, established in 1770, currently holds 28,344 enrolled students, among which 5,829 students are from abroad (over 20%) and provides lectures for more than 50 subjects in the fields of Humanities, Social Sciences, Economics and so on with its emphases on Natural Science and Engineering. TU Berlin has fostered a multitude of distinguished scientists, including 1986 Nobel Prize Recipient in Physics Ernst Ruska who developed an electronic microscope for the first time in the world. KAIST has now been eagerly promoting the DDPs with many distinguished foreign universities. It is on the final stage of the DDP negotiation with Georgia Institute of Technology (GIT) and University of California Santa Barbara (UCSB), and has already agreed with Tsinghua University in China to implement the DDPs in several advanced fields. Also, an agreement with Tokyo Institute of Technology (TIT) is soon to be made. With Ecole Polytechnique and INSA Lyon of France, and University of Karlsruhe of Germany, the negotiation is underway at department levels, and the DDPs are also being promoted with Milan Technical University of Italy, Delft University of Technology of Netherlands, Royal Institute of Technology (KTH) of Sweden, Technical University of Denmark (DTU), Norwegian University of Science and Technology (NUNT). “As global interests in East Asia arise, interests in KAIST by many foreign universities also increase. We are planning to expand the scope of this program to provide KAIST students with more opportunities of studying abroad and to attract more outstanding foreign students,” KAIST Dean of Academic Affairs Kwang-Hyung Lee explained. - Dual Degree Program (DDP)In DDP, schools involved can maintain their own curriculums and confer their own degrees on students who complete the graduation requirements. Therefore, students can receive degrees from both schools involved. Meanwhile, DDP is not the same concept with Joint Degree Program (JDP), in which schools involved establish a joint curriculum and confer a single joint degree on students.
2007.03.19
View 17995
Professor Seong-Ihl Woo Develops New High-Speed Research Method
Professor Seong-Ihl Woo Develops New High-Speed Research Method Reduce research periods and expenses for thin film materials several ten times Posted on the online version of Proceedings of National Academy of Sciences of the United States of America (PNAS) on January 9 A team led by Seong-Ihl Woo, a professor of KAIST Department of Chemical & Biomolecular Engineering and the director of the Center for Ultramicrochemical Process Systems, has developed a high-speed research method that can maximize research performances and posted the relevant contents on the online version of Proceedings of National Academy of Sciences of the United States of America (PNAS), a distinguished scientific journal, on January 9, 2007. Professor Woo’s team has developed a high-speed research method that can fabricate several tens or several thousands of thin films with different compositions (mixing ratio) at the same time and carry out structural analysis and performance evaluation more than ten times faster and accurately, which leads to the shortening of the research processes of thin film materials. This is an epoch-making method that can reduce research periods and expenses several ten times or more, compared to the previous methods. The qualities of final products of electronic materials, displays, and semi-conductors depend on the features of thin film materials. Averagely, it takes about two weeks or longer to fabricate a functional thin film and analyze and evaluate its performances. In order to fabricate thin film materials in need successfully, more than several thousand times of tests are required. The existing thin film-fabricating equipment is expensive one demanding high-degree vacuum, such as chemical vapor deposition, sputtering, physical vapor deposition, laser evaporation, and so on. In order to fabricate thin films of various compositions with this equipment, a several million won-worth target (solid-state raw material) and precursors (volatile organic metal compound) pricing several hundreds won per gram are required. Therefore, huge amount of experiment expense is demanded for fabrication of several ten thousands of thin films with various compositions. Professor Woo’s team has developed ‘combinatorial droplet chemical deposition’ equipment, which does not demand high-degree vacuum and is automated by computers and robots, by using a new high-speed research measure. The equipment is priced at about 1/5 of the existing equipment and easy for maintenance. This equipment uses cheap reagents, instead of expensive raw materials. Reagents necessary to form required compositions are dissolved in water or proper solvents, and then applied by high frequencies to make several micrometer-scaled droplets (fine liquid droplet). Theses droplets are moved by nitrogen and dropped onto a substrate, which is to be fabricated into a thin film, and then subsequent thermal treatment is applied to the substrate to fabricate a thin film of required composition. At this moment, several tens or several hundreds of thin films with various compositions can be fabricated at the same time by reducing the size of thin film specimens into millimeter scale with the use of shade mask and adjusting vaporization time with masks, the moving speed of which can be adjusted. The expenses for materials necessary for the fabrication of thin films with this equipment amount to several ten thousands won per 100 grams, which is in the range of 1/100 and 1/10 of the previous methods, and the research period can be shortened into one of several tenth. “If this new method is applied to the development of elements in the fields of core energy, material and health, which have not been discovered by the existing research methods so far, as well as researches in thin film material field, substantial effects will be brought,” said Professor Woo. ‘Combinatorial droplet chemical vaporization’ equipment is pending a domestic patent application and international patent applications at Japan and Germany. This equipment will be produced by order and provided to general researchers.
2007.02.02
View 15727
Professor Jongwon Lee wins Korean Engineering Award
Professor Jongwon Lee wins Korean Engineering Award Professor Jongwon Lee of the department of Mechanical Engineering won the 7th Korean Engineering Award conferred by the Ministry of Science and Technology and Korean Science and Engineering Foundation. Professor Lee is a world-famous scholar in the field of ‘dynamics and vibration of rotors’ and his work in 1993, ‘Vibration Analysis of Rotors’, is highly recognized as a creative and practical research on the dynamics of rotors. The Korean Engineering Award is conferred on domestic scientists who have made world-level research achievements in the engineering field by the Ministry of Science and Technology and Korean Science and Technology Foundation every two years.
2007.01.11
View 12202
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 12999
KAIST hosts Korea-China High-tech Expo
KAIST hosts Korea-China High-tech Expo - Three days from Tuesday, December 12 at Beijing International Convention Center in China - 30 Korean companies and 40 Chinese companies will participate and exhibit cutting-edge technologies KAIST (President Nam-Pyo Suh) will host ‘Korea-China High-Tech EXPO 2006’ with Chinese Association for Science and Technology (CAST) at Beijing International Convention Center in China for three days from Tuesday, December 12. ‘Korea-China High-Tech EXPO’ is an event which has taken place annually since the conclusion of the Memorandum Of Understanding (MOU) for the enhancement of international joint researches and mutual exchanges between KAIST and Tsinghua University in the year of 2002 and faces the 4th time this year. The event began for the activation of technical exchanges between top venture enterprises of the both countries and the enhancement of academic exchanges between top technical universities of the both countries and now has grown into a business stage for the enhancement of competitiveness of venture enterprises and the creation of new markets. In the event, 30 companies, including Golfzon Co,. Ltd. etc., and 4 institutes, including KAIST Human-Friendly Welfare Robot System Engineering Research Center, etc., from Korea and 40 companies from China will participate and exhibit their cutting-edge technologies. The participants have been selected with the focus on technologies requested by China-side, and each participant will be provided with opportunities of detailed consultation with buyers from ten companies of China. During the event, subsidiary events like excellent technology exhibition, Korea-China technical business forum, special introductions of goods by Mosin Biotech, Inc. and Daeduk Lab Inc., etc. will take place.
2006.12.11
View 14032
Professor Ikho Song Wins Academic Award of Haedong Information & Communication
Professor Ikho Song Wins Academic Award of Haedong Information & Communication Professor Ikho Song (Division of Electrical Engineering) won an academic award of Haedong Information & Communication at a regular meeting of Korean Institute of Communication Sciences 2006. The award was given to Professor Song in recognition of his presenting excellent papers at many renowned domestic and global academic journals and his substantial contribution to the development of the information & communication field. Meanwhile, Hyungmoon Kwon, a doctorate student under Professor Song’s supervisory, also won an award of excellent paper at the meeting.
2006.11.27
View 12013
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