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Information on (specialty) interview for the first collection of undergraduate students 2007
Information on (specialty) interview for the first collection of undergraduate students 2007
· Time and place (for interviewees on October 13 and 14)
o Time: 8:30 am on a designated day
o Place: Creative Learning Building (E11)
o Interview room: designated rooms in Creative Learning Building
· Notice
o Interviewees are required to bring basic data for interview, application card, and writing tools.
o Interviewees are required to submit basic data for interview at the interview of selective (science) subject
· With respect to specialty interview
o Subjects:
· Math and Science (select one among Physics, Biology, and Chemistry)
o Schedule:
(1) Interview will be conducted for one subject in the morning and the other in the afternoon.
(2) Interview schedule will be taught on the interview day.
o Details:
Interviewees arrive at the designated place (Creative Learning Building)
- move to a waiting room of each subject (Math or Science)
- move to a preparation room of each subject in order of designated number
- solve test problems for interview for 30 minutes
- interview with interviewer (three members) for 20 minutes
o After morning interview
Interviewees can enjoy free time after morning interview, but should be back to Creative Learning Building no later than 1: 20 pm for afternoon interview.
o Afternoon interview will be conducted in the same sequence as the morning one.
2006.10.10 View 13309 -
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 View 16459
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First collection of students for undergraduate courses 2007
If you want to be a global leader, come to KAIST!
640 students to be selected in the first collection
KAIST is an institute of science and technology belonging to the Ministry of Science and Technology, not to the Ministry of Education. KAIST, having executed student selection without examination since 1992, selects students with great talent in science and mathematics by early admission, not by the scores of the nationwide college entrance examination, which is the prototype of on-demand collection executed by ordinary universities.
As such, though similar to on-demand collection in fall semester by the other universities in its characteristics, KAIST’s first collection of students for undergraduate courses 2007 is considerably different in that the number of students to be selected is 640, 90% of its entrance quota (700 students). High school graduates and high school students to graduate in February 2007 are eligible for admission, and second year high school students also can apply for admission under the condition of specific examination.
The process of the first collection is composed of two steps. The first step is the examination of submitted documents. A certified score of English by one of TEPS, TOEFL, and TOEIC must be submitted, and those students having no certified score must express their intention to take a special TEPS test through internet application. In the examination of submitted documents, in-depth examination on high school record, certified score of English, cover letter, teacher’s letter of recommendation, evidence on student’s excellence, etc. is carried out.
The second step is an interview. Around 900 candidates, 1.4 times larger than the number of final selectors (640 students), are selected as candidates for interview through the first step (examination of submitted documents), and among them, top 70% of the candidates (around 450 candidates) will take an interview for personality examination and the other 30% will take an interview for specialty examination.
The interview for specialty examination will test on two subjects - Mathematics and Science. Mathematics is a compulsory subject and Science is tested by one subject among Physics, Biology, and Chemistry. The preparation time for each subject is 30 minutes and the interview time is 20 minutes. The coverage of the interview for specialty examination is Math I, II, and infinitesimal calculus for Mathematics, and Science I and II for Science with priority given to the 7th step of education.
<Interview with Dongsu Kwon, Manager of KAIST Admission Team>
Q> What do you think of the features of KAIST entrance exam?
A> A fact that students do not have to make a separate preparation for the admission to KAIST. Just studying what they are interested in and exhibiting the consequence itself will do. It is possible to tell those students who’ve studied with interests with mere documents and interview. KAIST entrance exam is a designed system to carry out regular education faithfully, not a system to select a small number of well-prepared students.
Q> What type of students does KAIST want?
A> Students having evident fields of interest, students having authentic passion, and students studying voluntarily. I think KAIST is the best place for students who have passion in Math and Science and eager to be a great scholar to pave their way for the further during the college period of four years.
Q> The degree of importance of the certified score of English (one of TEPS, TOEFL, and TOEIC) for the admission to KAIST
A> In KAIST, many classes use English textbooks, therefore, students are required to possess specific level of English abilities. However, since English can be improved in the campus, English score is not an absolute criterion and can be supplemented by other merits of candidates. However, it’s evident that candidates having high English score take priority in the exam.
Q> Is it true that the number of graduates of non-science high school is increasing?
A> Their rate hits about 30%. This results from considerably improved level of graduates from non-science high school, compared to their previous. Particularly, as KAIST has been widely known through TV drama and so on, a great number of top-class students from non-science high school apply for KAIST. These factors are considered to raise the current rate of graduates from non-science high school in KAIST, and there is no disparity in examination between graduates from science high school and non-science high school.
Click here to apply for KAIST first collection of students for undergraduate courses 2007
(September 8 (Fri.) - 11 (Mon.) 17:00, 2006)
2006.09.11 View 13222
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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 View 15423
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KAIST tech-clinic center opens
- Consists of total 124 staffs including KAIST professors, experts from state-run institutes in Daedeok Innopolis, etc.
- Introduce the patient treatment system of general hospitals and provide the services of diagnosis, treatment, and later management of small and medium-sized venture enterprises
A tech-clinic center is opened in KAIST to solve technical problems of enterprises in Daedeok Innopolis.
KAIST (President Nam Pyo Suh) and Daedeok Innopolis (President&CEO In Chul Park) held the opening ceremony of ‘Daedeok Innopolis-designated KAIST tech-clinic center’ at the High-tech Venture Hall in KAIST, 5:00 p.m. Monday, August 28.
KAIST tech-clinic center consists of total 124 staffs including KAIST professors and researchers, experts from state-run institutes in Daedeok Innopolis, etc.
The staffs will take charge of general diagnosis and treatment in the fields of Information Communication, BioTechnologies, Nano-Technologies, Environmental Engineering, Management, Design, and so on.
The tech-clinic center, upon the request by small and medium-sized enterprises, will dispatch the staffs in the corresponding field to check the state of the enterprises and provide assistance to solve problems in technology development and researches.
The center plans to transfer technologies that enterprises need and solve long-term tasks through joint/ entrusted researches.
The center will also perform treatments in the fields of management, law, and accounting of enterprises in association with company founding and management consultation project, which is being promoted by Daedeok Innopolis.
Unlike the existing consulting institutes that put a high value on consultation, the center is featured with its distinguished way of running that it will analyze the causes of problems, find fundamental solutions, and perform even later management.
An official from KAIST said, “Considering various circumstances, it’s not easy for individual enterprises to find suitable experts in the corresponding fields and request proper solutions to settle their problems. That’s the reason why KAIST has promoted this project. KAIST hopes many enterprises in Daedeok Innopolis based on the cutting-edge technologies will gain substantial assistance from this center.”
An official from Daedeok Innopolis said, “In order to provide practical supports, the treatment will be carried out in preliminary/ routine/ expert phases. Also, it is planned to strengthen regular omnidirectional support services for enterprises in association with the internet web call center, etc.”
2006.09.05 View 15748
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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 View 15488
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National NanoFab Center Established
NNFC Emerges with Cutting-edge Nanotech
On March 16, a dedication ceremony was held at KAIST to mark the completion of the National NanoFab Center(NNFC). The opening was graced with the presence of several prominent figures, namely, President Robert B. Laughlin, Daejeon City Mayor Hong-chul Yum, and Myung Oh, Deputy Prime Minister and Minister of Science and Technology.Celebrations of the opening were attended by roughly 300 related personnel. After a welcoming speech given by Hee-Chul Lee, President of NNFC, the event proceeded with a ribbon cutting ceremony, followed by a grand tour of the cleanroom.
The newly completed NNFC on campus boasts a total area of 17,035 square meters which consists of a four-storey research building, a cleanroom and a central utility building.
Still at the first stage of its equipment supplementation, the center has currently achieved an immense 140 in gear variety, worth approximately 80 billion won. At its final stage, a total of 206 equipment arrangements are to be available for various research purposes.
Implementing the use of state-of-the-art facilities, NNFC’s devices include an electron beam capable of critical measurements as small as ten nanometers and an ion beam structure for the analysis of nano-scale materials. These equipments are to be used in numerous areas - fundamental physics, biotechnology and nanoscience
Until the year 2011, a sum of 290 billion won is to be invested in the NNFC by the government and other private organizations. The center, along with Daedeok Techno Valley, aspires to play an integral role in maturing towards a new age of nanotechnology.
President Lee of the NNFC stated that the center is essential for Korea’s nanotechnology skills to achieve higher standards and compete with countries such as the U.S. and Japan. President Lee is also a professor of KAIST at the Division of Electrical Engineering.
By Kyoung-lee Park / Staff ReporterApril, 2005 / The KAIST Herald
2005.04.12 View 22067
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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 View 15394
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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 View 15540
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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 20855
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KAIST Position Openings
Department/
Division
Inviting field
Department of Physics
nano physics/condensed matter theory, nano optics/nano physics/condensed matter theory, nano optics/quantum optics experiment, and biophysics/interdisciplinary fields including complex systems
Department of Biological Sciences
Biological Sciences including Neurobiology
Division of Mathematics
All areas of Mathematics including Financial Mathematics and Mathematical Informatics
Division of Applied Mathematics
Computational Fluid Dynamics, Large Scale Computation and Simulation
Department of Chemistry
Organic Chemistry
Department of Civil and Environmental Engineering
Structural Engineering(Structural Mechanics, Steel Structures)
Division of Mechanical Engineering
Any fields in engineering and natural science which can be integrated with mechanical engineering interdisciplinarily.
Division of Aerospace Engineering
Aerospace Engineering Related Fields(Embedded Systems and Software, MEMS, Micro Sensors & Actuators, Biomedical Technology, and New Technologies)
Department of Biosystems
Bio-Information System, Bio-Electronics System, Bio-Nano System(MEMS)
Department of Industrial Engineering
Human Engineering, Applied Statistics (Data Mining), Enterprise Information Systems
Department of Chemical and biomolecular Engineering
Biomolecular Engineering (Chemical Engineering, Biotechnology, Nanotechnology, Materials or FusionTechnology of BT and NT Areas)
Department of Materials Science & Engineering
Chemical & display materials, biomaterials, organic and inorganic materials, energy-related materials and nanomaterials
Department of Nuclear and Quantum Engineering
Nuclear Materials / Fuels Quantum / Nano Materials and Simulation
Division of Electrical Engineering
Computer and System-on-Chip Design,
Wireless and Lightwave
Communications and Networks
Control and System
Information Systems (Signal Processing) Nano Devices and Integrated Systems
Division of Computer Science
All areas of computer science including foundation of computing, human-computer interaction, ubiqitous computing, and embedded computing.
Graduate School of Management
Marketing, Organizational Management/Human Resource Management/Strategic Management, Accounting, Finance, MIS/e-Busine
School of Humanities & Social Science
Writing (Korean Modern Poetry)
Western History Science and Technology Policy
Center for the Gifted Students
Physical Chemistry
Organic Chemistry
Cell Biology Molecular Biology
■ Candidates should have a doctoral degree or be expected to obtain the appropriate degree before being employed by KAIST.
* Candidates who are expected to obtain a doctoral degree should submit documents verifying successful completion of dissertation examination.
■ Candidates should be able to teach their lectures in English.
■ Completed application form
■ All transcripts of results
■ Four letters of recommendation including one from academic advisor
(Two letters of recommendation including one from academic advisor for applicants for Center for Gifted Students)
■ One curriculum vitae
■ Certificate(s) of previous employments
■ Original or certified copies of publications
■ Completed application form
■ All transcripts of results
■ Four letters of recommendation including one from academic advisor
(Two letters of recommendation including one from academic advisor for applicants for Center for Gifted Students)
■ One curriculum vitae
■ Certificate(s) of previous employments
■ Original or certified copies of publications
■ Friday, April 30, 2004
■ Academic Affairs Team, 373-1, Guseong-dong, Yuseong-gu, Daejeon 305-701, Republic of korea
TEL: +82-42-869-2151, 2152 FAX: +82-42-869-2350
■ Application forms can be downloaded via KAISThomepage (http://www.kaist.edu).
■ Application packages can be submitted either in person or by mail or third party.
■ Application packages arriving after the deadline but prior to department"s reviewing date shall be accepted.
■ If there is (are) no successful candidate(s), the position(s) shall remain vacant. ■ Application packages will not be returned. If you have any questions, please contact the KAIST Academic Affairs Team.
March 29, 2004
http://www.kaist.ac.kr
2004.04.22 View 17389
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Researchers Find Mechanism of Tumor Suppressor Genes
By Kim Tae-gyu. Staff ReporterTHE Korea Times 02-06-2004
Korean scientists continue to break new ground in fighting cancer as domestic researchers examined the mechanism of a gene which can help detect and treat various sorts of cancer.
Korea Advanced Institute of Science and Technology (KAIST) Prof. Lim Dae-sik on Thursday said his team uncovered the mechanism of RASSF1A (Ras Association Domain Family 1 A), or tumor suppressor genes, for the first time in the world.
The gene was widely considered to play an important role in reducing the proliferation of cancer cells, but its exact function and processes have remained unknown up to now.
It is the second cancer-related breakthrough by Koreans in a week after Korea Institute of Science and Technology (KIST) Prof. Chung Hesson unveiled the oral anti-cancer drug.
``Cancer results from the failed management of cell cycles due to things like radiation. After a two-year intensive study, we found out how RASSF1A governs the cell cycle,"" Lim said.
Lim added cancer is caused by abnormal cells, which continue to grow and divide out of control unlike normal cells, which die over time. Cancer cells develop into malignant tumors, eventually inflicting damaging effect on the human body.
As a result, a lack of the RASSF1A indicates a high possibility of cancer and injection of it into cells is believed to help cure the deadly disease, according to Lim.
Dr. Song Min-sup, who took charge of the research, said the findings will especially pave the way for the detection and treatment of lung cancer.
``The dearth of RASSF1A was reported mostly in the case of lung cancer. The new findings will provide insight into the diagnosis and cure of lung cancer from its early stages,"" Song explained.
Lung cancer is a very elusive disease because it doesn"t cause symptoms in its infancy. When symptoms do occur, usually it is too late.
``We expect commercial detection kits or drugs for lung cancer in around five years after pre-clinic experimentation and two-phase clinic trials,"" Song expected.
Details of the study is available in the scientific journal Nature Cell Biology in its February edition.
voc200@koreatimes.co.kr
2004.03.15 View 17991