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KAIST research team develops a forgery prevention technique using salmon DNA
The authenticity scandal that plagued the artwork “Beautiful Woman” by Kyung-ja Chun for 30 years shows how concerns about replicas can become a burden to artists, as most of them are not experts in the field of anti-counterfeiting. To solve this problem, artist-friendly physical unclonable functions (PUFs) based on optical techniques instead of electronic ones, which can be applied immediately onto artwork through brushstrokes are needed. On May 23, a KAIST research team led by Professor Dong Ki Yoon in the Department of Chemistry revealed the development of a proprietary technology for security and certification using random patterns that occur during the self-assembly of soft materials. With the development of the Internet of Things in recent years, various electronic devices and services can now be connected to the internet and carry out new innovative functions. However, counterfeiting technologies that infringe on individuals’ privacy have also entered the marketplace. The technique developed by the research team involves random and spontaneous patterns that naturally occur during the self-assembly of two different types of soft materials, which can be used in the same way as human fingerprints for non-replicable security. This is very significant in that even non-experts in the field of security can construct anti-counterfeiting systems through simple actions like drawing a picture. The team developed two unique methods. The first method uses liquid crystals. When liquid crystals become trapped in patterned substrates, they induce the symmetrical destruction of the structure and create a maze-like topology (Figure 1). The research team defined the pathways open to the right as 0 (blue), and those open to the left as 1 (red), and confirmed that the structure could be converted into a digital code composed of 0’s and 1’s that can serve as a type of fingerprint through object recognition using machine learning. This groundbreaking technique can be utilized by non-experts, as it does not require complex semiconductor patterns that are required by existing technology, and can be observed through the level of resolution of a smartphone camera. In particular, this technique can reconstruct information more easily than conventional methods that use semiconductor chips. < Figure 1. Security technology using the maze made up of magnetically-assembled structures formed on a substrate patterned with liquid crystal materials. > The second method uses DNA extracted from salmon. The DNA can be dissolved in water and applied with a brush to induce bulking instability, which forms random patterns similar to a zebra’s stripes. Here, the patterns create ridge endings and bifurcation, which are characteristics in fingerprints, and these can also be digitalized into 0’s and 1’s through machine learning. The research team applied conventional fingerprint recognition technology to this patterning technique and demonstrated its use as an artificial fingerprint. This method can be easily carried out using a brush, and the solution can be mixed into various colors and used as a new security ink. < Figure 2. Technology to produce security ink using DNA polymers extracted from salmon > This new security technology developed by the research team uses only simple organic materials and requires basic manufacturing processes, making it possible to enhance security at a low cost. In addition, users can produce patterns in the shapes and sizes they want, and even if the patterns are made in the same way, their randomness makes each individual pattern different. This provides high levels of security and gives the technique enhanced marketability. Professor Dong Ki Yoon said, “These studies have taken the randomness that naturally occurs during self-assembly to create non-replicable patterns that can act like human fingerprints.” He added, “These ideas will be the cornerstone of technology that applies the many randomities that exist in nature to security systems.” The two studies were published in the journal Advanced Materials under the titles “1Planar Spin Glass with Topologically-Protected Mazes in the Liquid Crystal Targeting for Reconfigurable Micro Security Media” and “2Paintable Physical Unclonable Function Using DNA” on May 6 and 5, respectively. Author Information: 1Geonhyeong Park, Yun-Seok Choi, S. Joon Kwon*, and Dong Ki Yoon*/ 2Soon Mo Park†, Geonhyeong Park†, Dong Ki Yoon*: †co-first authors, *corresponding author This research was funded by the Center for Multiscale Chiral Architectures and supported by the Ministry of Science and ICT-Korea Research Foundation, BRIDGE Convergent Research and Development Program, the Running Together Project, and the Samsung Future Technology Development Program. < Figure 1-1. A scene from the schematic animation of the process of Blues (0) and Reds (1) forming the PUF by exploring the maze. From "Planar Spin Glass with Topologically-Protected Mazes in the Liquid Crystal Targeting for Reconfigurable Micro Security Media" by Geonhyeong Park, Yun-Seok Choi, S. Joon Kwon, Dong Ki Yoon. https://doi.org/10.1002/adma.202303077 > < Figure 2-1. A schematic diagram of the formation of digital fingerprints formed using the DNA ink. From "Paintable Physical Unclonable Function Using DNA" by Soon Mo Park, Geonhyeong Park, Dong Ki Yoon. https://doi.org/10.1002/adma.202302135 >
2023.06.08
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KAIST-KU Sign MOU on 4th Industrial Technology Development
(President Shin(second from left) poses with Khalifa University President Tod Laursen after signing an MOU in the UAE on March 25. Far left is Chairman of the NST Kwangyun Wohn and far right is the UAE Minister of Educatiion Hussain Al Hammadi.) KAIST President Sung-Chul Shin and Khalifa University Interim President Tod Laursen signed an MOU on the Fourth Industrial Technology Development on March 25 in the UAE. They signed the MOU during the UAE-ROK Nuclear Friendship and KAIST Alumni Night at Khalifa University co-hosted by KAIST and the Korea Atomic Energy Research Institute (KAERI). The MOU will bring new opportunities to further expand bilateral cooperation in education and training in the relevant technologies called for the era of the Fourth Industrial Revolution. More than 100 dignitaries including Chairman of National Research Council of Science and Technology (NST) in Korea Dr. Kwangyun Wohn, President of KAERI Jaejoo Ha, the UAE Minister of Education His Excellency Hussain Al Hammadi, Minister of State for Advanced Sciences Her Excellency Sarah bint Yousef Al Amiri, and His Excellency Federal Authority for Nuclear Regulation (FANR) Director General Christopher Viktorsson attended the event. In particular, a significant number of Emirati graduates of the KUSTAR-KAIST education program and many others who completed various KAIST training programs joined the event. The Nuclear Friendship Night was celebrating the completion of the first nuclear power plant in Barakah exported by Korea. This is the first nuclear reactor in the Middle East, which is to start operation later this year. The event also coincided with Korean President Moon Jae-In’s state visit to the UAE. KAIST and KAERI gathered distinguished leaders from the higher education and nuclear industries at the event in response to the UAE government’s top national agenda of fostering future talents and promoting the nuclear industry in order to ensure energy security. KAIST and Khalifa University signed an initial agreement in education and research in 2009 when the governments of Korea and the UAE signed a contract to build four nuclear power plants in Barakah. Since then, the two universities have worked together closely in the areas of nuclear engineering, bio-medical engineering, robotics, mechanical engineering, chemical engineering, and materials science. With this signing on the new MOU, the partnership between the two institutions will mark the second phase of educating high-caliber human resources in science and technology of the two countries. The KAIST Alumni Night also brought more opportunities to appreciate the achievements that the two countries have made through collaboration in education and research, mostly represented in the field of nuclear technology between KAIST and Khalifa University. During the event, KAIST graduates also shared their experiences from the education at KAIST, followed by the welcoming speeches from the UAE Minister of Education and the UAE Minister of State for Advanced Sciences. KAIST President Shin, in his welcoming speech at the event, said, “I look forward to more students in the UAE having the opportunity to experience the world’s top-level education and global environment that KAIST offers. The collaboration with Khalifa University and the UAE is very important for building both countries’ future growth.” KU President Laursen said, “This MOU on research cooperation focusing on technologies for the Fourth Industrial Revolution, nuclear engineering, and other technical areas will further consolidate our partnership with KAIST and support us in developing human capital suitable to take on future challenges in the science and technology sectors. We firmly believe the talent pool of experts created by this initiative will contribute to the overall economic growth of the UAE.”
2018.03.26
View 8647
KAIST Hosted the 6th International Presidential Forum on Global Research Universities
More than 120 global leaders from higher education, private and public sectors, to discuss the promotion of economic growth through knowledge creation and entrepreneurship The Korea Advanced Institute of Science and Technology (KAIST) held the 6th International Presidential Forum on Global Research Universities (IPFGRU) on October 15th at the Westin Chosun Hotel in Seoul, Republic of Korea. About 64 presidents and vice presidents from 57 research universities in 28 nations attended for a presentation and panel discussion on the topic of “The Role and Responsibility of Research Universities: Knowledge Creation, Technology Transfer, and Entrepreneurship.”Annually held, the forum is organized to promote excellence and innovation in higher education and provide a place for discussion among prominent research university leaders and key policy-makers in the private and public sectors from across the world.Among the notable universities attending the 2013 forum were the University of California, Irvine, the École Polytechnique Fédérale de Lausanne, Technische Universität Berlin, Technion-Israel Institute of Technology, Tokyo Institute of Technology, Rice University, the University of Waterloo, and Massachusetts Institute of Technology (MIT). Government officials as well as representatives from business and industry such as Samsung Electronics, Korea Telecom, and Elsevier also joined the event. The forum was proceeded with three separate sessions: Enabling Knowledge Creation, Entrepreneurship & University-Based Technology Transfer, and Higher Education & Strategic Knowledge Creation: Specialization & Performance, through which speakers and panelists examined how universities have played a role in knowledge creation and technology transfer, and ultimately how they have contributed to the development of national economies. Keynote speakers were Michael Drake, chancellor of UC Irvine, and Jörg Steinbach, president of Technische Universität Berlin. Forum participants shared their experiences and insights in starting up knowledge- and technolgy-based new businesses. Steve Kang, president of KAIST, talked about the purpose of the 2013 IPFGRU: “In the face of an ever-changing economic climate driven by shifts in technological advancement, demographic trends, and global integration, the role of research universities is becoming ever more significant in achieving sustainable economic growth. This forum will help participants from around the world to define the choices ahead as universities seek the most productive and beneficial models for cooperation with industry, venture startups, and government.”For the 2013 IPFGRU, Ministry of Science, ICT, and Future Planning, ROK, Saudi Aramco, Samsung Heavy Industries, S-Oil, Elsevier, Thomson Reuters, and the Korea Economic Daily were forum sponsors.
2013.11.04
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Late Dr. Ryu Geun Chul's Achievements and Generous Contributions
First Doctor in the field of Korean Traditional Medicine The late Dr. Ryu was born in 1926 and is the father figure of Korea’s Traditional Medicine and is its First Doctor (1976 Kyung Hee University), and was the vice-professor of Kyung Hee University of Medicine, Vice-Director of Kyung Hee Institute of Korean Traditional Medicine, and was the first chairman of the Association of Korea Oriental Medicine. He developed the painless acupuncture administering device for the first time in Korea in 1962, and succeeded in anesthetizing a patient for cesarean procedure using acupuncture in 1972. He even was the first to receive a medical engineering doctorate degree from the Moscow National Engineering School in April of 1996 and developed a stroke rehabilitation machine. Korea’s Most Generous Donor Dr. Ryu surprised the world by donating 57.8billion Won worth of real estate to KAIST in August of 2008. Dr. Ryu revealed that his reason for donating such a huge sum to KAIST was due to its focused students giving him the belief that the future of Korea is at KAIST and that the development of science and technology is necessary for Korea to develop into a world class nation and KAIST is the institute most suitable to lead Korea in the field. Dr. Ryu lived on KAIST campus after donating his entire fortune and even established ‘KAIST scholars and spacemen health research center’ and ‘Dr. Ryu Health Clinic’ as he also wanted to donate his knowledge. Even when he was a professor at Moscow National Engineering University in the late 1990s he carried out free medical work throughout Korea and in recognition of his devoted work, he was named honorary citizen from Chun Ahn city, San Chung city, and DaeJeon city. In 2007 he donated 450million Won to Cheon Dong Elementary School in Chun Ahn city to build a gymnasium and an indoor golf practice range. Role as Science and Technology Public Relations Officer Dr. Ryu volunteered to numerous lectures and interviews after donation to advertise science and technology. His belief that the development of science and technology is necessary for Korea’s development was the driving force behind his efforts at increasing interest and support for the field of science and technology. In addition, through interviews with MBC, KBS, SBS, KTV, Joong Ang Newspapers, Dong Ah Newspaper and other media mediums, Dr. Ryu improved the public perception on donations whilst increasing the pride of scientists and researchers by highlighting their importance and the importance of science and technology. In recognition of Dr. Ryu’s efforts, he received the 43rd Science Day Science and Technology Creation Award, 2010 MBC Social Service Special Award, and 2010 ‘Proud Chung Cheong Citizen’ Award.
2011.03.22
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Research University Presidents Discuss Global Network to Increase Cooperation
Presidents and leaders of research universities participating in the 2008 International Presidential Forum on Global Research Universities (IPFGRU) held at the Westin Chosun Hotel in Seoul, Korea on Sept. 8, 2008 exchanged views and ideas on how to build and effectively utilize a global research network in order to increase cooperation and exchanges among institutions of science and technology across the world. The participants agreed on the need to promote the sharing of expertise and facilities, conduct joint researches and positively implement dual degree, roaming professorship and other programs that help institutions in societies at different stages of scientific and technological development maximize the fruits of their research activities. As a major goal, the participants agreed to create alliances for research and education that can become a new paradigm for global cooperation, with the outcome of discussions at the 2008 IPFGRU providing the guidelines for future endeavors in this direction. Through the day-long symposium, participants reached general agreements on the following points: --The concept of sharing faculty or roaming professorship should be actively promoted in order to accelerate global dissemination of academic expertise with the institutions and state authorities concerned easing existing restrictions to such arrangements and ensuring maximum academic freedom of professors involved. --Dual degree programs especially those involving institutions of different countries need to be further encouraged in view of their benefits of resources sharing, expansion of knowledge and cultural exchanges and that educational authorities should try to remove various forms of limitations. --As competitions over university ranking would grow intensive as institutions seek to attract better students and more donations, there is need to institutionalize a fairer, globally recognized national, regional and international assessment systems. --In view of rapid expansion of interdisciplinary researches which calls for the sharing of facilities and expertise among different institutions, it is necessary to establish national or regional hubs to make state-of-the-art facilities and equipment available for researchers and research programs experiencing limitations in financial and material resources. --National governments and political leaders should better recognize the importance of science and technology for societal and global prosperity and the science and technology community needs to make more communicative approaches to politicians so that greater trust may be built between them. --Arrangements to conduct joint research involving international industries, academia and government should be accelerated with a view to addressing the common problems facing the mankind in the 21st century, including energy, environment, water, food and sustainability. The United Nations and other international organizations need to provide stronger support for research universities’ efforts in this direction. --Research universities across the world should make concerted efforts to establish a global cooperative network that can facilitate the flow of information, resources and research personnel to realize universal advancement of science and technology and, ultimately, enhance the quality of human life. Keynote speakers and panelists and the subjects of their presentations were: Participants" List Topic Name of University Speaker Position 1. Roaming Professorships: To Whose Benefit? Illinois Institute of Technology John L. Anderson President Improving the Competitiveness of Global University Education National University of Sciences and Technology Muhammad Mushtaq Pro-Rector Improving the Competitiveness of Global University Education Tianjin University Fuling Yang Director of International Cooperation Office Sharing Differences in Culture and Environment for Sustainable Education for the Future Generation Kumamoto University Tatsuro Sakimoto President Sharing Differences in Culture and Environment for Sustainable Education for the Future Generation Odessa National I. I. Mechnikov University Sergiy Skorokhod Vice Rector for International Cooperation Promoting Science and Engineering Education among Secondary Students Czech Technical University of Prague Miroslav Vlcek Vice Rector Promoting Science and Engineering Education among Secondary Students South China University of Technology Xueqing Qiu Vice President Preserving and Utilizing Expert Knowledge for Better Education Eotvos Loran University Jösef Nemes-Nagy Vice Dean 2. Dual Degree Programs: Future Potential & Challenges University of Queensland Paul Greenfield President and Vice Chancellor Benefits of Dual Degree Program Institut National des Sciences Appliquées de Lyon Martin Raynaud Director, International Relations Benefits and Limitations of Dual Degree Program National Institute of Development Administration Pradit Wanarat Vice President for Academic Affairs The Role of Dual Degree Program Easing Brain Drain Nanyang Technological University Lam Khin Yong Associate Provost, Graduate Education & Special Projects International Dual Degree Programs and Strategies Georgia Institute of Technology Steven W. McLaughlin Vice Provost, International Initiatives Dual Degree Program and Global Learning Networks City University of Hong Kong Richard Yan-Ki Ho Special Advisor to the President Raising International IQs of Scientists and Engineers for Global Enterprise Technion, Israel Institute of Technology Moshe Shpitalni Dean, Graduate Studies Luncheon Speech “Beneficial Relationships between Academia and Companies” Medical Information Technology A. Neil Pappalardo Chairman and CEO 3. Sharing Facilities and Expertise KAIST Nam Pyo Suh President Promoting International Sharing of Research Facilities and Expertise to Strengthen Research Outcomes Griffith University Ian O"Connor President Economic Benefits of Sharing Research Facilities and Expertise POSTECH Sunggi Baik President Economic Benefits of Sharing Facilities and Expertise: National NanoFab Center National NanoFab Center Hee Chul Lee President Communicating Science and Technology to Political Leaders Office of the President of KOREA Chan Mo Park Special Advisor to the President for Science and Technology Filling the Gap of University Resources Bandung Institute of Technology Djoko Santoso Rector 4. An Approach to Joint Research Ventures with NASA NASA Yvonne Pendleton Deputy Associate Center Director Benefits of International Joint Venture Research Projects University of Adelaide Martyn J. Evans Director, Community Engagement Benefits of International Joint Projects Mahidol University Sansanee Chaiyaroj Vice President International Joint Research Projects University of Iowa P. Barry Butler Dean, College of Engineering Joint Research: University of Technology Malaysia’s Experience at National and International Level University Technology of Malaysia Tan Sri Mohd Ghazali Vice-Chancellor Sharing Intellectual Property Rights Paris Institute of Technology Cyrille van Effenterre President Global Economic and Social Contribution of International Joint Project Cooperation Kyushu University Wataru Koterayama Vice President 5. Globalization through Interfacing with Existing Networking Technical University of Denmark Lars Pallesen Rector Establishing Global Science and Technology Networking National Cheng Kung University Da Hsuan Feng Senior Executive Vice President Establishing Global Science and Technology Networking University of Technology of Troyes Christian Lerminiaux President The Role of Global Science and Technology Network for Higher Education in the 21st Century Iowa State University Tom I-P. Shih Department Chair Regionalized or Globalized Science and Technology Networking Babes-Bolyai University Calin Baciu Dean, Faculty of Environmental Sciences Globalized Science and Technology Networking Harbin Institute of Technology Shuguo Wang President Connecting Regional Science and Technology Networks for the Global Networking Ritsumeikan University Sadao Kawamura Special Aide to the Chancellor How Can a Publisher Strengthen the Global Network of Universities? Elsevier Youngsuk Chi Vice Chairman
2008.09.18
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