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"KAIST Opens Up! Cutting-Edge Research Sites Revealed... 'OPEN KAIST 2025' to be Held
< 2025 OPEN KAIST Poster >
KAIST announced on the 23rd of October that it will hold the 'OPEN KAIST 2025' event, which publicly opens research labs, experiment rooms, and research centers on campus, for two days starting from October 30th at the main campus in Daejeon.
OPEN KAIST, which began in 2001 and marks its 13th event this year, is a representative research exhibition event operated biennially by the KAIST College of Engineering (Dean Jae Woo Lee), aiming for programs where citizens can directly experience the research environment and encounter science more closely.
This year, 16 departments and the KAIST Satellite Technology Research Center are participating, operating a total of 39 programs across five areas: △Experience/Demonstration △Lab Tour △Lecture △Department Introduction △Achievement Exhibition. In particular, the opportunities to directly observe and learn about core future fields such as AI, drones, brain science, nuclear energy, and semiconductors have been greatly enhanced.
Professor Jun Han's lab in the School of Computing will introduce technology where AI understands 3D space and constructs virtual environments. Participants will confirm the process of objects in a video being rearranged through a demonstration and learn about the role of AI in future society and the direction of development for spatial perception technology.
Professor Hyochoong Bang's lab in the Department of Aerospace Engineering will unveil next-generation drone technologies, including multicopters, unmanned helicopters, and Vertical Take-Off and Landing (VTOL) aircraft. Participants will understand their characteristics and usage environments, observe the already flight-tested technologies up close, and get a panoramic view of the changes the drone industry will bring.
Professor Minee Choi's lab in the Department of Brain and Cognitive Sciences offers an opportunity to experience the relationship between the brain and behavior. Participants will use an online application to create their own mini-brain, virtually examine the effects of exercise or vitamin intake on the brain, and directly experience research equipment and the experimental environment.
The Department of Mathematical Sciences has prepared two special lectures for youth. The lecture ‘Secrets Hidden in the Growth Data Patterns of Mammals’ will explore universal mathematical rules within the growth data of various mammals, from the American shrew mole weighing barely 10g to the blue whale exceeding 200 tons. The subsequent lecture, ‘Can This Knot Really Be Undone? — A Mathematical Way to Understand Space’, will explain the mathematical thought process for understanding space, using everyday knots like shoelaces as examples, tailored to the youth's level.
The Department of Nuclear and Quantum Engineering program includes radiation detection practice and a look at the potential utilization of next-generation nuclear technologies such as SMRs and microreactors. The Department of Industrial Design will introduce how design research connects to solving real-life problems through lab tours and exhibitions.
The Semiconductor Research Facility Tour allows participants to directly enter a cleanroom to observe the process equipment and manufacturing stages, experiencing the completion process of ultrafine semiconductors.
In addition, a variety of other programs are prepared, including a lecture by Professor Hyungjun Kim of the Moon Soul Graduate School of Future Strategy titled ‘Meta-Earth: Climate Crisis and Earth's Changes through Data’, the Department of Civil and Environmental Engineering’s ‘Centrifuge Modeling Test: Earthquake Research using Centrifugal Force’, and a game development special lecture and exhibition by the School of Computing's game production club 'Haze'.
< OPEN KAIST Event Scene >
Jae Woo Lee, Dean of the College of Engineering, stated, "We prepared this event to open up KAIST's education and research sites and provide visitors with an opportunity to directly experience and communicate about challenging and creative science and technology innovation."
KAIST President Kwang Hyung Lee said, "OPEN KAIST is a meaningful occasion to share the research environment with the public," and "I hope this event serves as an opportunity for youth and citizens to feel the value of science and foster dreams of future challenges."
For individual visitors, 'OPEN KAIST 2025' can be freely viewed according to the on-site situation by referring to the booklet distributed at the information desk on the day of the event, without prior application. Detailed schedules and programs can be checked on the website (https://openkaist.ac.kr).**
2025.10.23 View 2002 -
A World Led by Scientists and Engineers: The Joy of a Lecture Series
On the September 9th, KAIST announced a lecture series titled "The Joy of a World Led by Scientists and Engineers," where leading professors will share the joy, achievements, and social value they've found in their research. The series will run for a total of nine sessions until October 20th. This series was created to deliver a message of challenge and hope, especially to KAIST students and young people who have chosen, or are dreaming of choosing, a STEM field.
<Professor Dae-sik Kim giving a lecture on the joy of creating thinking machines>
The first lecture was held on the 8th. Professor Dae-Shik Kim of the Department of Electrical and Electronic Engineering spoke on the topic of "The Joy of Creating Thinking Machines" in the auditorium of the Digital Humanities and Social Sciences Building (N4).
September 10th: Professor Ha-woong Jeong from the Department of Physics will show how seemingly difficult physics applies to real life through various examples. Professor Jeong plans to introduce fascinating research cases in complex systems physics, including election prediction using Google search, epidemic prevention and new drug development through network analysis, fusion industry trend prediction based on patent data, and even analyzing the flocking of birds and hidden patterns in artworks with AI. He will emphasize that "complex systems, which are called 21st-century science, make physics approachable and enjoyable."
September 15th: Professor Hyun Myung of the Department of Electrical and Electronic Engineering will give a lecture on "The Joy of Making Robots Move." Professor Myung will share the story of his lifelong dream of robotics and the journey that led him to serious research. He will also share his experiences developing a cleaning robot at the Samsung Advanced Institute of Technology and creating robots that solve social problems, such as jellyfish-eradication and algae-removal robots, after joining KAIST. He will also tell the story of his recent successful startup, which developed "Dreamwalk," a controller for autonomous bipedal robots.
September 24th: Professor Jaeseung Jeong of the Department of Brain and Cognitive Sciences will present "The Joy of Brain Science: Reflecting on Happiness by Looking into the Brain." He will scientifically explore the essence of happiness, introducing recent research that shows happiness is not just a simple emotion but is deeply connected to brain neural circuits, chemical regulation, social relationships, and life attitudes. He plans to share insights from a brain science perspective on the conditions for happiness, which money and success alone can't provide.
The final lecture in the series will feature Professor Hyun-jeong Seok of the Department of Industrial Design. She will share the successful story of the KAIST mascot "Neopjuk-i" and how this once-ignored content grew into a beloved national character. This lecture aims to not only present scientific achievements but also to vividly share the joy and challenges felt by researchers, broadly publicizing the various ways science and engineering can make the world a more joyful place.
<Poster of A World Led by Scientists and Engineers: The Joy of a Lecture Series>
Young-chul Kim, Director of Student Policy, who planned the event, said, "This lecture series was organized to share the joy and value of science through the research journeys of our professors and to provide new inspiration to students and the public."
KAIST President Kwang-hyung Lee stated, "Students will feel a sense of pride in their decision to choose KAIST after directly listening to lectures from our leading professors. I hope this lecture series will be a meaningful opportunity to inspire students currently in or aspiring to a STEM field, and to show the achievements and successes that naturally result from professors enjoying their research."
Except for lectures where the entire or a portion of the content cannot be made public due to the nature of the research, a highlight video of the key contents will be produced and made available for public viewing on KAIST's official YouTube channel.
2025.09.09 View 1021 -
KAIST Proves Possibility of Preventing Hair Loss with Polyphenol Coating Technology
- KAIST's Professor Haeshin Lee's research team of the Department of Chemistry developed tannic scid-based hair coating technology
- Hair protein (hair and hair follicle) targeting delivery technology using polyphenol confirms a hair loss reduction effect of up to 90% to manifest within 7 Days
- This technology, first applied to 'Grabity' shampoo, proves effect of reducing hair loss chemically and physically
< Photo. (From left) KAIST Chemistry Department Ph.D. candidate Eunu Kim, Professor Haeshin Lee >
Hair loss is a problem that hundreds of millions of people around the world are experiencing, and has a significant psychological and social impact. KAIST researchers focused on the possibility that tannic acid, a type of natural polyphenol, could contribute to preventing hair loss, and through research, discovered that tannic acid is not a simple coating agent, but rather acts as an 'adhesion mediator' that alleviates hair loss.
KAIST (President Kwang-Hyung Lee) announced on the 6th that the Chemistry Department Professor Haeshin Lee's research team developed a new hair loss prevention technology that slowly releases hair loss-alleviating functional ingredients using tannic acid-based coating technology.
Hair loss includes androgenetic alopecia (AGA) and telogen effluvium (TE), and genetic, hormonal, and environmental factors work together, and there is currently a lack of effective treatments with few side effects.
Representative hair loss treatments, minoxidil and finasteride, show some effects, but require long-term use, and not only do their effects vary depending on the body type, but some users also experience side effects.
Professor Haeshin Lee's research team proved that tannic acid can strongly bind to keratin, the main protein in hair, and can be continuously attached to the hair surface, and confirmed that this can be used to release specific functional ingredients in a controlled manner.
In particular, the research team developed a combination that included functional ingredients for hair loss relief, such as salicylic acid (SCA), niacinamide (N), and dexpanthenol (DAL), and named it 'SCANDAL.' The research results showed that the Scandal complex combined with tannic acid is gradually released when it comes into contact with water and is delivered to the hair follicles along the hair surface.
< Figure 1. Schematic diagram of the hair loss relief mechanism by the tannic acid/SCANDAL complex. Tannic acid is a polyphenol compound containing a galol group that has a 360-degree adhesive function, and it binds to the hair surface on one side and binds to the hair loss relief functional ingredient SCANDAL on the other side to store it on the hair surface. Afterwards, when it comes into contact with moisture, SCANDAL is gradually released and delivered to the scalp and hair follicles to show the hair loss relief effect. >
The research team of Goodmona Clinic (Director: Geon Min Lee) applied the shampoo containing tannic acid/Scandal complex to 12 hair loss patients for 7 days, and observed a significant hair loss reduction effect in all clinicians. The results of the experiment showed a reduction in average hair loss of 56.2%, and there were cases where hair loss was reduced by up to 90.2%.
This suggests that tannic acid can be effective in alleviating hair loss by stably maintaining the Scandal component on the hair surface and gradually releasing it and delivering it to the hair follicles.
< Figure 2. When a tannic acid coating is applied to untreated bleached hair, a coating is formed as if the cuticles are tightly attached to each other. This was confirmed through X-ray photoelectron spectroscopy (XPS) analysis, and a decrease in signal intensity was observed in the surface analysis of nitrogen of amino acids contained in keratin protein after tannic acid coating. This proves that tannic acid successfully binds to the hair surface and covers the existing amino acids. To verify this more clearly, the oxidation-reduction reaction was induced through gold ion treatment, and as a result, the entire hair turned black, and it was confirmed that tannic acid reacted with gold ions on the hair surface to form a tannic acid-gold complex. >
Professor Haeshin Lee said, “We have successfully proven that tannic acid, a type of natural polyphenol, has a strong antioxidant effect and has the property of strongly binding to proteins, so it can act as a bio-adhesive.”
Professor Lee continued, “Although there have been cases of using it as a skin and protein coating material in previous studies, this study is the first case of combining with hair and delivering hair loss relief ingredients, and it was applied to ‘Grabity’ shampoo commercialized through Polyphenol Factory, a startup company. We are working to commercialize more diverse research results, such as shampoos that dramatically increase the strength of thin hair that breaks and products that straighten curly hair.”
< Figure 3. Tannic acid and the hair loss relief functional ingredient (SCANDAL) formed a stable complex through hydrogen bonding, and it was confirmed that tannic acid bound to the hair could effectively store SCANDAL. In addition, the results of transmission electron microscopy analysis of salicylic acid (SCA), niacinamide (N), and dexpanthenol (DAL) showed that all of them formed tannic acid-SCANDAL nanocomplexes. >
The results of this study, in which a Ph.D. candidate KAIST Department of Chemistry, Eunu Kim, was the first author and Professor Haeshin Lee was the corresponding author, were published in the online edition of the international academic journal ‘Advanced Materials Interfaces’ on January 6. (Paper title: Leveraging Multifaceted Polyphenol Interactions: An Approach for Hair Loss Mitigation) DOI: 10.1002/admi.202400851
< Figure 4. The hair loss relief functional ingredient (SCANDAL) stored on the hair surface with tannic acid was slowly released upon contact with moisture and delivered to the hair follicle along the hair surface. Salicylic acid (SCA) and niacinamide (N) were each released by more than 25% within 10 minutes. When shampoo containing tannic acid/SCANDAL complex was applied to the hair of 12 participants, hair loss was reduced by about 56.2% on average, and the reduction rate ranged from a minimum of 26.6% to a maximum of 90.2%. These results suggest that tannic acid stably binds SCANDAL to the hair surface, which allows for its gradual release into the hair follicle, resulting in a hair loss alleviation effect. >
This study was conducted with the support of Polyphenol Factory, a KAIST faculty startup company.
2025.02.06 View 11272 -
KAIST leads AI-based analysis on drug-drug interactions involving Paxlovid
KAIST (President Kwang Hyung Lee) announced on the 16th that an advanced AI-based drug interaction prediction technology developed by the Distinguished Professor Sang Yup Lee's research team in the Department of Biochemical Engineering that analyzed the interaction between the PaxlovidTM ingredients that are used as COVID-19 treatment and other prescription drugs was published as a thesis. This paper was published in the online edition of 「Proceedings of the National Academy of Sciences of America」 (PNAS), an internationally renowned academic journal, on the 13th of March.
* Thesis Title: Computational prediction of interactions between Paxlovid and prescription drugs (Authored by Yeji Kim (KAIST, co-first author), Jae Yong Ryu (Duksung Women's University, co-first author), Hyun Uk Kim (KAIST, co-first author), and Sang Yup Lee (KAIST, corresponding author))
In this study, the research team developed DeepDDI2, an advanced version of DeepDDI, an AI-based drug interaction prediction model they developed in 2018. DeepDDI2 is able to compute for and process a total of 113 drug-drug interaction (DDI) types, more than the 86 DDI types covered by the existing DeepDDI.
The research team used DeepDDI2 to predict possible interactions between the ingredients (ritonavir, nirmatrelvir) of Paxlovid*, a COVID-19 treatment, and other prescription drugs. The research team said that while among COVID-19 patients, high-risk patients with chronic diseases such as high blood pressure and diabetes are likely to be taking other drugs, drug-drug interactions and adverse drug reactions for Paxlovid have not been sufficiently analyzed, yet. This study was pursued in light of seeing how continued usage of the drug may lead to serious and unwanted complications.
* Paxlovid: Paxlovid is a COVID-19 treatment developed by Pfizer, an American pharmaceutical company, and received emergency use approval (EUA) from the US Food and Drug Administration (FDA) in December 2021.
The research team used DeepDDI2 to predict how Paxrovid's components, ritonavir and nirmatrelvir, would interact with 2,248 prescription drugs. As a result of the prediction, ritonavir was predicted to interact with 1,403 prescription drugs and nirmatrelvir with 673 drugs.
Using the prediction results, the research team proposed alternative drugs with the same mechanism but low drug interaction potential for prescription drugs with high adverse drug events (ADEs). Accordingly, 124 alternative drugs that could reduce the possible adverse DDI with ritonavir and 239 alternative drugs for nirmatrelvir were identified.
Through this research achievement, it became possible to use an deep learning technology to accurately predict drug-drug interactions (DDIs), and this is expected to play an important role in the digital healthcare, precision medicine and pharmaceutical industries by providing useful information in the process of developing new drugs and making prescriptions.
Distinguished Professor Sang Yup Lee said, "The results of this study are meaningful at times like when we would have to resort to using drugs that are developed in a hurry in the face of an urgent situations like the COVID-19 pandemic, that it is now possible to identify and take necessary actions against adverse drug reactions caused by drug-drug interactions very quickly.”
This research was carried out with the support of the KAIST New-Deal Project for COVID-19 Science and Technology and the Bio·Medical Technology Development Project supported by the Ministry of Science and ICT.
Figure 1. Results of drug interaction prediction between Paxlovid ingredients and representative approved drugs using DeepDDI2
2023.03.16 View 14030 -
KAIST Vaccine for Tick-Borne Disease ‘SFTS’ Protects Against Lethal Infection
A KAIST research team reported the development of a DNA vaccine for Severe Fever with Thrombocytopenia Syndrome Virus (SFTSV) which completely protects against lethal infection in ferrets. The team confirmed that ferrets immunized with DNA vaccines encoding all SFTSV proteins showed 100% survival rate without detectable viremia and did not develop any clinical symptoms. This study was published in Nature Communications on August 23.
Severe Fever with Thrombocytopenia Syndrome (SFTS) is a newly emerging tick-borne infectious disease. The disease causes fever, severe thrombocytopenia, leukocytopenia as well as vomiting and diarrhea. Severe cases end up with organ system failure often accompanied by hemorrhages, and its mortality rate stands at 10–20%.
The viral disease has been endemic to East Asia but the spread of the tick vector to North America increases the likelihood of potential outbreak beyond the Far East Asia. The World Health Organization (WHO) has also put SFTSV into the priority pathogen requiring urgent attention category. Currently, no vaccine has been available to prevent SFTS.
The research team led by Professor Su-Hyung Park noted that DNA vaccines induce broader immunity to multiple antigens than traditional ones. Moreover, DNA vaccines stimulate both T cell and antibody immunity, which make them suitable for vaccine development.
They constructed DNA vaccines that encode full-length Gn, Gc, N, NS, and RNA polymerase genes based on common sequences of 31 SFTSV strains isolated from patients. Their vaccine candidates induced both neutralizing antibody response and multifunctional SFTSV-specific T cell response in mice and ferrets.
To investigate the vaccine’s efficacy in vivo, the research team applied a recently developed ferret model that recapitulates fatal clinical symptoms in SFTSV infection in humans. Vaccinated ferrets were completely protected from lethal SFTSV challenge without SFTSV detection in their blood, whereas all control ferrets died within 10 days’ post-infection.
The KAIST team found that anti-envelope antibodies play an important role in protective immunity, suggesting that envelope glycoproteins of SFTSV may be the most effective antigens for inducing protective immunity. Moreover, the study revealed that T cell responses specific to non-envelope proteins of SFTSV also can contribute to protection against SFTSV infection.
Professor Park said, “This is the first study demonstrating complete protection against lethal SFTSV challenge using an immunocompetent, middle-sized animal model with clinical manifestations of SFTSV infection. We believe this study provides valuable insights into designing preventive vaccines for SFTSV.”
2020.01.31 View 7473 -
Education Innovation Day Reaffirms Rewarding of Excellence
Professors Tae-Eog Lee and Il-Chul Moon from the Department of Industrial & Systems Engineering received the Linkgenesis Best Teacher Award and the Soo-Young Lee Teaching Innovation Award on May 10. They were each awarded with 10 million KRW in prize money during the Education Innovation Day ceremony held at the Chung Kun-mo conference hall.
The award was endowed by KAIST Alumni Scholarship Chairman Hyung-Kyu Lim and KAIST Foundation Chairman Soo-Young Lee to support the innovation initiative and acknowledge faculty members who made significant contributions to educational innovation and benefited the general public though their innovations.
“KAIST’s vision for excellence and commitment to innovation is a game changer. Educational innovation is one of five pillars of Vision 2031, and it is our priority to foster critical and creative thinking students,” said President Sung-Chul Shin at the ceremony. All the awardees made presentation on their innovative projects and shared their ideas on better pedagogical methodology for next generation.
Professor Lee, dean of the KAIST Academy and the head of the Center for Excellence in Learning & Teaching was recognized for his contribution to enhancing educational quality through innovative learning and teaching methodology development. He has set up an Education 3.0 Initiative, an online education platform for flipped learning at KAIST.
Professor Moon also upgraded the online education platform to the 4.0 version and extended KAIST’s massive online courses through KOOC framework. This open platform offers more than 62 courses, with more than 170 thousand users registered since 2014.
Professor Song-Hong Park from the Department of Bio and Brain Engineering and Professor Jae-Woo Lee from the Department of Chemical and Biomolecular Engineering also won the Excellence Award.
2019.05.10 View 13297 -
Science, IT & Culture Volunteering Team at Cambodia
The Science, IT and Culture Volunteering Team, which is composed of 17 undergraduates, is visiting Cambodia January 1 to 16. Based at Hosanna High School in Phnom Penh, the KAIST volunteering team will participate in diverse science and IT classes as well as cultural events for Cambodian high school students.
The KAIST volunteering service is designed to improve Cambodian students’ science education including the areas of physics, chemistry, biology, earth science, as well as an increased exposure to IT technologies. For this service, the volunteering team has prepared for three months, making syllabi for the science classes in addition to planning Arduino IT classes and cultural performances, including K-pop dances and Korean traditional games.
The team will present various science experiments including smart electric fan and mini vehicles using Arduino. Before departing, the students made great efforts to ensure this service would be a success by taking a basic Khmer language class and studying safety education.
Se-Woong Oh, the head of the team said, "All our members are very excited to have the chance to share our knowledge with Cambodian students and help them learn science and IT technology. We hope this service will serve as an opportunity to understand a different culture as well. We made every effort to prepare for an activity we believe in."
(KAIST volunteer team with Hosanna High School students in Phnom Penh, Cambodia.)
2017.01.10 View 6805 -
KAIST Clinic's Dr. Joo-yeon Kim Receives Minister's Award
Dr. Joo-yeon Kim receives citation on “The Fifth Tuberculosis Prevention Day” for her contribution to campus tuberculosis outbreak prevention.
Dr. Joo-Yeon Kim, the general manager of medical services of KAIST Clinic, received an award from the Korean Ministry of Health and Welfare on March 24, 2015. The award ceremony took place during “The Fifth Tuberculosis Prevention Day,” hosted by the Ministry of Health and Welfare and supervised by the Korea Centers for Disease Control and Prevention. The event was held at Seoul Sejong Cultural Center with 300 distinguished guests in attendance including the Minister of Health and Welfare, the Committee Members of the National Assembly Health and Welfare Committee, and the Director of Korea Centers for Disease Control Prevention.
The award acknowledges Dr. Kim’s contribution to curbing a tuberculosis (TB) outbreak on KAIST’s campus in 2013. In cooperation with the Infectious Disease Prevention Committee in KAIST, Korea Centers for Disease Control and Prevention, and Yuseong Public Health Centre, Dr. Kim’s swift treatment and rigorous control of both TB and latent TB patients prevented further outbreaks.
The KAIST Clinic is the first university-affiliated clinic established in September 2010 after Neil Pappalardo, the President of MEDITEC in the US, donated $2.5 million to KAIST. It is currently running 10 medical departments including those in family medicine, stress clinic, and dentistry to provide medical care to students and staff.
Every March 24 marks the annual “Tuberculosis Prevention Day” and “World Tuberculosis Day.” The “World Tuberculosis Day” was established in 1982 to promote TB prevention and early detection. It commemorated the 100th year anniversary of the discovery of M. tuberculosis on March 24, 1883 by the German bacteriologist Robert Koch.
According to the TB Prevention Act (Article 4), Korea marks “The Tuberculosis Prevention Day” alongside the “World Tuberculosis Day” on March 24 to raise public awareness of the magnitude of the disease and the importance of prevention.
2015.03.25 View 10317 -
"Modeling and Simulation of Discrete Event Systems" by Professor Byoung-Kyu Choi, Selected as Textbook by UC Berkeley
The book, "Modeling and Simulation of Discrete Event Systems," written by Professor Byoung-Kyu Choi from the Department of Industrial and Systems Engineering at KAIST, was selected as a textbook for the Department of Industrial Engineering at the University of California in Berkeley (UC Berkeley).It was published based on professor Choi’s lecture notes and has been used as a textbook for both undergraduate and graduate students at KAIST.Professor Lee W. Schruben from the Department of Industrial Engineering at UC Berkeley said, “It was selected as a textbook for the discrete event simulation course since it shows outstanding educational methodology as well as academic values.”Professor Choi said, “This is the first case of an American university choosing a Korean industrial engineering publication as a textbook. We should be proud of the high evaluation of KAIST’s Industrial and Systems Engineering Department.” The School of Engineering in UC Berkeley was ranked third in the Times Higher Education World University Rankings in 2013.
2014.01.29 View 10616 -
"2011 Korean Language and Culture Festival" held in commemoration of KAIST 40th Anniversary
“2011 Korean Language and Culture Festival” was hosted by KAIST from the 5th of October to the 8th of October for 4 days at various locations within campus and BaekJae Cultural Complex in Daejeon City. The festival was aimed at increasing foreigners’ understanding about Korean culture and language and at the same time, introduced about KAIST, the home of the best minds in Korea’s science and technology.
The festival was part of the KAIST 40th anniversary celebratory events, which included 1) Korean Speaking Competition, 2) Korean Traditional Music Performance by Daejeon City Orchestra, 3) Foreigners Talent Show, 4) Tour of BaekJae Cultural Complex, and others such as lecture given by Chairman Lee Cham of Korea Tourism Organization.
In the Korean Speaking Competition, 10 foreigners who passed the preliminaries competed by giving speeches with the theme on “Korea that I’ve experienced.” The speakers were given 5 minutes for speech, and their presentations were graded based on uniqueness, fluency, appropriateness, and fluidity in spoken Korean. 200,000 Korean Won was given to a winner as prize.
In addition, the chance for foreigners to visit the BaekJae Cultural Complex allowed them to experience firsthand “traditional Korean culture,” through which they had a good opportunity to develop a better understanding on Korea as a whole.
Director of KAIST Language Center Michael Park commented, “The festival was a meaningful and important occasion for foreigners to appreciate Korean culture and language, and it would be a great step towards foreigners’ gaining a solid understanding of Korean culture and language to the extent that they become to know better about DaeJeon, the city they live in.”
2011.10.10 View 11574 -
International Center was built to promote greater exchanges and collaborations between the international community and KAIST.
On July 9, 2010, KAIST held an opening ceremony for the construction of International Center. The Center will serve as an internal and external liaison for the university, providing a source of assistance to faculty, administrators, and students on matters related to international activities and initiatives. It will also pursue greater exchanges and collaborations between the international community and KAIST.
The facility accommodates various meetings, exhibitions, library, language services, and other amenities. The International Cooperation Team of KAIST will be moved into this building and provide a variety of services, such as immigration regulations, cultural adjustment, employment, to assist international students, scholars, faculty, and staff at KAIST, as well as Korean students seeking opportunities to study, work, or travel abroad. An international nursery school will also be inside the building so that foreign faculty and students with children can have convenience and quality child care while they are teaching or studying.
At the center will be held many different kinds of international event—one among them is KAIST-ONE, a festival held twice a year in spring and fall to introduce and share culture, education, and food of the global community at KAIST.
2010.07.19 View 16887 -
KAIST Ranked Seventh in Chosun-QS 2009 Asian University Rankings
- Major Criteria in Research, Education, Globalization
KAIST ranked top in Korea and seventh in Asia in a ranking compiled jointly by the Chosun Ilbo, a major Korean daily, and global university evaluation institute QS of Britain.
In the rankings released on Tuesday (May 12), KAIST scored 94.9 based on the full 100 of the top-ranking university, the University of Hong Kong. KAIST was closely followed by Seoul National University (SNU), which ranked 8th in the Asian ranking. KAIST outpaced SNU in terms of globalization, but lagged behind in terms of peer review and recruiters review.
The Chosun Ilbo said that KAIST achieved the distinction by encouraging competition among research professors, introducing competitive educational systems such as conducting all classes in English, and speeding up globalization drive based on a strong leadership of President Nam-Pyo Suh.
In an interview with the daily published on the same day, President Nam-Pyo Suh expressed enthusiasm for stepping up his university"s drive to make it one of the world"s leading research universities, without resting on its present reputation. "The goal of KAIST is to stand at the forefront in addressing critical problems facing the humanity in the 21st century. The problems include alternative energies and transportation and logistics. If we resolve these problems, KAIST will join the ranks of the world"s best universities," Suh said.
The evaluation, the only such survey in Asia, was conducted with 463 universities in 11 countries, including 106 in Korea. The universities were ranked for competitiveness in four categories -- research quality (60 percent), teaching quality (20 percent), graduate employability (10 percent) and international outlook (10 percent).
The top-ranked University of Hong Kong was followed by Chinese University of Hong Kong, Tokyo University, Hong Kong University of Science and Technology, and Osaka University.
The top 100 Asian universities include 17 Korean universities, 33 Japanese, 11 Chinese, seven Indian, six in Hong Kong and two in Singapore.
Universities were ranked through a quantitative analysis based on data submitted by the universities in March and a qualitative analysis based on the competitiveness of professors and graduates evaluated by about 3,100 academics and businesspeople around the world.
Meanwhile, KAIST was ranked 95th among top 200 universities of the world in the Times Higher Education-QS World University rankings in 2008. It ranked 34th in the area of engineering and information technology, and 46th in natural science.
2009.05.13 View 16539