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Sona Kwak wins first prize in international robot design contest
Sona Kwak wins first prize in international robot design contest Sona Kwak (Doctor’s course, Department of Industrial Design) won the first prize in an international robot design contest. Kwak exhibited an emotional robot of ‘Hamie’ at ‘Robot Design Contest for Students’ in Ro-Man 2006/ The 15th IEEE International Symposium on Robot and Human Interactive Communication, which was held at University of Hertfordshire, United Kingdom for three days from September 6 (Wed) and obtained the glory of the first prize. ‘Hamie’, the work of the first prize, has been devised in terms of emotional communication among human beings. The design concept of ‘Hamie’ is a portable emotional robot that can convey even ‘intimacy’ using senses of seeing, hearing, and touching beyond a simple communication function. The design of ‘Hamie’ was estimated to best coincide with the topic of the contest in consideration of its function that allows emotional mutual action between human beings as well as mutual action between human and robot, or robot and robot. ‘Hamie’ is not an actual embodiment but proposed as ‘a concept and design of a robot’. ‘Ro-man’ is a world-famous academic conference in the research field of mutual action between robot and human being, and ‘Robot Design Contest for Students’ is a contest to scout for creative and artistic ideas on the design and structure of future robots and exhibits works from all over world. Kwak is now seeking to develop the contents and designs of various next-generation service robots such as ▲ ottoro ? cleaning robot ▲ robot for blind ▲ robot for the old ▲ robot for education assistance ▲ robot for office affairs ▲ ubiquitos robot in her lab (PES Design Lab) led by Professor Myungseok Kim. “I’ve considered and been disappointed about the role of designers in robot engineering while I’ve been designing robots. I am very proud that my robot design has been recognized in an academic conference of world-famous robot engineers and gained confidence,” Kwak said.
2006.09.27
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Professor Eunjoon Kim's team finds synapse-forming protein
Professor Eunjoon Kim’s team finds synapse-forming protein - discover a new protein ‘NGL’ that promotes the formation of neuronal synapses - can presume the cause of various brain disorders including schizophrenia - will be published at Nature Neuroscience Vol. 9 in September A new protein that promotes the formation of synapses in human brains was discovered by a Korean research team. The team led by Eunjoon Kim, Professor of Department of Biological Sciences and Head of Creative Research Group of Synapse Formation), announced that it had discovered a new fact that NGL protein promotes the formation of neuronal synapses and this fact would be published in Nature Neuroscience Vol. 9 on September 18. Professor Kim’s team discovered that a membrane protein named ‘NGL’ located at post synapse links with other membrane protein named netrin-G in pre synapse, acting as crosslink, and promotes the formation of a new synapse. ‘NGL’ is the second protein found to crosslink synapse, following neuoroligin. With the discovery of this new protein, the principle of synapse formation and the causes of various brain disorders can be presumed. In the human brain, about more than 100 billion neuron cells and about 10,000 synapses compose neural circuit. A synapse is the place where innervation occurs between neuron cells. The formation of synapse induces the formation of neural circuit, and neural circuit is deeply related with various brain disorders as well as normal development of brains or brain functions. “As netrin-G linked with NGL is related with schizonphrenia and neuoroligin and synapse crosslinking protein having a similar function with NGL is deeply related with mental retardation and autism, I think NGL is related with various brain disorders including schizophrenia.” <Explanation of attached photos> ■ Photo1: Experiment for confirming NGL’s ability to form synapse No. 1 Mix ordinary cell (green) revealing NGL at its surface and neuron cell. Axon grows toward NGL (ordinary cell) located in the middle of ten o’clock direction and meets NGL, where NGL induces the formation of pre synapse (red) in the contacting axon. Whether pre synapse has been formed can be told by the fluorescent dying (red) of pre synapse protein named Synapsin. - Figure a-b: formation of synapse by NGL - Figure c-d: transformed NGL losing synapse forming ability cannot form synapse ■ Photo 2: Experiment for confirming NGL’s ability to form synapse No. 2 When beads coated with NGL are scattered on neuron cell, the beads contact with the axon of the neuron cell (the beads are clearly visible at the phase differentiation image in the middle panel). At this time, NGL induces the formation of pre synapse (red) in the axon. Whether pre synapse has been formed can be told by the fluorescent dying (red) of pre synapse protein named SynPhy (panel a) or VGlut1 (panel b).
2006.09.21
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Professor Tae-Gwan Park awarded Minister Prize
Professor Tae-Gwan Park awarded Minister Prize Professor Tae-Gwan Park (Department of Biological Sciences) was awarded the Minister Prize in the science innovation sector at the NANO KOREA 2006, which was opened on August 30. This prize is given to researchers who have shown excellent research results in the field of Nanotechnology, and Professor Park was awarded the Minister Prize in recognition of his innovative achievements in the fields of Tissue Engineering, Drug Delivery, Gene Therapy, which are fusion technologies of NT and BT that utilize nanobiomaterials.
2006.09.06
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Professor Ryong Ryoo, selected as a scientist wished to resemble and to be 2006
Professor Ryong Ryoo, selected as a scientist wished to resemble and to be 2006 Professor Ryong Ryoo (Department of Chemistry) was selected as a scientist wished to resemble and to be 2006. Professor Ryoo developed in 2000 world’s first nanoporous carbon material in which numberless several nanometer-sized holes were drilled. The development of this nanoporous material was introduced by international scientific journal NATURE in 2000 and 2001 and expected to contribute to the progress of mankind through the development of high efficiency fuel cell or ultra-light computer. Professor Ryoo also developed a new technology that can considerably improve the catalyst activation and stability of ‘Zeolite’, a main catalyst in the petrochemical industry, which was introduced by NATURE materials. The above achievements qualified Professor Ryoo for the selection. ‘Scientists wished to resemble and to be 2006’ were selected among scientists showing vigorous activities in the science and technology circle on the basis of their recent achievements, etc. by the Ministry of Science and Technology and the Korea Science Foundation, and total 10 scientists qualified to be the model of children and the youth were announced on August 24.
2006.09.06
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Former Information and Communication Minister Soonhoon Bae appointed to Vice president of KAIST
“KAIST graduate school of management will be a world-class graduate school of management” Professor Soonhoon Bae was appointed to the vice president of KAIST in Seoul campus on August 16. Vice president Bae started his carrier with Daewoo Inc. as the head of the technical H.Q. in Daewoo Heavy Industry in 1976, and took office as the CEO of Daewoo Electronics (1991-95) and Daewoo Inc. (1995-97). He was also the Minister of Information and Communication in 1998 and the chairman of the Presidential Committee on Northeast Asian Business Hub during 2004-05. He became an issue by ‘TANKism’, a motto of making strong and core function-convergent electronic goods, when he was the CEO of Daewoo Electronics in 1992. From 1999, he’s made lectures for KAIST graduate school of techno management and Classroom No. 101 in Supex Management Hall where he has made lectures is called ‘tank classroom’. Vice president Bae expressed his intention of the globalization and level-up of the school by saying, “I will focus on basic researches of management and thus raise the level of KAIST graduate school up to be qualified for Nobel Prize. I’ve taken many high-rank positions such as the CEO of major companies and the minister, however, position doesn’t matter at all. I am fully satisfied with the fact that the organizations that I belonged to have been reborn as world-class communities, and I am planning to lead KAIST graduate school of management in such a direction.”
2006.09.05
View 13523
Professor Chan Beum Park, requested for joint international research by a German biotechnology enterprise.
- Bitop AG (Germany) requested a joint development of medicines for Alzheimer’s disease - The meaning of the financial support by European enterprise to the research result of domestic university. Professor Chan Beum Park (Department of Materials Science and Engineering in KAIST/ President Nam Pyo Suh) has been entrusted with a joint international research for the development of medicines for Alzheimer’s disease from Bitop AG, German biotechnology enterprise. KAIST recently agreed with Bitop AG to cooperate for a research program pursuing the development of inhibitors that inhibit the formation of plaque relevant to amyloid diseases like Alzheimer’s disease. Based on this agreement, KAIST will be provided with a financial support of sixty thousands Euro (about 74 million won) from Bitop AG. Professor Park will perform the screening of inhibitors, which are the core of the research, and KAIST will share patent rights from the research with Bitop AG. It is known that various degenerative nerve diseases like Alzheimer’s disease, Parkinson’s disease, mad cow disease, and so on arise mainly from the accumulation of pathological protein plaque termed amyloid, and environmental stress accelerates the diseases. So far, no effective remedy has been developed for amyloid diseases. Recently, the use of chemicals inhibiting the formation of amyloid has been raised as a potential remedy. Natural small stress molecules extracted from microbes growing in extreme environments like volcanic region on the bottom of the deep sea, etc. are gaining attention as an amyloid inhibitor. Professor Park found out for the first time in the world that Anti-stress materials are effective in inhibiting the formation of amyloid plaque and published that fact in several renowned European scientific journals. After that, Professor Park was requested by Bitop AG for a joint research and has studied for the development of medicines for Alzheimer’s disease using various kinds of Anti-stress materials. Professor Park said, “I’d like to grant a highly valuable meaning to this entrustment since it implies that European enterprises perceive the value of the research result by domestic universities and hope to promote research and development by providing practical financial support, etc. I wish this time’s entrustment will be a momentum to advance Korea’s research level one step higher through active joint researches with enterprises or institutes in U.S. and Europe as well as Bitop AG.” Bitop AG is a German enterprise that produces various Anti-stress materials coming from extreme-loving microbes. Currently, Anti-stress materials are being sold mainly as protein and cell protectants, cosmetic additives, health supplement, etc. Anti-stress materials extracted from microbes well growing in extreme environment of one hundred centigrade or more are expected to perform a role of inhibitors that inhibit the formation of amyloid plaque, the main factor of stress-related degenerative nerve diseases like Alzheimer’s disease, etc. Such Anti-stress materials are gaining attention as a future medicine for Alzheimer’s disease, etc.
2006.09.05
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Professor Sejin Kwon develops thruster for small satellite
- World’s first application of high-performance liquid propellant to small satellite thruster - Show about four times higher thrust performance than the cold gas thruster of University of Surrey, the state-of-the-art technology in the field of small satellite - Expect a considerable contribution to the extension of the lifespan and mission range of small satellites The team of Professor Sejin Kwon (Department of Aerospace Engineering in KAIST/ President Nam Pyo Suh) and Space Solution Inc. (President Jaehun Lee) have jointly developed a micro thruster for small satellite motion-control. Kwon"s team has succeeded in developing an integrated thruster which can be mounted on a satellite by integrating catalyst reactor and propellant-supplying system, which are the core technologies of small satellite thruster system. For the first time in the world, Kwon’s team employs a high-performance liquid propellant to the thruster. In the thruster, liquid-state hydrogen peroxide is dissolved into vapor and oxygen at the catalytic layer to emit a huge amount of heat. And, the emitted heat is converted into the kinetic energy of the gas to produce a propulsive force. This thruster can perform the motion-control of a several tens-kilogram satellite with a propulsive force of less than one Newton and shows about four times higher thrust performance than the cold gas thruster of University of Surrey, who possesses the state-of-the-art technologies in the field of small satellites. Professor Kwon said, “Although University of Surrey has also tried to develop a similar system, it’s not yet solved the problem on catalytic reactor bed. I expect this thruster will considerably contribute to the extension of the lifespan and mission range of scientific small satellites. Also, this thruster can be employed for the attitude control of the upper end of the launch vehicle, which is now being developed by the Korean Aerospace Research Institute (KARI).” <Thruster module for small satellite application>
2006.09.05
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Gene Protecting Brain Nerves Discovered
THE KOREA TIMES 2005.1.31By Kim Tae-gyu / Staff Reporter South Korean scientists have for the first time discovered genes tasked with protecting brain nerves. Korea Advanced Institute of Science and Technology professor Kim Jae-seob said Sunday the new genes, named pyrexia, shield brain nerves from outside stimuli, including high temperatures. ``The channel gene of pyrexia will open the door to developing new-concept medicines for brain damage in patients of high fever or drug addicts,’’ he said. The channel gene refers to transport proteins, which provide a static passageway for a variety of essential substances to enter into cells. ``Up until now, a lot of channel genes activated by temperatures have been identified. But among them, pyrexia is first that guards brain nerves from external stresses,’’ Kim said. Kim’s team learned pyrexia plays a pivotal role in the body through experiments with genetically engineered flies that did not have any pyrexia. Up to 60 percent of the pyrexia-depleted mutants were paralyzed within three minutes of exposure to a temperature of 40 degrees Celsius. In comparison, just 9 percent of normal flies were paralyzed with the same stimulus, indicating pyrexia is responsible for protecting animals from high-temperature stress. ``Our next goal is to develop pyrexia-embedded drugs, which can be expected to commercially debut in about five years,’’ Kim said. Kim has already applied for international patents for his medical breakthrough, which will be printed in the March edition of Nature Genetics, a science journal. voc200@koreatimes.co.kr
2005.02.02
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Nerve-protecting gene discovered
Korean scientists for the first time have identified a gene that blocks nerve damage from fevers and the use of narcotics, a state-run research institute said yesterday. The finding may open the way for new medicine that can prevent the loss of brain function which is frequently caused by excessive stimulation of nerves and abnormally high body temperature. "The research is in an early stage. But this approach has the potential to develop genetics-based preventatives against brain-attacking diseases," said Kim Jae-seob, a bioscience professor of the Korea Advanced Institute of Science and Technology, who led the study. The researchers named the gene Pyrexia, which means fever. Kim"s team extracted it from genetically engineered fruit flies using a genome-screening system. In laboratory tests, they found that the gene is activated to 39 degrees Celsius or higher. The researchers enhanced Pyrexia"s functionality in some fruit flies while removing the gene from others to observe their different reactions when exposed to high temperature. "The fruit flies without the gene showed severe nerve disorder and suffered paralysis of brain function, while Pyrexia-enhanced flies maintained their normal brain conditions," the professor said. The researchers got the same result from experiments with human cells, he said. There are a lot of channel proteins, which enable ions to enter and exit the cell, that react to the level of temperature, but Pyrexia is the first of its kind that actually protects the neurons from external stimulus, he said. The finding will appear on the March edition of the London-based science magazine Nature Genetics. THE KOREA HERALD 2005.1.31 (thkim@heraldm.com) By Kim Tong-hyung
2005.02.02
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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 18880
Nobel Laureate Heads KAIST
Nobel Laureate Heads KAIST By Kim Tae-gyu / Staff Reporter THE KOREA TIMES 05-29-2004 A Nobel laureate will lead the Korea Advanced Institute of Science and Technology (KAIST), winning a stiff race with a pair of strong Korean candidates. The KAIST on Friday said the state-financed institute appointed Robert Laughlin as its 12th president instead of two local hopefuls, professors Shin Seong-cheol and Park Seong-ju. This is the first time that foreigners take charge of the KAIST since it was established in 1971 and Laughlin also is noted in the history as the first Nobel Prize winner to head Korea"s educational institute. After receiving approval of Science-Technology Minister Oh Myung, Laughlin will be inaugurated as early as next month, according to a KAIST official. Laughlin, a Stanford professor, made his name after being co-awarded the 1998 Nobel Prize in Physics with Horst Stoermer and Daniel Tsui for the discovery of a new form of quantum fluid. The findings, which explained the fractional quantum hall effect for the first time, have been recognized as a significant breakthrough in understanding quantum physics. The American physicist had also sustained a special connection with Korea even before he garnered the prestigious prize and has visited Korea several times. Early last month, Laughlin was named to head the Asia Pacific Center for Theoretical Physics (APCTP) in recognition of his notable interest in Korea. The APCTP is an international research institute headquartered inside Pohang University of Science and Technology in North Kyongsang Province. voc200@koreatimes.co.kr
2004.05.31
View 17107
18th Student Council Elected
The KAIST Herald December 3, 2003 The votes were cast and counted on November 27. Donggodongrak won the election of the 18th Undergraduage Student Council of Korea Advanced Institute of Science and Technology (KAIST). Of the 2,340 eligible voters for the 18th student council election, 1,304 votes, or about 56 percent of the total, were amassed after a full day of election on November 27. The two candidate teams, waiting to hear the result with much anxiety, were juniors Hye-min Kim and Jung-mo Kim running for the president and vice president positions, respectively, of the team "Donggodongrak" and juniors Dong-geun Kim and Yong-jae Yoon running for the same positions, respectively under the name "Woorung Chonggak." Donggodongrak secured over 58 percent of the votes, with 760 supporting ballots, while Woorung Chongak polled 503 votes, or about 39 percent of the votes. Forty-one votes, or three percent of the votes cast were spoiled votes. With more than half the voters having participated, the election was valid, and Donggodongrak was declared the new student council of KAIST. The election platform of the Donggodongrak team largely consist of four themes, composed of several smaller goals. First, they assert the "togetherness" of the student government and plan to achieve it by publishing monthly newsletters, hosting an open outdoor student council every other week, and creating various committees. Secondly, they assert under the theme of an "improving" student government that they will promote festivals and events among the sixteen departments, form an official "class" of the freshmen, and broaden the association of the student representatives. Third, Donggodongrak declares it wants to create an "open and just environment" by holding periodic meetings with the school for direct discussions of school policies; and by taking care of the welfare of the students in detail. Finally, they advocate "a student government that communicates with society"; they will support opportunities to become more aware of various issues of society. President Hye-min Kim, a graduate of Pusan Science High School, has participated in various intramural, socially active groups, and is majoring in applied mathematics. Vice-president Jung-mo Kim is a graduate of Mokpo High School and studies mechanical engineering.
2004.03.15
View 17856
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