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KAMP to Help SMEs Achieve Technological Independence
As the Japanese government dropped Korea from its ‘White List’ of favored trade partner status last week, KAIST launched an advisory group to help the SMEs that are expected to be the most affected by the decision. President Sung-Chul Shin announced on August 5 that KAIST is launching KAIST Advisors on Materials and Parts (KAMP), which is composed of 100 faculty members from five fields. President Shin said that KAIST would like to use this national crisis as an opportunity to make another leap forward by taking very timely and appropriate actions to help Korean SMEs achieve technological independence. Headed by the Vice Dean of the College of Engineering, Sung-Yool Choi, KAMP will mainly advise in the fields of materials, parts, and equipment, which are crucial components for Korea’s key industries of semiconductors, energy, and automobiles. President Shin made the announcement following a meeting with senior leadership over the weekend. Faculty members including honorary professors from each committee’s department will be included as advisory group members. In the letter sent out to the entire faculty right after the meeting, President Shin stressed the roles and responsibilities of scientists and engineers, especially from KAIST, which was founded with the national mission to foster the scientists and engineers urgently needed to work for the nation’s industrialization and R&D. He also said, “We now take on our new calling to deal with technology hegemony in the midst of this crisis caused by the worsening tensions between the two countries.” He added, “Soldiers were the main force in the frontline protecting the country during the period in which the military ruled. However, in this era where technology reigns, especially in the face of the Fourth Industrial Revolution, scientists and engineers should come forward to the frontlines.” KAMP will be composed of the following five technology committees: - The Advanced Materials Committee led by the Head of the Department of Materials Science and Engineering - The Chemistry and Biology Committee led by the Head of the Department of Chemistry - The Chemical Engineering and Equipment Committee led by the Head of the Department of Chemical and Biomolecular Engineering - The Electronics and Computer Committee led by the Head of the School of Electrical Engineering - The Machinery and Aerospace Committee led by the Head of Department of the Mechanical Engineering KAMP will support the development of 159 key technologies out of the 1,194 on the affected list. To promptly respond to the SMEs’ technological challenges, KAMP will designate an exclusive advisor based on the technological challenges they are experiencing. Serving as emergency tech service providers, KAMP will identify and analyze the problems and will systematically manage the problem-solving procedures. In close collaboration with the Office of University-Industry Cooperation, KAMP will drive the innovative growth of Korea and will help it become highly technologically competitive and independent in the fields of key materials, parts, and equipment. President Shin said the university will make every effort institutionally and financially to make this advisory group’s work successful. For SMEs who wish to use the KAMP advisory service, call +82-(0)42-350-6119 or send an email to smbrnd@kaist.ac.kr. (END)
2019.08.05
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OUIC Presents the Six Most Promising Techs Transferrable to Local SMEs
KAIST will showcase the six most promising technologies for small and medium enterprises (SMEs) on November 14 in the Academic Cultural Complex. To strengthen the competitive edge of local SMEs in Daejeon, the Office of University-Industry made a survey of their technological needs and came up with the six most promising technologies. Developers will introduce their technologies during the session.Besides the introduction of the promising technologies, the session will also provide a program named University to Business (U2B) to match up technologies according to the SMEs’ needs. SMEs who wish to engage in technology transfers can receive counseling and other support programs during the session.First, Professor Seok-Hyung Bae from the Department of Industrial Design will present a technology for controlling cooperation robots. Professor Bae inserted flexible materials between the controllers to allow robots to use both hands stably and operate more accurately and swiftly. It can be applied to automatic robots, industrial robots, and service robots.Professor Hyun Myung from the Department of Civil & Environmental Engineering will demonstrate a robot navigation system in a dynamic indoor and outdoor environment, which can be applied to robotics in logistics, smart factories, and autonomous vehicles. Providing robust simultaneous localization and mapping systems, this technology shows high-performing navigation with low-cost sensors.Meanwhile, Professor Siyoung Choi from the Department of Chemical and Biomolecular Engineering will introduce a technology for forming stable adhesive emulsions. An emulsion is a stable mixture of water and oil. Conventionally, a small amount of surfactant is added to stabilize an emulsion. Here, Professor Choi developed a stable emulsion system without using any chemical substances. This technology can be applied to various fields, including the cosmetics, pharmaceutical, semiconductor, and painting industries. The session will also present smart IoTs platform technology developed by Professor Jinhong Yang from the KAIST Institute for IT Convergence. His technology minimizes errors occurring when multiple IoT devices are connected simultaneously. Professor Yong Keun Park from the Department of Physics will introduce a technology for measuring glycated hemoglobin by using the optical properties of red blood cells. This technology can be applied to make low-cost, small-sized measuring equipment. It can also be used for vitro diagnoses including diabetes, cardiovascular disorders, tumors, kidney disease, and infectious diseases. Professor Yong Man Ro from the School of Electrical Engineering will show technology for biometric access control. Conventional technologies for face recognition fall behind other biometrics. Professor Ro and his team developed a facial dynamics interpreting network which allows very accurate facial recognition by interpreting the relationships between facial local dynamics and estimating facial traits. This technology can be applied to security and communication in finance, computers, and information system.KAIST President Sung-Chul Shin said, “KAIST will continue to support SMEs to have stronger competitiveness in the market. Through technology transfer, we will drive innovation in technological commercialization where a university’s research and development creates economic value.”
2018.11.13
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