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KAIST Agrees to Personnel Exchange with the Ministry of Economic Affairs of the Republic of China
A delegation from the Ministry of Economic Affairs (MOEA) of the Republic of China (ROC) visited KAIST on October 16, 2015. President Steve Kang of KAIST and Director General Yu-Ping Lien of the Department of Investment Services, MOEA, signed a memorandum of understanding (MOU) on exchanging personnel, recruiting and attracting top talents, and sharing job information. With the MOU, KAIST and MOEA will develop a mobility program for students in Korea and ROC to help them seek employment opportunities in both nations. Director General Lien hoped that the MOU would bring more of KAIST students in the information technology field to work in ROC. President Kang responded, “KAIST has fostered highly talented engineers and researchers across all fields of science and engineering. If these students can have a place in ROC to realize their potential, this certainly could benefit the two nations.” In the picture from left to right is Director General Yu-Ping Lien of the Department of Investment Services, the Ministry of Economic Affairs of the Republic of China and President Steve Kang of KAIST.
2015.10.17
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KAIST and Sejong City Goverment Agree to Establish a Graduate School of Medical Science and Engineering
KAIST and the government of Sejong City will cooperate to establish a graduate school of medical science and engineering. On June 11, 2015, President Steve Kang of KAIST and Mayor Choon-Hee Lee of Sejong City signed a memorandum of understanding at the city hall of Sejong to establish the school. Under the agreement, the two organizations will work out details to establish the graduate school in Sejong on such issues as administrative assistance, financial support, curriculum development, and the creation of an environment conducive to the growth of medical science. President Kang said, “Once this graduate school is established, KAIST will be able to offer Korea and the world top-notch researchers in the field of medical science. I have high hopes that the school will produce high-impact research breakthroughs and lead in the advancement of interdisciplinary studies in biotechnology.” In the picture below, President Steve Kang of KAIST (third from the left) holds the signed memorandum of understanding with Mayor Choon-Hee Lee of Sejong (fourth from the left).
2015.06.16
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KAIST to support the Genetic Donguibogam Research Project for global market entry of a new natural drug produced by Green Cross Corporation HS
In the wake of the spread of the Middle East Respiratory Syndrome (MERS), sales of immune-enhancing products in Korea such as red and white ginseng have risen dramatically. Ginseng is one of Korea’s major health supplement it exports, but due to the lack of precise scientific knowledge of its mechanism, sales of ginseng account for less than 2% of the global market share. The Genetic Donguibogam Research Project represents a group of research initiatives to study genes and environmental factors that contribute to diseases and to discover alternative treatments through Eastern medicine. The project is being led by KAIST’s Department of Bio & Brain Engineering Professor Do-Heon Lee. Professor Lee and Chief Executive Officer Young-Hyo Yoo of Green Cross Corporation HS, a Korean pharmaceutical company, signed a memorandum of understanding (MOU), as well as a non-disclosure agreement (NDA) to develop a naturally derived drug with an enhanced ginsenoside, pharmacological compounds of ginseng, for the global market entry of BST204 on June 10, 2015. Donguibogam is the traditional Korean source for the principles and practice of Eastern medicine, which was compiled by the royal physician Heo Jun and first published in 1613 during the Joseon Dynasty of Korea. Cooperating with Green Cross Co., HS, KAIST researchers will use a multi-component, multi-target (MCMT)-based development platform to produce the new natural drug, BST204. This cooperation is expected to assist the entry of the drug into the European market. Green Cross Co., HS has applied a bio-conversion technique to ginseng to develop BST204, which is a drug with enhanced active constituent of aginsenosides. The drug is the first produced by any Korean pharmaceutical company to complete the first phase of clinical trials in Germany and is about to start the second phase of trials. Professor Do-Heon Lee, the Director of the project said, “Genetic Donguibogam Research Project seeks to create new innovative healthcare material for the future using integrated fundamental technologies such as virtual human body computer modelling and multi-omics to explain the mechanism in which natural ingredients affect the human body.” He continued, “Especially, by employing the virtual human body computer modelling, we can develop an innovative new technology that will greatly assist Korean pharmaceutical industry and make it the platform technology in entering global markets.” Young-Hyo Yoo, the CEO of Green Cross Co., HS, said, “For a new naturally derived drug to be acknowledged in the global market, such as Europe and the US, its mechanism, as well as its effectiveness and safety, should be proven. However, it is difficult and costly to explain the mechanism in which the complex composition of a natural substance influences the body. Innovative technology is needed to solve this problem.” Professor Do-Heon Lee (left in the picture), the Director of Genetic Donguibogam Research Project, stands abreast Young-Hyo Yoo (right in the picture), the CEO of Green Cross Co., HS.
2015.06.10
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KAIST and Audi Korea Sign a Memorandum of Understanding to Establish a Startup Incubator
For the next five years, Audi Korea will provide USD 250,000 for the startup program. KAIST recently signed a memorandum of understanding (MOU) with Audi Korea to establish a student-led startup program, the Audi-KAIST Innovation Lounge, to promote design and product development on May 19, 2015, at the KAIST Institute of Entrepreneurship on campus. Directed by Professor Sang-Min Bae of the Industrial Design Department (IDD), the Audi-KAIST Innovation Lounge will operate a global business incubator where IDD undergraduate and graduate students cultivate their entrepreneurship skills and explore business opportunities to develop commercially-applicable product designs. Audi Korea will invest USD 250,000 in the Innovation Lounge project for the next five years. Students will receive support from the Lounge to turn their ideas, class assignments, and graduation theses into business products through a full cycle of the product development process such as inquiry, prototype development, and commercialization. The Lounge will also provide students with mentoring services from industry professionals and experts who can assist the students in finding design solutions and building prototypes using 3D printers. The Dean of IDD, Kun-Pyo Lee, said, “Audi has been known for its initiatives which blend technological innovations into design. Likewise, our department offers students an integrative approach to design education and research which incorporates human factors and technology as important features in the design process. I believe that the Audi-KAIST Innovation Lounge will help us lead such efforts in the future.” Professor Bae added, “This MOU is quite significant because it shows an excellent collaboration between academia and industry. Ideas created in universities should not be left to languish as just an idea or research. Rather, they should be utilized as ways to serve the needs of our society, and to do so, it is important for the government and companies to pay more attention to these interactions taking place between academia and private sectors.” The Head of Marketing at Audi Korea, Jorg Dietzel, said, “As seen in our corporate slogan, "Advancement through Technology," Audi has grown through numerous technological innovations. I hope Audi Korea can contribute to the support of KAIST students from the Industrial Design Department to realize their dreams as future entrepreneurs and bring more innovative ideas to their field.” Picture: Jorg Dietzel (fifth from the left), the Head of Marketing at Audi Korea, and Kun-Pyo Lee (sixth from the left), the Dean of Industrial Design Department, KAIST, pose together right after signing an agreement to create the Audi-KAIST Innovation Lounge on May 19, 2015.
2015.05.22
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KAIST and the Naver Corporation Agree to Cooperate in Computer Science
KAIST and Naver, a Korean Internet corporation, concluded a memorandum of understanding (MOU) on April 17, 2015, to cooperate in advancing research and education in computer science. Doo-Hwan Bae (pictured on the right below), the Dean of School of Computing at KAIST and Jong-Mok Park (pictured on left), the Director of Technical Cooperation at Naver, signed the MOU. Under this agreement, the two organizations will foster computer scientists and engineers, conduct joint research projects, and develop training programs for entrepreneurs. KAIST and Naver will organize a steering committee to lay out further details on the agreement.
2015.04.17
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Ethiopian Minister of Education Visits KAIST
An Ethiopian delegation headed by the Minister of Education visited the KAIST campus on February 26, 2015. The delegation consisted of Mr. Demitu Hambisa, Minister of Education, Mr. Dibaba Abdetta, Ethiopian Ambassador to Korea, Dr. Jang-Kyu Lee, President of Adama Science and Technology University (ASTU), and Mr. Nurelegne Tefera, President of Addis Ababa Science and Technology University (AASTU). Minister Hambisa explained the purpose of his visit, “We would like to learn about what KAIST has achieved over the years for Korea and its people and increase exchanges and cooperation between our universities and KAIST.” KAIST and the two Ethiopian universities, ASTU and AASTU, signed memoranda of understanding for cooperative programs in science and engineering education. Established in 1993, ASTU appointed Dr. Jang-Kyu Lee, a former professor from Seoul National University, Korea, to become its president since 2011. President Lee is the first Korean ever to have served the institution.
2015.02.26
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KAIST wins second place in unmanned boat competition
KAIST took second place in an international competition to promote technologies of the autonomous underwater vehicle (AUV). Professor Jin-hwan Kim’s research team from KAIST’s Ocean Systems Engineering Department won the second place in Maritime RobotX Challenge which took place for the first time from October 20 - 26 in Marina Bay, Singapore. Along with automobiles and drones, the necessity for unmanned boats has grown. To encourage and examine the development of these technologies, the U.S. Office of Naval Research decided to organize an unmanned boat competition which took place for the first time this year. After three teams were selected from a domestic competition in each countries, a total of fifteen teams from five countries from the Pacific Rim including Korea, the United States, Australia, Japan, and Singapore competed. Teams from such universities as MIT, Tokyo University, Tokyo Institute of Technology, National University of Singapore, Nanyang Technological University, and Queensland University of Technology participated. In addition to KAIST, Seoul National University and Ulsan University participated. Using a 4.5 meters long and 2.5 meters wide unmanned boat provided by the organizer, each team had to implement an integrated system that combined a propulsion system, hardware, and autonomous software. Each team’s vessel had to perform tasks without manual control, employing autonomous driving through recognition of the course, searching underwater for acoustic sources, automatically approaching piers, remote observation of buoy, and avoidance and detection of obstacles. Although KAIST outpaced MIT in the semifinal which selected six out of fifteen teams, it won the second place in the final. As well as winning second prize, KAIST also won best website prize and a special prize from the competition sponsor, Northrop Grumman Corporation, an American defense technology company, totaling 16,500 U.S. dollars of prize money. The Vice President for Planning and Budget, Professor Seungbin Park said, “It was a great opportunity to showcase the advanced unmanned robot technology of Korea.” He added that “this raised KAIST’s reputation as a global research oriented university.” Professor Kim commented, “Along with automobiles and drones, the necessity for the development of unmanned ocean vehicles such as unmanned boats and submarines are recognized these days.” He added that “the use of unmanned boats will make the process of channel investigation, ocean exploration, surveillance over water territories safer and more effective.” Professor Kim’s team was sponsored by the U.S. Office of Naval Research, Samsung Heavy Industries, Sonar Tech, Daeyang Electric, and Red-one Technology. KAIST Team's Unmanned Boat The Competition's Missions
2014.12.12
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The Hancom and KAIST Research Center Opens
KAIST and Hancom, Inc., an office suite developer in Korea, established a joint research center to develop software technology and its related industry. President Steve Kang of KAIST, Sang-Chul Kim, the Chief Executive Officer (CEO) of Hancom, and professors from the computer science department at KAIST attended a ceremony to celebrate the opening of the center. KAIST and Hancom signed a memorandum of understanding in April this year for the development of software industry in Korea, and based on the agreement, the two institutions identified five research projects and created a research center to implement them effectively. President Kang said, “I hope that the research center will serve as a good example of university and industry collaboration. To that end, we will provide our support to the maximum extent possible to lead the software industry in Korea. We are also planning to hold a joint workshop on the latest trends in software technology and on the education of software developers.” Established in 1990, Hancom created the native word processor for the Korean language called “Hangul.”
2014.11.05
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Cyber Security MOU between KAIST and Yeungnam University College (YNC)
The KAIST Cyber Security Research Center and the Department of Cyber Security at Yeungnam University College (YNC) signed a memorandum of understating (MOU) on May 12, 2014 at the YNC campus to cooperate in cyber security education and technological development. In the MOU, KAIST and YNC agreed to collaborate for the training of professional personnel and the development of new technology for the strengthening of national cyber security, as well as the common use of mutual research environments and group participation of core tasks. As a result of the MOU interaction, the KAIST Cyber Security Research Center and the Department of Cyber Security at YNC will pursue mutual development through the joint management of the latest educational training programs for cyber security and information protection and the development of up-to-date security technology suited for nuclear energy infrastructures and regional electronic industry complexes. They will also hold joint research seminars and forums. The Director of the Cyber Security Research Center, Professor Dae-Joon Joo (KAIST Graduate School of Information Security) commented, “With a great deal of experience in the field of cyber security, KAIST, and its excellence in education and research areas, will contribute in many ways, such as increasing the supply of expert cyber-security personnel in the Daegu-Kyungbuk region and actively participate toward greater national cyber security through this collaboration agreement.” [Picture] Dae-Jun Joo, KAIST Cyber Security Research Center Director (Left) and Hyun-Jig Song (Right), Chief of Industry-Academic Cooperation Foundation at Yeungnam University College, pose after signing the cooperation agreement on cyber security.
2014.05.17
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Professor Kyung-Wook Paik Receives the Best Presentation Award from 2014 Pan Pacific Symposium
The Surface Mount Technology Association (SMTA) hosted its 19th Annual Pan Pacific Microelectronics Symposium on February 11-13, 2014 in Hawaii. The 2014 conference, promoting international technical exchange and extensive networking among microelectronics professionals from around the world, presented over 50 papers from 17 countries. Professor Kyung-Wook Paik of Materials Science Engineering at KAIST received the Best Presentation Award for his paper titled, “Novel Nanofiber Anisotropic Films for Nine Pitch Assembly” at the conference. SMTA is an international network of professionals in electronics assembly technologies, including Microsystems, emerging technologies, and related business operations.
2014.03.17
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KAIST developed an extremely low-powered, high-performance head-mounted display embedding an augmented reality chip
Walking around the streets searching for a place to eat will be no hassle when a head-mounted display (HMD) becomes affordable and ubiquitous. Researchers at the Korea Advanced Institute of Science and Technology (KAIST) developed K-Glass, a wearable, hands-free HMD that enables users to find restaurants while checking out their menus. If the user of K-Glass walks up to a restaurant and looks at the name of the restaurant, today’s menu and a 3D image of food pop up. The Glass can even show the number of tables available inside the restaurant. K-Glass makes this possible because of its built-in augmented reality (AR) processor. Unlike virtual reality which replaces the real world with a computer-simulated environment, AR incorporates digital data generated by the computer into the reality of a user. With the computer-made sensory inputs such as sound, video, graphics or GPS data, the user’s real and physical world becomes live and interactive. Augmentation takes place in real-time and in semantic context with surrounding environments, such as a menu list overlain on the signboard of a restaurant when the user passes by it, not an airplane flight schedule, which is irrelevant information, displayed. Most commonly, location-based or computer-vision services are used in order to generate AR effects. Location-based services activate motion sensors to identify the user’s surroundings, whereas computer-vision uses algorithms such as facial, pattern, and optical character recognition, or object and motion tracking to distinguish images and objects. Many of the current HMDs deliver augmented reality experiences employing location-based services by scanning the markers or barcodes printed on the back of objects. The AR system tracks the codes or markers to identify objects and then align them with virtual reality. However, this AR algorithm is difficult to use for the objects or spaces which do not have barcodes, QR codes, or markers, particularly those in outdoor environments and thus cannot be recognized. To solve this problem, Hoi-Jun Yoo, Professor of Electrical Engineering at KAIST and his team developed, for the first time in the world, an AR chip that works just like human vision. This processor is based on the Visual Attention Model (VAM) that duplicates the ability of human brain to process visual data. VAM, almost unconsciously or automatically, disentangles the most salient and relevant information about the environment in which human vision operates, thereby eliminating unnecessary data unless they must be processed. In return, the processor can dramatically speed up the computation of complex AR algorithms. The AR processor has a data processing network similar to that of a human brain’s central nervous system. When the human brain perceives visual data, different sets of neurons, all connected, work concurrently on each fragment of a decision-making process; one group’s work is relayed to other group of neurons for the next round of the process, which continues until a set of decider neurons determines the character of the data. Likewise, the artificial neural network allows parallel data processing, alleviating data congestion and reducing power consumption significantly. KAIST’s AR processor, which is produced using the 65 nm (nanometers) manufacturing process with the area of 32 mm2, delivers 1.22 TOPS (tera-operations per second) peak performance when running at 250 MHz and consumes 778 miliWatts on a 1.2V power supply. The ultra-low power processor shows 1.57 TOPS/W high efficiency rate of energy consumption under the real-time operation of 30fps/720p video camera, a 76% improvement in power conservation over other devices. The HMDs, available on the market including the Project Glass whose battery lasts only for two hours, have revealed so far poor performance. Professor Yoo said, “Our processor can work for long hours without sacrificing K-Glass’s high performance, an ideal mobile gadget or wearable computer, which users can wear for almost the whole day.” He further commented:“HMDs will become the next mobile device, eventually taking over smartphones. Their markets have been growing fast, and it’s really a matter of time before mobile users will eventually embrace an optical see-through HMD as part of their daily use. Through augmented reality, we will have richer, deeper, and more powerful reality in all aspects of our life from education, business, and entertainment to art and culture.” The KAIST team presented a research paper at the International Solid-State Circuits Conference (ISSCC) held on February 9-13, 2014 in San Francisco, CA, which is entitled “1.22TOPS and 1.52mW/MHz Augmented Reality Multi-Core Processor with Neural Network NoC for HMD Applications.”Youtube Link: http://www.youtube.com/watch?v=wSqY30FOu2s&feature=c4-overview&list=UUirZA3OFhxP4YFreIJkTtXw
2014.02.20
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Education 3.0: a change from teaching to learning
On October 16th, educationalists and Presidents from research-oriented universities around the world gathered in Seoul to attend the 2012 International Presidential Forum on Global Research Universities, where KAIST introduced its new smart learning model ‘Education 3.0’. Smart learning ‘Education 3.0’ allows students to learn from lectures given by renowned scholars through the internet and encouraged student to professor discussion. This technology was created to deal with the ever-changing classroom dynamics due to the advancement of IT technology.‘Education 3.0’ differs from the traditional teaching-based lectures in that it offers a platform for self-directed learning. KAIST is working to spread ‘Education 3.0’ by providing specialized classrooms and running an online learning platform that complements it. This spring, KAIST adopted ‘Education 3.0’ in 3 courses and received high praise from students (a rating of 4.4 out of 5.0). Hence, the number of courses was extended to 10 this fall. Through this gathering, KAIST hopes to develop cooperative connections between foreign universities to share learning platforms and contents. On October 16th, KAIST signed a MOU with Denmark’s Danmarks Tekniske Universitet (DTU) to provide a cyber-dual degree program using ‘Education 3.0’. Hence, students studying Web science and Digital Media in either KAIST or DTU can receive degrees from both schools without physically visiting them. President Suh said that “‘Education 3.0’ provides a new paradigm of learning which moves from the tradition cramming method of teaching to self-directed learning” and that this model will help the globalization of KAIST by initiating global cooperation with foreign universities. Over 60 Universities from 27 different countries attended the forum, including ULCA and Caltech from the United States, DTU from Denmark, University of Southampton and University of York from England, University of Queensland from Australia, Nanyang Technological University from Singapore and Tokyo Institute of Technology from Japan. Members from Korean Universities such as Hanyang University, Handong Global University, Sogang University and Sookmyung Women"s University also attended.
2012.10.25
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