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Top Ten Ways Biotechnology Could Improve Our Everyday Life
The Global Agenda Council on Biotechnology, one of the global networks under the World Economic Forum, which is composed of the world’s leading experts in the field of biotechnology, announced on February 25, 2013 that the council has indentified “ten most important biotechnologies” that could help meet rapidly growing demand for energy, food, nutrition, and health. These new technologies, the council said, also have the potential to increase productivity and create new jobs.
“The technologies selected by the members of the Global Agenda Council on Biotechnology represent almost all types of biotechnology.Utilization of waste, personalized medicine,and ocean agricultureare examples of the challenges where biotechnology can offer solutions,”said Sang Yup Lee, Chair of the Global Agenda Council on Biotechnology and Distinguished Professor in the Department of Chemical and Biomolecular Engineering at the Korea Advanced Institute of Science and Technology (KAIST). He also added that “the members of the council concluded that regulatory certainty, public perception, and investment are the key enablers for the growth of biotechnology.”
These ideas will be further explored during “Biotechnology Week” at the World Economic Forum’s Blog (http://wef.ch/blog) from Monday, 25 February, 2013. The full list follows below:
Bio-based sustainable production of chemicals, energy, fuels and materials
Through the last century, human activity has depleted approximately half of the world’s reserves of fossil hydrocarbons. These reserves, which took over 600 million years to accumulate, are non-renewable and their extraction, refining and use contribute significantly to human emissions of greenhouse gases and the warming of our planet. In order to sustain human development going forward, a carbon-neutral alternative must be implemented. The key promising technology is biological synthesis; that is, bio-based production of chemicals, fuels and materials from plants that can be re-grown.
Engineering sustainable food production
The continuing increase in our numbers and affluence are posing growing challenges to the ability of humanity to produce adequate food (as well as feed, and now fuel). Although controversial, modern genetic modification of crops has supported growth in agricultural productivity. In 2011, 16.7 million farmers grew biotechnology-developed crops on almost 400 million acres in 29 countries, 19 of which were developing countries. Properly managed, such crops have the potential to lower both pesticide use and tilling which erodes soil.
Sea-water based bio-processes
Over 70% of the earth surface is covered by seawater, and it is the most abundant water source available on the planet. But we are yet to discover the full potential of it. For example with halliophic bacteria capable of growing in the seawater can be engineered to grow faster and produce useful products including chemicals, fuels and polymeric materials. Ocean agriculture is also a promising technology. It is based on the photosynthetic biomass from the oceans, like macroalgae and microalgae.
Non-resource draining zero waste bio-processing
The sustainable goal of zero waste may become a reality with biotechnology. Waste streams can be processed at bio-refineries and turned into valuable chemicals and fuels, thereby closing the loop of production with no net waste. Advances in biotechnology are now allowing lower cost, less draining inputs to be used, including methane, and waste heat. These advances are simplifying waste streams with the potential to reduce toxicity as well as support their use in other processes, moving society progressively closer to the sustainable goal of zero waste.
Using carbon dioxide as a raw material
Biotechnology is poised to contribute solutions to mitigate the growing threat of rising CO2 levels. Recent advances are rapidly increasing our understanding of how living organisms consume and use CO2. By harnessing the power of these natural biological systems, scientists are engineering a new wave of approaches to convert waste CO2 and C1 molecules into energy, fuels, chemicals, and new materials.
Regenerative medicine
Regenerative medicine has become increasingly important due to both increased longevity and treatment of injury. Tissue engineering based on various bio-materials has been developed to speed up the regenerative medicine. Recently, stem cells, especially the induced pluripotent stem cells (iPS), have provided another great opportunity for regenerative medicine. Combination of tissue engineering and stem cell (including iPS) technologies will allow replacements of damaged or old human organs with functional ones in the near future.
Rapid and precise development and manufacturing of medicine and vaccines
A global pandemic remains one of the most real and serious threats to humanity. Biotechnology has the potential to rapidly identify biological threats, develop and manufacture potential cures. Leading edge biotechnology is now offering the potential to rapidly produce therapeutics and vaccines against virtually any target. These technologies, including messenger therapeutics, targeted immunotherapies, conjugated nanoparticles, and structure-based engineering, have already produced candidates with substantial potential to improve human health globally.
Accurate, fast, cheap, and personalized diagnostics and prognostics
Identification of better targets and combining nanotechnology and information technology it will be possible to develop rapid, accurate, personalized and inexpensive diagnostics and prognostics systems.
Bio-tech improvements to soil and water
Arable land and fresh water are two of the most important, yet limited, resources on earth. Abuse and mis-appropriation have threatened these resources, as the demand on them has increased. Advances in biotechnology have already yielded technologies that can restore the vitality and viability of these resources. A new generation of technologies: bio-remediation, bio-regeneration and bio-augmentation are being developed, offering the potential to not only further restore these resources, but also augment their potential.
Advanced healthcare through genome sequencing
It took more than 13 years and $1.5 billion to sequence the first human genome and today we can sequence a complete human genome in a single day for less than $1,000. When we analyze the roughly 3 billion base pairs in such a sequence we find that we differ from each other in several million of these base pairs. In the vast majority of cases these difference do not cause any issues but in rare cases they cause disease, or susceptibility to disease. Medical research and practice will increasingly be driven by our understanding of such genetic variations together with their phenotypic consequences.
2013.03.19 View 11723 -
Launched the Saudi Aramco-KAIST CO2 Management Center in Korea
KAIST and Saudi Aramco, a global energy and petrochemicals enterprise, signed on February 20, 2013 the Master Research and Collaboration Agreement (the Agreement) on joint collaborations in research and development of carbon management between the two entities.
The Agreement was subsequently concluded upon the signing of the Memorandum of Understanding (MOU) between KAIST and Saudi Aramco, dated January 7th, 2013. In the Agreement, the two organizations specified terms and conditions necessary to conduct joint research projects and stipulated governing body for the operation of the Saudi Aramco-KAIST CO2 Management Center.
KAIST and Saudi Aramco, a national oil company for Saudi Arabia, entered into the MOU, in which the two parties shared a common interest in addressing the issue of CO2 capture, CO2storage, CO2 avoidance using efficiency improvements, and converting CO2 into useful chemicals and other materials, and agreed to “create a major research center for CO2” in Korea.
As envisioned by the MOU and its subsequent agreement, KAIST and Saudi Aramco decided to operate an interim office of the Saudi Aramco-KAIST CO2 Management Center at KAIST campus in Daejeon, Korea, pending the establishment of the research center. The full-fledged, independent research facility will be built at a location and during a period to be agreed between the two parties.
Following the signing of the Agreement, there was a celebration event taken place, including a signboard hanging ceremony for the interim research office. A 10-member delegation from Saudi Aramco, which was headed by Vice President of Engineering Services Samir Al-Tubayyeb, Dr. Nam-Pyo Suh, former president of KAIST, Vice President of Research at KAIST Kyung-Wook Paik, and senior representatives from Korean oil and petrochemical companies such as S-Oil, Lotte Chemicals, SK Innovation, and STX attended the event.
Kyung-Wook Paik, Vice President of Research at KAIST, said,
“In order to help find solutions to carbon management, KAIST and Saudi Aramco will facilitate to exchange each party’s complementary technical expertise, gain insight into new research fields, and have access to key sources of talent, while promoting innovation for technology solutions and contributing to the lifelong learning agenda of both organizations.”
Samir Al-Tubayyeb, Vice President of Engineering Services at Saudi Aramco, added that “As a world-leading oil and gas company, Saudi Aramco’s mission is to promote the continued use of safe, environmentally-friendly petroleum products with a vision to becoming a global leader in research and technology. Building a strong and cooperative relationship with KAIST in our endeavor to search for alternative ways to better utilization of fossil fuels will expedite the creation of opportunities to make the world environmentally safer and sustainable.”
KAIST and Saudi Aramco will each chip in a maximum of USD 5 million annually for the establishment and operation of the Saudi Aramco-KAIST CO2 Management Center during the initial term of the Master Research and Collaboration Agreement, which starts in 2013 and continues through 2018.
2013.03.19 View 13788 -
2013 Graduation Ceremony Held on February 22
KAIST held a graduation ceremony for the year 2013 at Ryu Keun-Chul Sports Complex on February 22nd.
A total of 2,475 academic degrees were awarded this day, including 482 doctoral degrees, 1,153 master’s degrees, 838 bachelor’s degrees, and two honorary doctorates to Dr. Han Seung-Soo, a former prime minister of South Korea, and Lee Soo-young, the chairwoman of Kwang Won Industrial Co. Ltd. This commencement made KAIST to have turned out overall 46,117 talented graduates – 9,383 doctorates, 23,941 master’s degrees, and 12,793 bachelor’s degrees – to the fields of science and technology since its establishment in 1971.
The Minister of Education and Science Technology Award, which is for the student receiving bachelor’s degree with the highest academic performance, was given to Seung-Uk Jang from the Department of Mathematical Sciences. In addition, the Chairman of the KAIST Board of Trustees Award was given to Chi-Heon Kwon from the Department of Chemistry, KAIST Presidential Award to Yong-Jin Park from the Department of Chemical and Biomolecular Engineering, President of Alumni Association Award to Bong-Soo Choi from the Department Electrical Engineering, and School Supporting Association’s Award to Bo-Kyung Kim from the Bio and Brain Engineering Department.
“Climate changes due to humanity’s economic activities are threatening crucial resources such as water, food, and energy security,” said Former Prime Minister Han Seung-Soo, who received an honorary doctorate at the commencement ceremony. “Please try to solve the greatest issues that human society is facing,” he entreated in his congratulatory message.
“Use the excellent education that you have received at KAIST wisely with good purpose and ethics,” also congratulated President Suh Nam-Pyo. “I hope the graduating students of KAIST to become global leaders in the near future,” he said to the graduates entering the society.
“It was a great honor to contribute as the president of KAIST for almost 7 years, which has been the most challenging and worthwhile time in my life,” he delivered words of gratitude to all members of KAIST. “I appreciate everyone’s efforts for KAIST to develop so far.”
President Suh completed his duty as the fourteenth president of KAIST with the ceremony and returned to the United States on the 25th.
2013.02.26 View 9073 -
KAIST shocks the world with its creativity
Researchers at KAIST yielded great results at the world’s leading international Human Computer Interaction Society.
Professor Lee Gi Hyuk’s (Department of Computer Sciences) and Professor Bae Seok Hyung’ (Department of Industrial Design) respective teams received awards in two criteria in student innovation contest and was the only domestic university that presented their thesis at the ACM Symposium on User Interface Software.
The ACM UIST holds a student innovation contest prior to its opening. This year’s topic was the pressure sensing multi touch pad of Synaptics and involved 27 prestigious universities including MIT and CMU.
The KAIST team (Ki Son Joon Ph.D. candidate, Son Jeong Min M.A. candidate of Department of Computer Sciences and Woo Soo Jin M.A. candidate of Department of Industrial Design) designed a system that allows modulated control by attaching a simple structure to the pressure sensing multi touch pad.
The second KAIST team (Huh Seong Guk Ph.D. candidate, Han Jae Hyun Ph.D. candidate, Koo Ji Sung Ph.D. candidate at the Department of Computer Sciences, and Choi Ha Yan M.A. candidate at Department of Industrial Design) designed a system that utilizes a highly elastic fiber to allow the sensing of lateral forces. They also created a slingshot game application which was the second most popular system.
In the thesis session Professor Bae’s team (Lee DaWhee Ph.D. candidate, Son Kyung Hee Ph.D. candidate, Lee Joon Hyup M.A. candidate at Department of Industrial Design) presented a thesis that dealt with the technology that innovated the table pen for displays.
The new ‘phantom pen’ solved the issue arising from the hiding effect of the pen’s contact point and the display error due to the thickness of the display. In addition the ‘phantom pen’ has the ability to show the same effects as crayons or markers in a digital environment.
2012.11.29 View 10558
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3rd EEWS CEO Forum Held
KAIST EEWS (Energy Environment Water and Sustainability) held the 3rd EEWS CEO Forum at KAIST Seoul Campus.
EEWS is a research/education project initiated by KAIST to solve the global issues that the world faces including issues such as: energy depletion, global warming, water shortage, and sustainable development.
The 3rd EEWS CEO Forum is dedicated to providing the opportunity to share the vision and experience on technology and policy for green growth. The forum was founded in 2011 with active participation from Woo Ki Jeong (Director of Statistics), Choi Kwang Sik (Korea City Airport, Logistics and Travel, CEO), Kang Young Joong (Daekyo Group, CEO), Yoo Kyung Sun (Eugene Group, CEO), all experts in the field of green growth.
The forum consisted of presentations and debate on topics such as: international outlook on green growth, development projects based on new renewable energy, battery of electric vehicles, and development of solar cells.
Kim Sang Hyup member of the Presidential Committee on Green Growth started off the series of lectures with the topic of ‘International Outlook on Green Growth’. Kim Joong Gyum CEO of KEPCO followed up with ‘the Future of Electricity Generation Industry and Renewable Energy’, Kim Soo Ryung Director of LG Chemicals gave a talk on ‘Electric Vehicles and the Future of the Battery Industry’, and finally Choi Gi Hyuk CEO of SDN Ltd. gave the final lecture on ‘the Inflection Point of Solar Cell Industry’.
2012.10.16 View 9649
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Professor Bae Sang Min Wins Multiple Prestigious Design Awards
Summer is perfect for many outdoor activities, but it is also the season for mosquitoes, an annoying pest that makes outdoor experiences unpleasant and sometimes even dangerous. An easy-to-use and environmentally-friendly spray, “Sound Spray” (http://idsa.org/soundspray-self-generating-non-toxic-ultrasonic-anti-mosquito-spray), which repels mosquitoes by setting off ultrasonic waves, has been developed by a research team at KAIST. The spray produces sounds similar to those of mosquitoes’ natural predators.
Sound Spray made the list of finalists in the category of "Social Impact Design" from the 2012 International Design Excellence Awards (IDEA). The IDEA is one of the most renowned design competitions in the world, which has been held annually by the Industrial Designers Society of America (IDSA).
Inside Sound Spray is a battery that generates electricity when a user shakes the spray bottle. Electrical energy produced by the battery creates an ultrasonic sound that mosquitoes dislike, thereby discouraging their contact with human skin. Professor Sangmin Bae from the Department of Industrial Design at KAIST explains,
“In regions such as Africa or Southeast Asia, mosquitoes are still posing a big threat to public health. Unlike Freon-based, disposable insect repellents on the market, Sound Spray is eco-friendly, easy to carry around, reusable, and affordable. I plan to commercialize and distribute it to nations in Africa or Southeast Asia to help them combat against malaria, an infectious disease that patients contract through mosquito bites.”
Professor Bae also received another award from the 2012 IDEA in the area of Commercial and Industrial Products: a bronze medal for a milling machine, the Namsun Milling Machine (http://www.idsa.org/namsunnew-innovative-milling-machine-design). The machine has large windows on each side of its main body that display a transparent workflow so that users easily understand the machine’s operation status. Curved lines are actively used for the exterior design of the machine to create a more friendly work environment.
In addition to the 2012 IDEA, Professor Bae has participated in other major international design awards, including the Red Dot Award, the If Design Award Japan, and the Good Design Award, from which his research team has received a total of 41 prizes.
Professor Bae initiated a campaign in 2005 called “Philanthropy Design,” through which he has donated many of his designs to help people in need. For more on his research, please visit http://www.coroflot.com/frame29/Portfolio1.
2012.07.26 View 12013 -
The output of terahertz waves enhanced by KAIST team
KAIST researchers have greatly improved the output of terahertz waves, the blue ocean of the optics world. This technology is expected to be applied to portable X-ray cameras, small bio-diagnostic systems, and in many other devices.
Professor Ki-Hun Jeong"s research team from the Department of Bio and Brain Engineering used optical nano-antenna technology to increase the output of terahertz waves by three times.
Terahertz waves are electromagnetic waves with frequencies between 100GHz to 30THz. They are produced when a femtosecond (10^-15 s) pulse laser is shone on a semiconductor substrate with photoconduction antennas, causing a photocurrent pulse of one picosecond (10^-12 s). Their long wavelengths, in comparison to visible light and infrared rays, give terahertz waves a high penetration power with less energy than X-rays, making them less harmful to humans.
These qualities allow us to see through objects, just as X-rays do, but because terahertz waves absorb certain frequencies, we can detect hidden explosives or drugs, which was not possible with X-rays. We can even identify fake drugs. Furthermore, using the spectral information, we can analyze a material"s innate qualities without chemical processing, making it possible to identify skin diseases without harming the body. However, the output was not sufficient to be used in biosensors and other applications.
Prof. Jeong"s team added optical nano-antennas, made from gold nano-rods, in between the photoconduction antennas and optimized the structure. This resulted in nanoplasmonic resonance in the photoconduction substrate, increasing the degree of integration of the photocurrent pulse and resulting in a three times larger output.
Hence, it is not only possible to see through objects more clearly, but it is also possible to analyze components without a biopsy.
Professor Jeong explained, "This technology, coupled with the miniaturization of terahertz devices, can be applied to endoscopes to detect early epithelial cancer" and that he will focus on creating and commercializing these biosensor systems.
This research was published in the March issue of the international nanotechnology journal ACS Nano and was funded by the Korea Evaluation Institute of Industrial Technology and the National Research Foundation of Korea.
Figure: Mimetic diagram of a THz generator with nano-antennas
2012.04.29 View 12267 -
Interview with the president of Hong Kong University of Science and Technology
The president of Hong Kong University of Science and Technology (HKUST), Dr. Tony Chan, who is also a member of KAIST’s President Advisory Council (PAC), had an interview with the Korea Times, November 16, 2011 and shared his thoughts on some fundamental essentials that make a good science and technology university. He visited KAIST Campus on November 10th and had a meeting with students as part of the university’s mentor program between PAC members and the students. For the interview, please visit the link below: http://www.koreatimes.co.kr/www/news/special/2011/11/181_98928.html
2011.11.18 View 10698
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2011 International Presidential Forum on Global Research Universities
KAIST’s 4th International Presidential Forum Held in Seoul on November 8, 2011
The largest annual congregation of university presidents in Asia invited leaders from academia, government, and industry for talks on issues related to higher education in the Age of Globalization.
Borderless and Creative Education: the ability to cross borders a crucial key to dominate the information era
Seoul, Republic of Korea, November 8, 2011—The Korea Advanced Institute of Science and Technology (KAIST) hosted the “2011 International Presidential Forum on Global Research Universities (IPFGRU)” on Tuesday, November 8, 2011 at the Millennium Hilton Hotel in Seoul.
With more than 120 participants from 44 institutions in 27 countries present, the full-day forum provided participants with an opportunity to discuss challenges and responsibilities facing higher education in a time of globalization that has resulted from an ever-growing demand for technological innovation.
In his plenary speech, Dr. Robert Birgeneau, Chancellor of UC Berkeley, stressed that “Higher educational intuitions must be prepared to drive innovation and enhance competitiveness by educating a highly trained workforce that will have the critical skills necessary to solve problems and lead in today’s interdependent world.”
“Finding solutions to the world’s most challenging problems will depend on the ability to cross borders: national borders, border between different fields of discipline and research, and borders between academe, government, and industry,” said Chancellor Birgeneau to address the importance of “borderless and creative education,” the theme of the forum.
Other major keynote speakers were Jörg Steinbach, President of Technische Universität Berlin, Lars Pallesen, President of Technical University of Denmark, Paul F. Greenfield, President of University of Queensland, Marcelo Fernandes de Aquino, President of the University of the Sinos Valley (UNISINOS), and Eden Woon, Vice President of the Hong Kong University of Science and Technology.
Dr. Nam-Pyo Suh, President of KAIST, gave talks on the university’s new education plan, “The I-Four Education,” at the afternoon session. The four Is are information technology (IT), independent learning, integrated knowledge acquisitions, and an international learning environment.
“In this format, there are no formal lectures,” President Suh explained. “A group of students learn together by using the materials available on the internet, doing homework and conducting experiments together. Pre-recorded lectures are delivered in English by I-Four professors, some of them regular KAIST professors and some professors in other countries who participate in the I-Four Program as consulting professors.”
He added, “The overall purpose of the I-Four Education Program is to encourage students to learn independently, gain exposure to the best lectures by the most eminent professors in the world, accelerate the development of a global frame of reference in the students by dealing with information available throughout the world, and provide an integrated learning environment by using diverse examples from many disciplines to achieve understanding of basic principles.”
The 2011 IPFGRU, the fourth forum since its inception in 2008, rose to prominence in the past years as an international network for leaders of research universities from around the world to share information and exchange views about contemporary issues in higher education.
At this year’s forum, entitled “Borderless and Creative Education,” speakers took a deeper look into the transitions and transformations many research universities are undergoing today, delving into the following topics: the development of e-learning and cyber campuses; increased student mobility and international collaborations; multi-disciplinary and convergence approaches in research and education; and methodology of nurturing future global leaders.
Participants also discussed experiences and accomplishments earned from their own endeavors to accommodate such changes and presented ways to strengthen internationalization and improve the academic and research competitiveness of universities.
The 2011 International Presidential Forum on Global Research Universities (IPFGRU) was organized by KAIST and sponsored by the Ministry of Education, Science and Technology, POSCO, Hyundai Motor Company, Samsung Heavy Industries, S-Oil, and Elsevier Korea.
2011.11.09 View 12904 -
Scientists develop highly efficient industrial catalyst
http://english.yonhapnews.co.kr/business/2011/07/14/48/0501000000AEN20110714009600320F.HTML
SEOUL, July 15 (Yonhap) -- South Korean scientists said Friday that they have developed a highly efficient nanoporous industrial catalyst that can have a considerable impact on chemical and oil-refining sectors.
The team of scientists led by Ryoo Ryong, a chemistry professor at the Korea Advanced Institute of Science and Technology (KAIST), said the solid zeolite compound developed in the laboratory has a reaction speed five to 10 times faster than that of conventional materials.
Zeolite, which is made from silica and aluminium, is frequently used as an absorbent, water purifier and in nuclear reprocessing, although it is mainly employed in the chemical industry.
The annual size of the zeolite market is estimated at US$2.5 billion with output using the material topping $30 billion. At present, 41 percent of all catalysts used in the chemical sector are nano-scale zeolite materials.
The KAIST team said that because the new zeolite is made up of different sized pores, the material can be used as a catalyst when existing materials are unable to act as a changing agent.
"Existing zeolites only have pores under 1 nanometer in diameter, but the new material has holes that range from 1 nanometer to 3.5 nanometers, which are all arranged in a regular honeycomb arrangement," Ryoo said. A nanometer is one-billionth of a meter.
He said the ability to have both micro- and meso-sized pores is key to the faster reaction speed that is an integral part of raising efficiency. The South Korean researchers used a so-called surfactant process to make the different sizes of pores.
The development is a breakthrough because researchers and companies such as Exxon Mobil Corp. have been trying to build zeolite with different sizes of pores for the past two decades without making serious headway. There are more than 200 different types of zeolites in the world.
Ryoo, who received funding from the government, has requested intellectual property rights for the discovery, which has been published in the latest issue of Science magazine. He also developed another zeolite in the past that can transform methanol to gasoline up to 10 times more efficiently than existing catalysts.
Exxon Mobil has expressed interest in the two zeolites made by Ryoo"s team. Undisclosed South Korean petrochemical companies have also made inquiries that may lead to commercial development in the future.
"There are some technical issues to resolve, mainly related with mass production and stability," the scientist said.
He said full-fledge production will be determined by how much companies are willing to spend on research to speed up development that can bring down overall production costs.
The KAIST team said it took two years to make the new zeolite, which can be custom made to meet specific needs.
(END)
2011.07.15 View 12024
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World?'s First Automated Maritime-Docking between Naval Vessels
KAIST demonstrated the technology that allows automated maritime docking between naval vessels on the 26th of April at Busan, Korea.
The docking technology is seen as one of the key components for the mobile harbor as it prevents collision between two naval vessels upon docking. It was recognized as an important technology worldwide, but its technological limitations made it hard to commercialize.
The demonstrated included approaching a barge next to a cargo vessel, performing automated docking, and maintaining the docking and solutions in the advent of an emergency.
The mobile harbor is, in essence, is a ‘moving port’ and the automated docking technology is imperative to commercialize the mobile harbor. In order for a large container ship to unload cargo, the mobile harbor needs to approach the container ship and dock onto the side of the ship.
The technology required to keep the two moving vessels docked, out at sea, in an efficient and safe manner, is daunting. The conventional method involved sailors tying the two vessels together with rope which made it time consuming and hard to react quickly in emergency situations.
The KAIST mobile harbor research team developed the docking technology with ‘Mirae Industrial Machine’ Maritime Corporation, and ‘Ocean Space’. The mobile harbor will allow two vessels to perform loading and unloading of cargo regardless of wind and current, using robotic arms, vacuum attachment pads, wench, and are a complex, integrated system.
KAIST is planning on having a demonstration that encompasses all the technology required for mobile harbor: from the docking technology to the stabilizing crane technology.
Advancements made by KAIST are expected to speed up the commercialization and the real life application of mobile harbor.
2011.05.11 View 9609
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Industrial Liaison Program Membership Implemented
KAIST implemented, for the first time as a Korean University, the Industrial Liaison Program Membership (ILPM).
ILPM is a structure where it does not limit the university as a minor technological counseling institute and encourages the university to provide expert services that the companies need in a proactive manner.
The ILPM is an Industry-Scholar Cooperative Model that offers companies with patents, technologies, labor force, research tools, and information to the companies all the while serving as the leader in research and development that will bring competitiveness to the company.
The first member of the ILPM at KAIST is ‘Yeul Chon’ Chemicals which is a subsidiary of the Nong-Shim Group and is a leading group in the field of high tech packaging, film and environmentally friendly materials.
KAIST and Yeul Chon Chemicals signed a MOU for technological cooperation and agreement to become a member of ILPM at KAIST on the 22nd of March.
With the agreement, the Yeul Chon Chemicals will now have access to all of KAIST’s information, technology, students, and counseling from professors.
2011.04.13 View 9282