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Next-Generation Small Satellite System Design Review (SDR) is Held
The Satellite Technology Research Center (SaTReC) held a ‘Next-Generation Small Satellite System Design Review (SDR)’ on June 26th. During the review, experts evaluated the system, bus, payload, ground station and projectile to systematically supervise the development status of the next-generation small satellite. The ‘Next-Generation Small Satellite’ project started on June 2012, and aims to improve small satellite technology and promote space science research. This project is sponsored by the Ministry of Science and Technology and its development is supervised by ICT & Future Planning and KAIST SaTReC.
2013.08.02
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KAIST and Seoul National University Agree to Expand Cooperation in Education and Research
The presidents of two top-notch universities in Korea, KAIST and Seoul National University (SNU), met on July 23rd at the SNU campus and agreed to expand their academic cooperation to promote the univresities" mutual development. To start, President Yeon-Cheon Oh of SNU proposed a student exchange program through which SNU students can take courses at KAIST for six months. In return, President Steve Kang suggested that KAIST establish a liaison office on the SNU campus to facilitate better communication between two universities, thereby developing more exchange programs for research and education.Additionally, the two public universities will set up a task force to implement the agreement, conduct joint research programs, and hold regular meetings between their faculty members.President Kang said, “SNU has superb academic and research programs not only in the fields of science and technology but also in the humanities, arts, and social sciences. KAIST will surely benefit from SNU’s excellence in a broad range of academic disciplines, and SNU will have an opportunity to capitalize on KAIST’s expertise in science, engineering, and technology to enhance its growth.”At the conclusion of their consultation, the presidents expressed the hope that the agreement will strengthen the two institutions" capacity for competitiveness and globalization, preparing them to compete with leading universities in the world.
2013.07.25
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Prof. Song Chong received the IEEE William R. Bennett Prize Paper Award
The IEEE (Institute of Electrical and Electronics Engineers) Communications Society (ComSoc), a renowned global network of professionals with a common interest in advancing communications technologies, has announced the winner of the 2013 William R. Bennett Prize in the field of communications networking. The prize was given to a Korean research team led by Song Chong, Professor of Electrical Engineering at KAIST and Injong Rhee, Professor of Computer Science at North Carolina State University. In addition, Dr. Minsu Shin, Dr. Seongik Hong, and Dr. Seong Joon Kim of Samsung Electronics Co., Ltd. as well as Professor Kyunghan Lee from Ulsan National Institute of Science and Technology were recognized for their contribution. The William R. Bennett Prize for communications networking has been awarded each year since 1994 in recognition of the best paper published in any journal financially sponsored or co-sponsored by ComSoc in the previous three calendar years. Only one paper per year is selected based on its quality, originality, scientific citation index, and peer reviews. Among the previous award winners are Robert Gallager of MIT, and Steven Low of the California Institute of Technology, and Kang G. Shin of the University of Michigan. The Korean research team’s paper, On the Levy-Walk Nature of Human Mobility, was published in the June 2011 issue of IEEE/ACM Transactions on Networking, a bimonthly journal co-sponsored by the IEEE ComSoc, the IEEE Computer Society, and the Association for Computing Machinery (ACM) with its Special Interest Group on Data Communications (SIGCOMM). In the paper, the research team proposed a new statistical model to effectively analyze the pattern of individual human mobility in daily life. The team handed out GPS (global positioning system) devices to 100 participants residing in five different university campuses in Korea and the US and collected data on their movements for 226 days. The mobility pattern obtained from the experiment predicted accurately how the participants actually moved around during their routines. Since publication, the paper has been cited by other papers approximately 350 times. The team’s research results will apply to many fields such as the prevention and control of epidemics, the design of efficient communications networks, and the development of urban and transportation system. The research team received the award on June 10th at the 2013 IEEE International Conference on Communications (ICC) held in Budapest, Hungary, from June 9-13, 2013. Professor Song Chong
2013.07.06
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KAIST Placed 3rd in the World's Best 100 Emerging Universities
The Times Higher Education (THE) published its world university rankings on June 20, 2013. It is a list of the best 100 universities whose histories are 50 years old or younger. KAIST was ranked 3rd in the list, two places up from the 5th last year. Forbes and Reuters carried a story on the top ten emerging universities out of the listed 100 institutions, highlighting strong showings in the Asian region. For the articles, please see the attached file (Forbes) or click the link (Reuters) below: http://www.reuters.com/article/2013/06/19/education-university-rankings-idUSL2N0EU1HZ20130619
2013.06.22
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President Sung-Mo Steve Kang received an alumni award, PINNACLE, from his alma mater.
The following press release is provided by courtesy of Fairleigh Dickinson University:Teaneck, NJ (June 12, 2013) The FDU PINNACLE Society recognized the contributions and achievements of three distinguished alumni at a ceremony preceding the Charter Day reception and dinner on June 7, 2013. This year’s PINNACLE honorees are: Sung-Mo “Steve” Kang, BSEE’70, president, Korea Advanced Institute of Science and Technology, Daejeon, South Korea; Neil Koenig, BS’72, co-founder and managing partner, Imowitz Koenig & Co., LLP, New York City; and Robert Silberling, BA’69, special adviser to the CEO, T&M Protection Resources, LLC, New York City. The annual class of The PINNACLE is chosen by past inductees, based on the following criteria: success or distinction in one’s chosen field of endeavor, significant contributions to society and humanity through public or humanitarian service and outstanding service to the University or reflection of the unique character of FDU in one’s life.The PINNACLE was introduced by Fairleigh Dickinson University in 1989 to formally recognize and acknowledge the contributions and achievements of its most distinguished alumni. Today’s ceremony honors the newest members of what has become an ongoing organization for leading FDU alumni. Since its founding in 1942, the University has been committed to providing its students with the education, values and encouragement needed to become active and contributing members of the larger world community. More than 118,000 FDU alumni have gone on to enrich and improve society through their work, volunteer activities and personal actions. Among their ranks, a select few have achieved the highest possible level of performance — the pinnacle — in their respective pursuits. From left are PINNACLE inductees Sung-Mo “Steve” Kang, Neil Koenig, FDU President Sheldon Drucker and Robert Silberling. Photo Credit: Fairleigh Dickinson University
2013.06.14
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KAIST Department of Mechanical Engineering Ranked in 19th Place
- Ranked in 19th place in 2013 Quacquarelli Symonds (QS) World University Rankings by Engineering, Mechanical, Aeronautical and Manufacturing Subjects - KAIST ranked 19th in 2013 QS World University Rankings by Subject in Engineering, Mechanical, Aeronautical and Manufacturing Subjects. This is great progress compared to last year’s 51st-100th rank. The 2013 QS World University Rankings used four indicators, including academic reputation, employer reputation, citations per paper, and H-index citations, to assess 2,858 universities in the world, and evaluated up to 200th place in 30 academic subjects. KAIST earned high remarks from the H-index citations indicator, which is a new criteria introduced in the employer reputation rating. Moreover, the employer reputation section has risen sharply compared to the previous year. The H-index measures qualitatively and quantitatively the research outcomes of the researchers and assesses the number of papers written per professor and the average citation frequency of the papers. The proportions of the indicators differ by subjects. For the mechanical engineering field, they weigh 40%, 30%, 15%, and 15%, respectively. Rank Academic Employer Citations per paper H-index Citations Score 19 (51-100) 68.1 (78.9) 89.1 (60.2) 84.6 (83.1) 93.1 (N/A) 80.4 (74.6)
2013.06.10
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Technology for Non-Breaking Smartphone Display Developed
High-strength plastic display has been developed by applying a glass-fiber fabric. “Will bring about innovation to the field by replacing glass substrates” It is now possible to manufacture non-breaking smartphone display. Heavy glass substrates of large-screen televisions will be replaced with light plastic films. Professor Choon Sup Yoon from KAIST’s Department of Physics and KAIST Institute for Information Technology Convergence has developed the technology for high-strength plastic substrates to replace glass displays. The plastic substrate created by Professor Yoon and his research team have greatly enhanced needed properties of heat resistance, transparency, flexibility, inner chemical capability, and tensile strength. Although the material retains flexibility as a native advantage of plastic film, its tensile strength is three times greater than that of normal glass, which is a degree similar to tempered glass. In addition, Professor Yoon’s substrate is as colorless and transparent as glass and resists heat up to 450℃, while its thermal expansivity is only 10% to 20% of existing plastics. Glass substrates are currently used in practically every display such as mobile phone screens, televisions, and computer monitors for having smooth surface and satisfying basic conditions for display substrates. However, as glass substrates are heavy and easily broken, researchers studied colorless and transparent plastic polyimide films to replace glass substrates for their excellent thermal and chemical stability. Nonetheless, colorless and transparent polyimide films do not have sufficient heat resistance and mechanical solidity. To resolve this problem, polyimide films are impregnated with glass-fiber fabrics, but it was far from commercialization as the impregnation exacerbates the roughness of surface and light transmittance. The roughness of the surface increases as the solvent evaporates in the impregnation process, resulting in surface roughness of around 0.4μm. The downturn in light transmittance is due to light scattering effect by the discording refractive index of polyimide film and glass-fiber fabric. Professor Yoon’s research team resolved these issues by tuning the refractive indices of transparent polyimide film and glass-fiber fabric up to four decimal places, and by developing the technology of flattening the film’s surface roughness to a few nanometers. As a result, the research team achieved heat expansivity of 11ppm/℃, surface roughness of 0.9nm, tensile strength of 250MPa, bending curvature radius of 2mm, and light transmittance at 90% with a 110μm-thick glass-fiber fabric impregnated transparent polyimide film substrate. “The developed substrate can not only replace the traditional glass substrate but also be applied as flexible display substrate,” said Professor Yoon in prospect, “it will bring about technological innovation in display industry as it can fundamentally resolve the issue of shattering mobile phone displays, reduce the weight and thickness of large-area televisions, and apply Roll to Roll process in display manufacture.” Supported by the Ministry of Knowledge Economy for five years, the technology has applied for 3 patents and is in discussion for technology transfer with related business. Figure 1. The according (left) and discording (right) refractive indices of glass-fiber fabric and polyimide film. The characters on the left are sharp and clear, but the characters on the right appear foggy. Figure 2. Picture of the developed glass-fiber fabric
2013.06.09
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A KAIST research team developed in vivo flexible large scale integrated circuits
Daejeon, Republic of Korea, May 6th, 2013–-A team led by Professor Keon Jae Lee from the Department of Materials Science and Engineering at KAIST has developed in vivo silicon-based flexible large scale integrated circuits (LSI) for bio-medical wireless communication. Silicon-based semiconductors have played significant roles in signal processing, nerve stimulation, memory storage, and wireless communication in implantable electronics. However, the rigid and bulky LSI chips have limited uses in in vivo devices due to incongruent contact with the curvilinear surfaces of human organs. Especially, artificial retinas recently approved by the Food and Drug Administration (refer to the press release of FDA"s artificial retina approval) require extremely flexible and slim LSI to incorporate it within the cramped area of the human eye. Although several research teams have fabricated flexible integrated circuits (ICs, tens of interconnected transistors) on plastics, their inaccurate nano-scale alignment on plastics has restricted the demonstration of flexible nano-transistors and their large scale interconnection for in vivo LSI applications such as main process unit (MPU), high density memory and wireless communication. Professor Lee"s team previously demonstrated fully functional flexible memory using ultrathin silicon membranes (Nano Letters, Flexible Memristive Memory Array on Plastic Substrates), however, its integration level and transistor size (over micron scale) have limited functional applications for flexible consumer electronics. Professor Keon Jae Lee"s team fabricated radio frequency integrated circuits (RFICs) interconnected with thousand nano-transistors on silicon wafer by state-of-the-art CMOS process, and then they removed the entire bottom substrate except top 100 nm active circuit layer by wet chemical etching. The flexible RF switches for wireless communication were monolithically encapsulated with biocompatible liquid crystal polymers (LCPs) for in vivo bio-medical applications. Finally, they implanted the LCP encapsulated RFICs into live rats to demonstrate the stable operation of flexible devices under in vivo circumstances. Professor Lee said, "This work could provide an approach to flexible LSI for an ideal artificial retina system and other bio-medical devices. Moreover, the result represents an exciting technology with the strong potential to realize fully flexible consumer electronics such as application processor (AP) for mobile operating system, high-capacity memory, and wireless communication in the near future." This result was published in the May online issue of the American Chemical Society"s journal, ACS Nano (In vivo Flexible RFICs Monolithically Encapsulated with LCP). They are currently engaged in commercializing efforts of roll-to-roll printing of flexible LSI on large area plastic substrates. Movie at Youtube Link: Fabrication process for flexible LSI for flexible display, wearable computer and artificial retina for in vivo biomedical application http://www.youtube.com/watch?v=5PpbM7m2PPs&feature=youtu.be Applications of in Vivo Flexible Large Scale Integrated Circuits Top: In vivo flexible large scale integrated circuits (LSI); Bottom: Schematic of roll-to-roll printing of flexible LSI on large area plastics.
2013.06.09
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6th TEDxKAIST Held on May 11, 2013
The sixth TEDxKAIST (https://www.facebook.com/TEDxKAIST?fref=ts) took place on May 11, 2013. The event was held under the theme, “Choice between Birth and Death,” and the slogan, “B-C-D,” which was inspired from Jean Paul Satre’s quote, “Life is a choice between birth and death.” The following speakers gave talks on the choices they have made and the impacts on their lives: Sonya S. Kwak, Professor of the Industrial Design Department at Ehwa Women’s University; Meoung-Seok Oh, a college student majoring in dental technology and business at Korea University; SooA Yeo, CEO of “Chalk,” a social venture company that offers talent donations; and Jeong-Won Lee, a senior researcher at Medical Imaging Laboratory, Electronics and Telecommunications Research Institute (ETRI). According to the speakers, every day we make decisions, and these decisions affect not only our own lives, but also our society as a whole. Speakers and participants explored the underlying relations between the choices being made and the outcome resulted therefrom. Attendees also shared their experiences and ideas that helped them to make the right decision and stressed the importance of choices we make in our lives. TEDxKAIST is an event operating under the official license of TED to hold TEDx programs based on TED’s slogan “Ideas Worth Spreading.” Since the first event took place under the theme “Science for Happiness, Happiness for Science” on September 2010, TEDxKAIST has brought together over 300 participants through five successful events.
2013.05.31
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Neurotransmitter protein structure and operation principle identified
Professor Tae-Young Yoon - Real-time measurement of structural change of bio-membrane fusion protein - A new clue to degenerative brain diseases research KAIST Physics Department’s Professor Tae-Young Yoon has successfully identified the hidden structure and operation mechanism of the SNARE protein, which has a central role in transporting neurotransmitters between neurons, using magnetic nanotweezers. SNARE protein’s cell membrane fusion function is closely related to degenerative brain diseases or neurological disorders such as Alzheimer’s. Hence, this research may provide a clue to the disease’s prevention and treatment. Neurotransmission occurs when vesicles containing neurotransmitters fuse with cell membranes in neuron synapses. The SNARE protein is a cell-membrane fusion protein with a core role of releasing neurotransmitters. The academia speculated the SNARE protein would regulate the exchange of neurotransmitters, but its precise function and structure has been unknown. Professor Yoon’s research team developed an experimental technique using nanotweezers to measure physical changes to nanometer level by pulling and releasing each protein with force of 1 pN (piconewton). The research identified the existence of hidden SNARE protein"s intermediate structure. The process of withstanding and maintaining repulsive forces between bio-membranes in the hidden intermediate structure of SNARE to regulate the exchange of neurotransmitters has also been identified. Professor Yoon’s research team developed an experimental technique using magnetic nanotweezers to measure physical changes of proteins to nanometer level by pulling and releasing each protein with force of 1 pN. The research identified the existence of hidden SNARE protein"s intermediate structure and its formation. The process of withstanding and maintaining repulsive forces between bio-membranes in the hidden intermediate structure of SNARE to regulate the exchange of neurotransmitters has also been discovered. Professor Yoon said, “Ground breaking research results have been produced. A simple experimental technique of applying the smallest possible forces to proteins (with tweezers) to see their hidden structure and formation process can produce the same result as real observation has been developed.” He continued, “This technique will be very important in researching biological object with physical experimental technique. It will be a vital foundation to consilient research of different academia in the future.” This research was a joint project of Physics Department’s Professor Tae-Young Yoon, KAIST, and Biomedical Engineering Institute’s Professor Yeon-Kyun Shin at KIST. KAIST Physics Department’s Professor Yong-Hoon Cho, Ph.D. candidate Do-Yong Lee and KIAS Computational Sciences Department’s Professor Chang-Bong Hyun participated. The research was published on Nature Communications on April 16th. a) Neurotransmission occurs when vesicles containing neurotransmitters fuse with cell membranes in neuron synapses. A SNARE protein is a cell-membrane fusion protein with a core role of releasing neurotransmitters. b) A schematic diagram using magnetic nanotweezers to measure protein structure changes on molecular level. The nanotweezers exert an exquisite pull and release of each protein with a force of 1 pN to measure physical changes to nanometer level in real-time to observe the hidden intermediate structure and operation principles of bio-membrane fusion protein.
2013.05.25
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Cooperation Agreement signed between KAIST and University of Oxford
On April 6th, a Cooperation Memorandum of Understanding (MOU), including the exchange of students between two universities, was signed by KAIST and University of Oxford on April 6th. In the MOU, KAIST and Oxford agreed to achieve mutual development through cooperation, such as joint research programs and the exchange of professors and students. President Sung-Mo Kang stated, “This agreement will be the start of close cooperation between the two universities, and I will continue to endeavor to expand the relationship.” Andrew Hamilton, the president of Oxford University replied, “I am well aware of the excellent quality of teaching and research of Korean students and KAIST. I hope the cooperation between KAIST and Oxford will achieve exchange at diverse levels.” President Hamilton taught chemistry at the University of Pittsburgh and Princeton University and also served as the vice-president of Yale University. Having experience of teaching a KAIST student before, he has high praise for the ability of KAIST students. The President of the University of Oxford, Andrew Hamilton (left), and the President of KAIST, Sung-Mo "Steve" Kang, shake hands in acknowledgement of signing the Cooperation MOU.
2013.05.20
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KAIST signs a Cooperation Agreement with University of California, Irvine
On April 6th, KAIST signed a cooperation memorandum of understanding (MOU) establishing academic exchanges of faculty and students with the University of California, Irvine (UC Irvine). The MOU states that the collaboration between both universities will promote the exchange of faculty and students, as well as joint research. Following UC Los Angeles (UCLA), Irvine became the second UC campus to make the exchange agreement with KAIST. UC Irvine was founded in 1965, and is known as a prestigious public university composed of 13 departments, including colleges of arts, biological sciences, engineering, and humanities. The ceremony was attended by KAIST President, Sung-Mo Kang, and UC Irvine President, Michael V. Drake, as well as Suk-Hee Kang, the former Mayor of Irvine. KAIST President Sung-Mo "Steve" Kang (left) and President of UC Irvine Michael Drake (right) shake hands after signing the Cooperation MOU.
2013.05.20
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