-
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 View 14142 -
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 14069
-
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 13671
-
President Nam Pyo Suh appreciates Exhibition 'Rounault' with executives
The president of KAIST Nam Pyo Suh appreciated the exhibition ‘Rounault - artist preserving the freedom of sprit’, which was held at Daejeon Museum of Art in commemoration of the 120th anniversary of amity between Korea and France, with all KAIST executives.
About 80 executives of KAIST including President Suh, Inspector Incheol Yeo, Vice president Soonheung Chang, deans, chiefs of office, heads of department, heads of team, etc. enjoyed the exhibition for one hour from 5:20 p.m. August 24, Thursday.
President Suh revealed his intention that KAIST would cooperate with Daejeon City Hall and its community to develop Daejeon into one of the world-class high-tech cities at the press conference, which was held on July 14 in commemoration of his inauguration.
This day’s event was also the expression of an intention that KAIST would be together with Daejeon community.
An official from KAIST revealed that the purports of the event are ▲ KAIST will actively participate in the events happening in the community, which makes Daejeon citizen have affection to KAIST and ▲ KAIST wishes to play a practical role to enhance Daejeon’s image as the city of science and technology, and art and culture.
2006.09.05 View 14323
-
Opening of KAIST Youth CT Experience Center
Opening of KAIST Youth CT Experience Center
The Youth Culture Technology Experience Center (or Nada Center) is opened at KAIST to develop youth’s creativeness and foster their dreams of being global leaders via experiences of advanced culture technologies.
KAIST Graduate School of Culture Technology established Nada Center and held its opening ceremony at KAIST auditorium, Monday, January 22, 2007.
Nada Center, having a meaning of ‘I am the core’, is a place to let the youth directly participate in programs of their interests and enjoy the experiences there to raise their dreams. Particularly, all procedures of the programs will be carried out in English, which means the center is a good place for natural learning of English.
Nada Center will organize youth CT experience workshops to provide experiences of ▲cutting-edge musical production ▲ creative musical instrument production ▲ scientific image production four times a year. At the audition for the first youth CT experience workshop on January 16, total 64 candidates were selected. The participants will exhibit their products after one-month workshop of experience from January 23 to February 24.
2006.02.02 View 11949
-
Ju-pyeong Lee won the Best Paper Award from IEEE RTAS
Ju-pyeong Lee, doctoral student of the Dept. of Electrical Engineering of KAIST, received the Best Paper Award from the 11th Institute of Electrical and Electronics Engineers Real-Time and Embedded Technology and Applications Symposium (IEEE RTAS) sponsored by IEEE TC on Real Time System and supported from the U.S. National Science Foundation.
He is in the Computer Engineering laboratory, and won the honor by his research of technique of Delayed Locking Technique for Improving Real-Time Performance of Embedded Linux by Prediction of Timer Interrupt. His paper was selected to be the best because of its practicality. His research purposed the technique that can dramatically improve real time problem, which was indicated to be the big problem of Linux. Moreover, he presented the way to easily materialize this technique in the practical system.
Best Paper Award is the prize awarded by IEEE Computer Society in the recognition of outstanding achievement in the field of real time system and embedded technology.
IEEE RTAS is a symposium held annually by IEEE. In this year, the 11th symposium was held from March 7 to March 10, for four days, in San Francisco, United States. The purpose of this year symposium was to seek papers describing significant contributions both to state of the art and state of the practice in the broad field of embedded and open real-time computing, control, and communication. Therefore, it especially focused on online real-time and embedded applications ranging from industrial embedded applications such as aeronautics and automotive systems to open multimedia, telecommunication and mobile computing systems.
Approximately 200 related erudite from almost 20 countries including United States, England, France, Germany, Italy, and Sweden participated in this symposium. Total number of papers submitted to IEEE RTAS was 158, while only 53 of them were selected.
by Hye-jung Won / Staff ReporterApril, 2005 / The KAIST Herald
2005.04.12 View 16195
-
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 19968
-
Korean Researchers Develop Skin-Like Tactile Sensor
THE KOREA TIMES2005.1.31(Mon)
A South Korean scientific research center said Sunday that it has developed a tactile sensor capable of functioning like human skin.
The left picture shows the letters of the Korea Advanced Institute of Science and Technology (KAIST) caught through a tactile sensor functioning like human skin and the right picture is its enlarged image. Scientists from KAIST developed the precision tactile sensor with 1-millimeter spatial resolution.
The tactile sensor is made of polydimethylsiloxane, a synthetic rubber, and has a 1-millimeter spatial resolution capability, the Korea Advanced Institute of Science & Technology (KAIST) said.
``Many tactile sensors have been developed so far, but ours has the highest spatial resolution capability, flexibility, softness and extensibility,’’ said Lee Hyung-kyu, who led the development project.
Late last year, the University of Tokyo unveiled a tactile sensor with a spatial resolution capability of 2 millimeters.
Lee said his team will announce the results of their research at an international conference on micro-electro-mechanical systems, to be held early next month in the U.S. city of Miami.
The new sensor is widely expected to lay the foundation for coating humanoids such as South Korea"s HUBO or Japan"s ASIMO with artificial skin.
HUBO is a humanoid robot recently developed by KAIST. It is capable of moving its fingers independently, dancing and shaking hands with people by using its 41 joints.
Japan"s ASIMO, an acronym for Advanced Step in Innovative Mobility, was unveiled in 2000 as the world"s most advanced bi-pedal robot.
Through several upgrades, it is now able to spin in the air, bend or twist its torso and maneuver around obstacles in its path.
2005.02.02 View 14004
-
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 14003
-
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 14135
-
KAIST president R. Laughlin speaks during a news conference
KAIST president Robert Laughlin speaks during a news conference
at the Government Complex in Kwachon, south of Seoul, Tuesday. / Korea Times 2005-02-01
THE KOREA TIMES
By Kim Tae-gyuStaff Reporter
Robert Laughlin, president of Korea Advanced Institute of Science and Technology (KAIST), takes a step backward from his hardline push for KAIST reform in the face of strong opposition.
The 1998 Nobel laureate in physics, who took the helm of the nation’s top technology university last July, made the point Tuesday at a press conference at the Kwachon Government Complex in southern Seoul.
``Privatization of KAIST is not on the table. We are only discussing securing money for the advancement of KAIST as a world-class institution,’’ the 54-year-old president said.
Laughlin also denied the swirling suspicions that he plans to transform KAIST to a general-purpose, undergraduate-focused college from the current research-oriented graduate school.
``The issue we are discussing is moving the business model of KAIST toward the one used by the Massachusetts Institute of Technology, not changing KAIST’s structure,’’ he said.
This is a retreat from his original plan to fundamentally overhaul the state-funded KAIST to a market-oriented institute by several aggressive measures.
In a new investment strategy for KAIST in December, roughly five months after his tenure began, Laughlin said KAIST is trapped in a funding squeeze from which there appears to be no exit.
He then suggested revamping its traditional emphasis on graduate education because this type of system has come to be out of tune with the market.
He even proposed expanding the enrollment of KAIST to 20,000 from the current total of 7,500 and charging tuition fees of 3 million won per semester from the current fee of under 850,000 won.
The surprise reform plan created a backlash from KAIST faculty, students and government officials, who regarded the scheme as a privatization attempt.
In the process, professor Park O-ok, dean of the school’s planning office, resigned from his position in early December and asked Laughlin to abandon the reform.
In response, Laughlin said the miscommunication resulted from the secret process of KAIST reform discussion. He expected policy announcement in early March to clear up misconceptions.
Regarding Park’s protests, he said: ``I had a personality problem with him but that has now been fixed.’’
Yesterday, Laughlin appointed Chang Soon-heung, professor in the Department of Nuclear and Quantum Engineering, to fill Park’s position.
voc200@koreatimes.co.kr
2005.02.02 View 14198
-
KAIST Develops Thinking, Feeling Human-Like Robot
By Kim Tae-gyu / Staff ReporterTHE KOREA TIMES 2005.1.31(page 1)
South Korean scientists created the world"s first artificial species, a software robot with ``genes"" and ``chromosomes.""
Kim Jong-hwan, professor at Korea Advanced Institute of Science and Technology, said Sunday his team had developed a robot with 14 chromosomes, which gives the machine a ``personality.""
``This robot is a software-based one, sometimes called a sobot. It has a unique synthetic character determined by its specific combination of 14 chromosomes,"" the 47-year-old Kim said.
When Kim"s team gave a stimulus to the chromosome-equipped sobots, they showed totally different responses even under the same environment due to their distinctive personalities.
Several cognitive sensors enable the prototype models to identify 47 differing outside stimuli. The virtual robots also have 77 behavior patterns.
``Because a sobot is basically a software system, it can easily travel to other robots and multiply. In the middle of such processes, it can evolve through crossover and mutation,"" Kim said.
With the development of associated technologies, Kim expected the number of chromosomes would be augmented as sobots evolve to a more sophisticated species in the future.
The capacity to load large volumes of data is related to the evolution of sobots. Currently, 14 chromosomes consist of roughly 2,000 bytes of data.
The effort to incorporate the sobot into a platform, robot hardware, is now underway and Kim"s team looks to unveil the new-concept species as soon as next month.
``Diverse behavior patterns driven by sobots" specific personalities will be precisely translated into action just like the soul rules the body,"" Kim said.
Kim did not think the robotic evolution would lead to the human race being threatened; the concept of the recent blockbuster ``I, Robot.""
``If we design the chromosomes safely, the self-reproducing robot will not post a threat back to us,"" Kim said.
Kim first revealed the robotic breakthrough at a keynote speech of the International Conference on Autonomous Robots and Agents, held in New Zealand last December.
Kim is also known as pioneer in the field of robot football and has headed the Federation of International Robot-soccer Association (FIRA) since its foundation in 1999.
voc200@koreatimes.co.kr
2005.02.02 View 15044