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KAIST College of Life Sciences and Bioengineering Signs MOU with Harvard
KAIST’s College of Life Sciences and Bioengineering recently signed a memorandum of understanding (MOU) with Harvard University’s Center for Brain Science on July 20, which will allow for joint research and exchange in researchers between the two institutions.
Headed by Director Kenneth Blum, Harvard’s Center for Brain Science leads the world in brain-related research. The new MOU will allow for research cooperation, exchanges of professors, researchers, and students, joint usage of infrastructure and research materials, and finally, sharing of research assignments.
The Dean of the College of Life Sciences and Bioengineering Sang Yup Lee, who concerted efforts to form the MOU said, “This agreement will bring together two of the world’s leading brain-related research teams, and I hope that combining their expertise will bring great advances in brain science and engineering.
KAIST’s College of Life Science and Bioengineering, which is known for its creative interdisciplinary research, is producing exemplary research results in the field of brain science from its Biological Sciences and Bio and Brain Engineering departments.
In addition to cooperation with Harvard, KAIST has also formed partnerships with Emory University, Japan’s RIKEN Brain Institute, and Germany’s Max Planck Institute. Not only does it have a worldwide network pertaining to brain research, but KAIST has also engaged in cooperative research with prominent domestic institutions such as, Asan Medical Center, the Korea Research Institute of Bioscience and Biotechnology, the Korea Research Institute of Standards and Science, and the SK Corporation. Through these connections, KAIST has managed to lead in mutually cooperative brain interdisciplinary research.
2009.08.10 View 17049 -
KAIST Professor Sang-Yup Lee Chair of International Metabolic Engineering Conference Due Next Year
KAIST distinguished professor Sang-Yup Lee was named to chair the 17th Metabolic Engineering Conference which will convene on Jeju Island, Korea, next year, under the theme of "Metabolic Engineering for Green Growth." It was decided at the 16th Biochemical Engineering Conference held in Burlington, Vermont, on July 5-9.
Metabolic Engineering Conference in 2010 will not only involve presentations and discussions about metabolic engineering, but will inaugurate the “World Council on Industrial Biotechnology,” which will bring together global corporations and the world’s experts in industrial biochemical engineering, according to sources at KAIST.
A KAIST official commented, “The fact that the Metabolic Engineering Conference is to be held here [in Korea] proves that Korea is being acknowledged as a key player in this field.”
As the world faces the depletion of fossil fuels and environmental pollution, nations are showing increasing interest in industrial biochemical alternatives, such as microscopic organisms or new chemicals, to solve their problems. In addition, efficient production of biochemical materials and bio-fuels using microbes is deemed vital for the future.
“The Korean government has become a model to other countries thanks to its leadership in carrying out the ‘Green Growth’ policy,” Professor Sang-Yup Lee said. He stated that KAIST is recognized for its research in advanced biochemical material and fuel production methods.
“Green Growth,” a concept first developed by ESCAP, the UN agency working for social and economic cooperation in Asia and the Pacific, aims to achieve sustainable economic growth without destroying the environment.
Ref. Department of Biochemical Engineering, Metabolic and BioMolecular Engineering Lab, KAIST
2009.07.17 View 14000 -
Prof. Cho Appointed Editor-in-Chief of Systems Biology Encyclopedia
Prof. Kwang-Hyun Cho of the Department of Bio and Brain Engineering, KAIST, has been appointed as the editor-in-chief of the Encyclopedia of Systems Biology which is currently in development by Springer, a New York-based publishing company, university authorities said on Monday (July 6).
Prof. Cho will share the position with three other eminent scholars from Britain, Germany and the United States. Cho will be responsible for selecting editorial members for each section of the Encyclopedia and overseeing the overall editorial process.
The Encyclopedia of Systems Biology is a multi-volume reference compilation of the research outcomes in the field of systems biology all over the world. The ESB will consist of alphabetically ordered description of systems biology concepts and is envisaged to ultimately comprise 6-12 volumes. Publication of the Encyclopedia is scheduled for 2011.
2009.07.08 View 13856 -
Monthly Chosun Publishes In-Depth Interview with KAIST President
Monthly Chosun Publishes In-Depth Interview with KAIST President
The Monthly Chosun published by Chosun Ilbo, one of the major newspapers in Korea, carried an in-depth interview with Nam-Pyo Suh, President of KAIST, in its April 2009 issue. Following is a translation of the article.
‘There’s No Good Golf Player among Famous MIT Professors’
By Kim Sung-dong and Lee Keun-pyung
Biographical Note: Born in Gyeongju, North Gyeongsang Province, South Korea, in 1936. Moved to the United States in 1954. Graduated from Massachusetts Institute of Technology (MIT), earned M.S. from MIT, and Ph.D. from Carnegie Mellon University. Served with MIT as professor of mechanical engineering and chair of the Department of Mechanical Engineering. Worked for four years as assistant director for engineering, the U.S. National Foundation of Science, from 1984. Appointed as president of KAIST (Korea Advanced Institute of Science and Technology) in July 2006. Concurrently serves as director of the Presidential New Growth Engine Search Group. Dr. Suh has some 60 international patents to his name.
In Korea, KAIST President Suh Nam-pyo raised the torch of university reform. Since he took office at KAIST in July 2006, he initiated reform measures one after another. At the state-run university where all students were tuition-free, the new president required students to pay tuition in accordance with their academic records. For the faculty, he offered various incentives to stimulate competition and implemented a strict tenure screening system.
The waves of reform starting from KAIST spread to the whole university community in Korea. In 2007, he shocked the professors’ society by dropping 15, or more than a third of applicants, in tenure screening. The action broke the common concept of life employment in Korean universities.
This year, he rang an alarm bell to Korean society as a whole. For the 2010 academic year, the KAIST President announced an admission formula which denied any advantage of students who take the costly private teaching. KAIST will ask the principa1s of 1,000 high schools across the country to recommend one senior student each, select 300 from them through screening by admission officers, and finally admit 150 students or 16 to 18 of the total freshmen enrollment through meticulous interviews by professors.
He declared that the university from 2010 would not consider the scores from the nationwide mathematics and science tests, which have turned into a major item for university entrance screening. In-depth interview will be conducted in a way no one can prepare for it by taking courses at “hagwon” or private institutes. It was a bold measure to free students from the shackles of private teaching. Following the lead of KAIST, other universities decided to change their admission systems so that preparations at hagwon would be of little help in going to universities of choice.
The Monthly Chosun interviewed Dr. Suh on March 6, the day after KAIST announced its 2010 admission plan.
Monthly Chosun: The KAIST admission plan for 2010 that you announced yesterday can be the starting point of suppressing private teaching business in Korea.
Suh: It was a little too late. Private teaching is a big problem for the nation. It is a big problem that a half of the entire education cost in this nation goes to private teaching market.
MC: Many parents send their children overseas to escape from private teaching.
Suh: Recently I visited the University of Queensland of Australia. There I learned that some 7,000 Korean students were in the small university town. It was almost the same number as the entire KAIST enrollment. About 20 percent of University of Queensland students are from outside the country, giving the university a large income. Korean students form the largest group among the international students. They must have had many reasons to go there, but if the money spent on overseas study is used wisely here, the education environment in Korea would be greatly improved. Correcting such problems will take time.
MC: How long will it take to end private teaching in Korea?
Suh: Korea decides everything with examination. During the Joseon Kingdom, there was the Gwageo system, which is equivalent to the bureaucratic recruitment examination of today. Some pass the state test during the senior year at university, which means that they only prepared for the examination while attending university. Things will change, but it will take time. There are people who take advantage of the present situation.
We should judge the desirability of a present system by examining whether it fits the basic purpose of education. I can’t insist that the admission system we announced yesterday is the best, but at the moment it is the most desirable alternative. After 10 or 20 years when society will have changed, there may be different judgment.
MC: Do you mean KAIST’s 2010 admission plan is necessary for a change, even if not the best?
Suh: Yes. Without such an experiment, there will be no change. I should admit that it may be unreasonable to ask every high school to recommend just one student, although some schools are twice, three times bigger than others.
MC: Don’t you think gaps in the academic level between schools should be considered?
Suh: If we consider such factors too, the process will be too complicated. Anyway, we are to select 150 out of 1,000 and we are offering them chances which were absolutely unavailable in the past. We give them a chance and it is up to the students to be able to catch it or not. Opportunities should be offered equally to students from rural areas or from poor families.
MC: What about possible favoritism in the course of recommendation?
Suh: We may be cheated once but never again. If a high school principal fails to recommend a good student, it will leave a bad record in our database. At present, the database shows students from which science high school are doing well and those from which high school are negligent in study.
MC: You have database for science high schools and other special-purpose schools but not one for general high schools?
Suh: We will soon have the database for general high schools. We will be interviewing teachers too and the results will also be stored in the database. If recommended students from certain high schools prove unfit for study at KAIST, we will not accept students from those schools.
MC: You are not to give advantage to high scorers from nationwide mathematics and science contests. But we should recognize that such examinations stimulate students to study harder.
Suh: Science high schools in Korea maintain high standards of education. But everything deteriorates if it is left to go on in the same direction for a long time. Each system needs to be reviewed and corrected if any defect is found. The admission system we are going to implement will have to be corrected some time.
MC: What is the most desirable human character in your view as KAIST president?
Suh: People quite incorrectly believe that man learns everything from school. It is impossible because the world changes constantly and new knowledge is created in every minute. Education aims to produce persons who can identify problems, who can establish goals, who think and learn by themselves.
We at KAIST aim to produce the best people in the world of science and technology. When the best people lead, others follow. People who are accustomed to one-way teaching under professors can do well in the second position in a group but not as the leader. In the science and technology community, some people are able to identify problems and address them while some others do well only when they are put into a certain course of action. The Korean education system should try to produce more people of the former category. KAIST wants to find and educate this kind of people.
MC: You mean creative leaders?
Suh: Yes. There are fewer people who can lead than those who follow. KAIST attracts good students, has good facilities and good teachers, so we can produce creative leaders. In recruiting professors, we spot some attractive candidates whose resumes boast of degrees from prestigious universities and fine career experiences. But some are found unqualified through interviews. A good professor is one who can drive students to study by themselves with creative ideas of guidance. Finding such professors is not easy, but we are making progress.
MC: Have you found any drawbacks in screening students mainly through interviews?
Suh: Three professors interview 40 to 50 applicants in three days, 14 hours a day. By the afternoon of the third day, they are quite tired and find it extremely difficult to make a choice because students are mostly of high standards. Initially, they rather easily pick up the top group and the bottom group, and then they come to the hard phase of choosing from among those who are not much different from each other. It could be just a matter of luck sometimes.
MC: From your long teaching experience in the United States, what problems do you find in the examination systems in Korea?
Suh: When questions are difficult, they may have plural correct answers. The professor could have wanted to test how students think. In Korea, examiners demand testees to produce just one correct answer. There are many different ways to go to Busan from Seoul. We should teach students how to think by themselves. At KAIST, we teach freshmen students design as a compulsory course. In design class, students are given varied questions with varied answers and they are taught how to find good solutions. Perhaps, KAIST is the only university in the world that has the design course for freshmen.
MC: Design sounds like something related to fashion in search of beauty. What is the concept of design taught in KAIST?
Suh: Design was the first thing I did at KAIST for its reform. When I came to KAIST, I set the goal of making it the best S&T university in the world. I drew up nine action plans for the goal and each plan has various practical tasks. My colleagues at the university are each given a task and I oversee how they fulfill their responsibilities. As professors and staff members develop their own ways of performing their tasks, an operation system is designed at KAIST. It must be more or less same with the mass media. Who should do what task and assume responsibilities under what process, this is the system design.
MC: Then the national reconstruction project is a big design.
Suh: A nation needs a good design to be prosperous. The president should be a good designer.
MC: KAIST formally merged with the Information and Communications University (ICU) a few days ago. What is the expected effect of the merger of the two state-run universities?
Suh: The primary merit is that the merger created critical mass that provides the momentum for self-sustaining and further growth which requires certain size. In the area of information technology, KAIST has about 90 professors and ICU has 46 while our competitor universities have an IT faculty of 200 or so. We need some 50 more professors to be really competitive in the area of information technology. MIT has 100 professors in the faculty of biology while KAIST has a little more than 20. To improve the situation, I proposed to the Korea Research Institute of Biology and Bioengineering (KRIBB) which is located next to KAIST to conduct joint research. But there were people who opposed it, and I still don’t know why they opposed it.
MC: Was it a joint research, not merger that you proposed to the KRIBB?
Suh: At first, we proposed three options: merger, joint research and individual-level exchanges. But nothing happened despite the great advantage of adjoining locations. In the Daedeok Science Complex, there are too many small research institutes and critical mass is hard to achieve. They are so much specialized that only experts in the same field mingle among themselves and make little contact with people of other scientific fields. Without contact with outsiders, no great new ideas can be produced. I am not a mathematician, nor a physicist but a mechanical engineer. Yet, I believe when biologists and physicists collaborate with engineers, when they seek a fusion of their capabilities, better results can be achieved.
MC: Is it the reason why KAIST established the College of Cultural Science?
Suh: Yes. The idea is to put science and technology into culture and culture into science and technology. Some want to put science into culture while others insist that culture should be put into science and there is tension between the two opinions. But this kind of tension is a good thing because it is a creative tension which can produce good ideas.
MC: But the president should make a final decision.
Suh: I take part in the process but decision is to be made by professors and departments concerned. I am not an expert although I offer my own ideas.
MC: Do professors follow you when you make a point?
Suh: I don’t like people to follow me right away. The university will not do well if all professors just follow what the president says. I want professors to make a decision after considering my suggestion. KAIST has a department-centered operation system. Department chairs are the real boss. This system has resulted in tenured professors in their thirties and professors in their fifties without tenure.
MC: It is likely that the tenure screening has caused dissatisfactions from faculty members.
Suh: Yes. Whoever passed the tenure screening believe we have the best system and those who failed believe that the system is worst.
MC: President Lee Myung-bak attended the 2009 commencement ceremony. Have you had any opportunities to establish personal relationship?
Suh: No. I met him for the first time when he visited Daejeon as a presidential candidate. People here suggested that I discuss with him national investment in science and technology but I declined. There was too much pressure because KAIST budget would be directly affected, and the vice president made presentation.
I have met President Lee a few times through the National Science Commission. In conversations with the president, I found common thinking between us. He agreed to me when I spoke about developing electric cars and the mobile harbor, but officials at government ministries do not understand me.
MC: Did you accept the directorship of the New Growth Engine Search Group at the request of President Lee?
Suh: The Knowledge and Economy Ministry asked me to take the post. Through this public service, I have been acquainted with many people who have helped me a lot. I don’t know if I made any contribution to the Group but I am sure I benefited a lot from it.
MC: What contribution do you think KAIST can make to the development of new growth engine industry?
Suh: Most important is developing original technologies. Institutions like KAIST should be able to develop many original technologies that Korea can sell overseas. The mobile harbor and electric cars are very promising projects in this regard.
(The “mobile harbor” being developed by KAIST is a marine transportation system capable of loading and unloading cargo with a ship being at anchor in the sea far from the shore in a situation of congestion. Equipped with a self-propulsion apparatus and a loading/unloading system, the mobile harbor comes to ships far from the land to handle cargoes.)
MC: Is the mobile harbor project to receive government support?
Suh: We are trying to get government funding for it. Some in the government are in favor while some others are desperately against it for reasons that I don’t know.
MC: What about the “online electric car” KAIST developed?
Suh: It is a very important project which promises to resolve the problems of high energy cost and air pollution. It is most suitable for cities like Seoul but there are people who oppose its commercial production.
MC: President Lee had a test-riding in the online electric car, but government support has not been decided yet. Why?
Suh: I can’t understand it. We are seeing a project stalled by the rejection of some section chiefs even though the president endorsed it. These opponents are not scientists. Previously developed electric cars need big batteries while the KAIST model requires a small battery. I am confident that the better product always beats the worse one, the more efficient technology emerges as the winner at the end.
MC: When do you think can KAIST overtake MIT where you belonged?
Suh: Within 10 years, I believe. Let me tell you this. KAIST established the Department of Marine Systems this year, but MIT has abolished its marine systems department. They only taught how to build ships for a long time so students did not apply and the department has been merged with the mechanical engineering department. At KAIST, we teach mobile harbor as well as shipbuilding at the new marine systems department. We are behind in some areas but we are ahead in many others. I am sure we can overtake MIT in about 10 years.
MC: Are donations to the university made smoothly?
Suh: We received 70 billion won ($60 million) last year and we are optimistic about attaining the goal of 1 trillion won in donations.
MC: What is the most difficult problem in collecting donations?
Suh: It is not easy for a man of my age to go about asking people to donate money that they earned in hard way. But it has to be done to operate the university.
MC: You are said to be a Korean-born scientist closest to receiving the Nobel Prize.
Suh: I am not a scientist but an engineer and I not at all interested in the Nobel Prize or anything like that. If one endeavors to contribute to society with research, prizes come to him.
MC: How is the prospect of Korean scientists winning the Nobel Prize?
Suh: I am positive. There are many young professors in Korea who are engaged in very interesting research projects. But what is important is globalizing their research efforts, by competing and collaborating with top-notch scientists of the world.
MC: How do you compare the cultures and climates of academic communities in the United States and Korea?
Suh: Famous U.S. professors I know are real workaholics. They devote themselves to research and are interested in little else. A university develops when it has many such professors. I want to make a point that there are few avid golfers among famous professors at MIT. They have no time to spend on the golf course. I see many good golf players among professors in Korea.
MC: Do Korean professors cooperate well among themselves in research?
Suh: What I realized first upon returning to Korea was that professors rarely discuss their academic matters in private conversations. They discuss everything but their own research work. This was something I found different from what I had witnessed in the United States where professors openly exchange ideas about their academic fields. What we need in the academic society is opening our hearts about what we are working on and what we have achieved. New ideas evolve in the course of such interactions. I’m inspired these days as I find younger professors gradually show such attitudes.
MC: What was the most difficult part in your reform efforts at KAIST?
Suh: Persuading people was of course the most difficult part. I explained to professors the purpose of changing the existing system and tried to win their consent on the process to achieve our objectives. But I was not able to persuade them all. Perhaps about half must still believe that the past system is better. The common trait of people is that they judge something is good or bad based on whether they benefit from it or not.
MC: You went to the United States in the second year of high school in Seoul. Weren’t you hesitant to decide to come back to Korea after so many years?
Suh: It wasn’t an easy decision to pack up and come here. I had many things to do over there, which was the reason why I did not catch previous opportunities to return to Korea. Children and their education were big obstacles in the past. But this time I just made up my mind and now I realize that it was a good decision.
MC: Did you believe it was the last opportunity to serve your motherland?
Suh: It is too much to say so. I am trying a lot but I don’t know if I am of any help to the country.
2009.04.23 View 14310
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KAIST Prof. Park Selected as Winner of Clemson Award
Professor Tae-Gwan Park of the Department of Biological Sciences, KAIST, was chosen as the winner of the 2009 Clemson Award for Fundamental Research, university authorities said on Tuesday (April 7).
The award is the highest recognition of the Society for Biomaterials, an international organization of more than 3,000 members that promotes research in the field of biomaterials. Prof. Park is cited for his outstanding achievements in interdisciplinary research covering gene transferring, gene therapy and neogenesis. It is rare for a non-U.S. national to win the prize in the 36-year history of the award.
The award will be given to Professor Park at the Annual Meeting of the society which will be held in San Antonio, Texas, on April 22.
2009.04.09 View 13167 -
Workshop on Biomedical IC to Be Held on March 26
KAIST will hold a workshop on "biomedical IC for future healthcare system" on March 26 at a lecture room of the School of Electrical Engineering & Computer Science. The workshop is organized by SEECS and the Korean Institute of Next Generation Computing.
At the workshop, a variety of new technologies expected to expedite the development of biomedical systems will be presented. KAIST Prof. Hoi-Jun Yoo will speak on the "body channel communication" using the human body as the signal transmission medium and Dr. Seung-Hwan Kim of Electronics and Telecommunications Research Institute (ETRI) on a wearable vital sign monitoring system.
Other subjects are CMOS (complementary metal-oxide semiconductor) fully electronic biosensor for biomolecular detection to be presented by KAIST Prof. Gyu-Hyeong Cho; nerve interface and IC (integrated circuit) system design by KAIST Prof. Yoon-gi Nam; design of neural recording and stimulation IC using time-varying magnetic field by KAIST Prof. Seong-Hwan Cho; low power multi-core digital signal processor for hearing aid by Dong-Wook Kim, senior researcher at the Samsung Advanced Institute of Technology; and a non-contact cardiac sensor by KAIST Prof. Seung-Chul Hong.
With the advent of the ageing society, medical expenses of the elderly people are rapidly increasing. As a way to address the issue, interests are growing in "ubiquitous healthcare," a technology that uses a large number of environmental and patient sensors and actuators to monitor and improve patients’ physical and mental condition.
The upcoming workshop is the first academic event on biomedical integrated chips to be held in Korea. The workshop will provide a valuable opportunity for experts in biomedical area to get together and examine the present status of Korean biomedical area and discuss about its future, KAIST officials said.
2009.03.20 View 19048
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President Lee Myung-bak's Congratulatory Address at 2009 KAIST Commencement Ceremony
Following is the full text of President Lee Myung-bak"s congratulatory address at the 2009 KAIST Commencement Ceremony.
Beloved graduates, proud parents, dear family members,
Mr. Cho Jeong-nam, Chairman of the Board of Directors,
Dr. Suh Nam-pyo, President of KAIST,
Esteemed faculty and staff members, Distinguished guests, ladies and gentlemen,
It is great to see you all.
First of all, I must begin by extending my most sincere congratulations to the 1,976 graduates who are receiving their degrees today. You worked hard, you earned it and I congratulate you.
We must also remember your parents who worked just as hard as you did, if not more, to support you. You may have family members whom you wish to thank for their support and understanding. I also thank and congratulate the faculty and staff members who worked hard to provide the best possible education for you.
Today is also a great day since we can all join together to recognize the achievements of Dr. Ryu Geun-chul and show him how deeply we respect and appreciate his generous contributions to KAIST. Today, Dr. Ryu received an honorary doctorate in science for his life-long contributions in the field of Korean traditional medicine. He has also donated a vast portion of his personal wealth to KAIST for educating future leaders in science and technology.
Dear graduates, faculty members,
KAIST has been in the forefront of leading Korea’s development over the last thirty-eight years. As the preeminent institution devoted to educating the very best minds in science and technology, more than 20% of all doctorate degree holders in Korea’s science and engineering field are KAIST alumnus. KAIST has led the drive to create more than 470 venture start-ups, opening up a vast new horizon for Korea’s scientific and technological breakthrough while leading the economic growth of Korea.
KAIST has done exceptionally well even compared to the world’s best. It is ranked 34th in engineering and IT. It is ranked 46th in natural sciences. These rankings are a demonstration that KAIST is a research-focused institution with global competitiveness.
Moreover, KAIST has been an example for other higher institutions seeking to reform the way colleges and universities operate. KAIST has demonstrated its forward-looking and reform-minded vision in terms of selecting students, recruiting and evaluating professors and managing its courses. In particular, when KAIST selects its students, it doesn’t look only at their test scores but looks for creative and innovative minds with real character and potential. Such practices are having positive influences on how other universities and colleges select their students. Furthermore, KAIST has taken the lead in applying their research skills to matters of global concern through its EEWS initiative. I am proud of such visionary work and will continue to have high hopes for KAIST.
Our promising future depends on gifted individuals and gifted individuals are nurtured through solid education. For a country such as Korea with no natural resources, human capital is our greatest and most precious resource. We must overcome our lack of natural resources with our abundant and limitless brain power.
The 21st century will be a knowledge-based society and so national competitiveness of individual countries will be determined by how competitive its universities and research institutes are. And the time calls for universities with world-class capabilities in research. Especially, our investments in science and technology today will ensure a brighter tomorrow.
I assure you that this government will spare no effort to KAIST so that it can continue to foster the best minds for even greater achievements.
My dear graduates and professors, proud parents and family members,
All of us are going through difficult times due to the global economic crisis. At the same time, we must face global climate change which is our common concern. And this global concern must not be put aside or given less priority because of the economic crisis. We must do all we can to overcome the economic crisis while aggressively and consistently implementing measures to deal with climate change. At the same time, we must continue our quest to develop the next-generation engines of growth in preparation for the future when this economic crisis is eventually over. This is killing three birds with one stone and this is the core of my Low Carbon/Green Growth vision for Korea’s future.
For a country like Korea with no oil reserves whatsoever, Low Carbon/Green Growth is a must. We simply do not have any other choice. It is also the path that the global community must take.
Korea was late in joining the club of industrialized countries but we are ahead in the information technology sector. But, because we did not possess the core technologies in information and communication, we were unable to fully benefit from being ahead.
Now, we must excel in all areas in the age of green growth. Korea’s future growth will depend on how many core technologies we manage to accrue in green technology, such as technologies to conserve energy, development of new and renewable energy. The government will double, compared to last year, its investments into research and development of green technology.
The government has a long-term vision and this vision calls for continuously increasing strategic investments into the new engines of growth and they include basic sciences, core technologies and big science. Deregulation will continue so that we can foster scientific and technological advancements and also attract more investments and people from abroad.
Dear graduates,
Another source of our new engine of growth and our green technology is none other than fusion technology. Our bio, IT and nano technology will come together, and coupled with what is already a world-class IT industry, we can create future engines of growth.
President Suh Nam-pyo stressed that “Inter-disciplinary study that takes place amidst the boundaries of different disciplines is where new discoveries and added-value are found.” This is a reminder of the importance of fusion research. And we all know that KAIST is the leader in this endeavor.
Fusion technology will greatly improve our quality of life and introduce new and innovative ways to solve our real concerns. Healthcare and medical science are just two examples. As our society becomes an aged society, identifying the causes of and finding the cure for degenerative diseases such as Pakinson’s and dementia are becoming more and more important. If we manage to successfully combine our knowledge in medicine, science and engineering, we can come up with revolutionary ways to detect and cure these and other diseases.
In particular, we will soon see science and medicine come together to create an entirely new paradigm in how we take care of our health. Medicinal research and high-tech research hospitals will be the norm. I truly believe that we can save both this planet as well as ourselves by utilizing green technologies and high-tech fusion technology. The government will continue to support such efforts.
Dear graduates, the heroes of today,
Some of you may wish to pursue higher degrees in order to reach even loftier academic goals. Some of you may opt to venture into society.
Wherever you go and whatever you decide to do, do not be afraid of failure. Pursue your dreams. Face the challenges that come your way. And when you boldly face these challenges with the most precious gift you have, your youth and ideals, your dream will come true. Remember that history is made by those who take up the challenge. Do not be discouraged if you fail today. Just pick yourselves up tomorrow and try again. And again.
Do not be consumed by selfish ambitions. But instead, always think what you can do for your society, your country and for humankind.
Science and technology that is used for personal gains or new innovations and technologies lacking even the very basic ethical standards can become a curse to mankind. This is why those aspiring to become scientists and engineers must first agonize over how they plan to better the lives of man before they learn how to conduct experiments. Once you’ve gone through this, you will then be eligible to become true leaders, with your character and technological know-how.
Remember the time you spent hunched over a book, in the classroom, in the library or in laboratories. Do not forget why you came here in the first place. Aim for higher goals in your respective fields.
With that, I wish you a wondrous and exciting new journey.
Again, congratulations and well done!
Thank you.
2009.03.13 View 14614 -
KAIST Wins First Prize at Recon Challenge of Int"l Magnetic Resonance Society
Professor Jong-chul Ye of the Department of Bio and Brain Engineering and Hong Jeong, a doctorate student, won the first prize at the Recon Challenge held as part of a workshop sponsored by the International Society for Magnetic Resonance in Medicine (ISMRM) held in Sedona, the United States.
The workshop took place under the theme of “data sampling and image reconstruction” on Jan. 25-28 in Sedona, Arizona, the United States. The KAIST team beat out major magnetic resonance imaging groups from the U.S. and Europe.
The Recon Challenge is a biennial competition highlighting different reconstruction strategies and metrics to compare them. ISMRM is an international, nonprofit, scientific association which promotes communication, research, development, and applications in the field of magnetic resonance in medicine and biology and other related topics.
At the competition, the KAIST team presented a new dynamic MRI algorithm called k-t FOCUSS that is optimal from a compressed sensing perspective. The main contribution of the method is extension of k-t FOCUSS to a more general framework with prediction and residual encoding. The prediction provides an initial estimate while the residual encoding takes care of the remaining residual signals.
2009.02.06 View 14637 -
Prof. Cho Identifies Dynamics of Signal Transportation System in Control of Cell Proliferation
KAIST, Jan. 22, 2009 -- A research team led by Prof. Kwang-Hyun Cho of the Department of Bio and Brain Engineering, KAIST, has identified a hidden mechanism of the dynamic behavior of signal transportation system involved in the control of cell proliferation, university authorities said.
The finding is expected to provide a clue to appropriately controlling the pathway of ERK protein which is known to play a significant role in causing and spreading cancer. The research was featured as the cover paper of the latest online edition of the Journal of Cell Science.
The Ras-Raf-MEK-ERK pathway (or ERK pathway) is an important signal transduction system involved in the control of cell proliferation, survival and differentiation. However, the dynamic regulation of the pathway by positive- and negative-feedback mechanism, in particular the functional role of Raf kinase inhibitor protein (RKIP) are still incompletely understood. RKIP is a physiological endogenous inhibitor of MEK phosphorylation by Raf kinases, but also participates in a positive-feedback loop in which ERK can inactivate RKIP.
"We attempted to unearth the hidden dynamics of these feedback mechanisms and to identify the functional role of RKIP through combined efforts of biochemical experiments and computer simulations based on an experimentally validated mechanical model," Prof. Cho was quoted as saying.
2009.02.03 View 12657 -
Six Organizations Join Forces to Induce Projected National Brain Institute to Daejeon
Six major organizations including KAIST have joined forces to help Daejeon City to win the government approval to build the envisioned Korean Brain Institute in Daedeok Research Complex.
The six organizations signed a memorandum of understanding on cooperating in establishing the government-funded institute built within the Daedeok Research Complex in the city of Daejeon, at KAIST on Jan. 14. The six organizations are KAIST, the Daejeon City Government, Korea Research Institute of Bioscience and Biotechnology, Korea Research Institute of Standard and Science, Asan Medical Center, and SK Corp., a pioneer in effective therapeutic invention for serious brain disorders.
The partnership of the six organizations is expected to bring a broad-based cooperation opportunities and create a massive synergy effect in the brain science researches and the development of new therapeutic treatment for brain disorders by combining their resources and infrastructures.
The six organizations have also built an international research network with such globally-renowned brain research institutions as RIKEN, a large natural sciences research institute in Japan, Max Plank Institute in Germany, Federal Institute of Technology, Lausanne, in Switzerland and Brain Research Institute of University of Queensland in Australia. The research network is under the support and guidance of Dennis Choi, a prominent neuroscientist who once served as the President of the Society for Neuroscience and is currently a professor in the Departments of Neurology and biology at Emory University.
The tentatively titled Korea Brain Institute is envisioned to help fight brain disorders and create Korea"s new growth engine, as well as lengthening life span, by conducting convergence researches in nero science, brain science and pharmacology. If the consortium of the six organizations wins the government approval to build the proposed institute within the Daedeok complex, the central government and the Daejeon city government are expected to pour a total of 329.7 billion won into the project by 2020.
2009.01.14 View 18372 -
KAIST Opens Cell Bench Research Center
KAIST opened a cell bench research center on the campus on Monday, Nov. 17, as a joint project with Samsung Electric Co. and Samsung Medical Center.
On hand at the opening ceremony were about 100 persons from the three organizations, including KAIST President Nam-Pyo Suh, Samsung Electric"s Chief Technology Officer (CTO) Byung-Cheon Koh and Samsung Medical Center Vice President Hyo-Geun Lim.
The newly-opened research center will be involved in the development of individually-tailored anti-cancer medicine using bio-inspired cell chips and technologies for clinical applications. Prof. Young-Ho Cho of the Department of Bio and Brain Engineering was named director of the research center.
"Top-notch professionals from the electronic industry, academia and the medical community have gathered together to establish this research center. We expect the center will open a new path for the science and technology community and the industry to combine their strengths and develop innovative anti-cancer therapeutics," said KAIST President Nam-Pyo Suh at the opening ceremony.
"The development of bio-cell chip technology represents a new challenge for the Samsung Electric which has focused on information technologies thus far. Through cooperation with KAIST and Samsung Medical Center, we expect to be able to develop a simple and efficient cure for cancer patients," commented Samsung Electric CTO Byung-Cheon Koh.
The research center will be initially concentrating on the development of cell chips for lung cancer, one of the primary causes of death for Koreans.
2008.11.17 View 16929 -
KAIST Research Team Unveils Method to Fabricate Photonic Janus Balls
A research team led by Prof. Seung-Man Yang of the Department of Chemical and Biomolecular Engineering has found a method to fabricate photonic Janus balls with isotropic structural colors.
The finding draws attention since the newly-fabricated photonic balls may prove useful pigments for the realization of e-paper or flexible electronic displays.
The breakthrough was published in the Nov. 3 edition of the science journal "Advanced Materials." The Nov. 6 issue of "Nature" also featured it as one of the research highlights under the title of "Future Pixels."
Prof. Yang"s research team found that tiny marbles, black on one side and colored on the other, can be made by "curing" suspensions of silica particles with an ultraviolet lamp. When an electric field is applied, the marbles line up so that the black sides all face upwards, which suggests they may prove useful pigments for flexible electronic displays.
The researchers suspended a flow of carbon-black particles mixed with silica and a transparent or colored silica flow in a resin that polymerizes under ultraviolet light. They then passed the mixture through a tiny see-through tube. The light solidified the silica and resin as balls with differently colored regions, each about 200 micrometers in diameter.
Over the last decades, the development of industrial platforms to artificially fabricate structural color pigments has been a pressing issue in the research areas of materials science and optics. Prof. Yang, who is also the director of the National Creative Research Initiative Center for Integrated Optofluidic Systems, has led the researches focused on fabrication of functional nano-materials through the process of assembling nano-building blocks into designed patterns.
The "complementary hybridization of optical and fluidic devices for integrated optofluidic systems" research was supported by a grant from the Creative Research Initiative Program of the Ministry of Education, Science & Technology.
2008.11.12 View 14944