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Cambridge University Press and HISTAC to Publish Science and Civilization in Korea
The KAIST Research Institute for the History of Science, Technology and Civilization of Korea (HISTAC) and Cambridge University Press have agreed to publish a 10-volume collection entitled “Science and Civilization in Korea” in collaboration with the Needham Research Institute.
HISTAC was found in December 2012 with the support of the Academy of Korean Studies and the Korean Studies Promotion Service with the aim of publishing a collection composed of 30 Korean books and 7 English books on Korean science and civilization.
By November 2013, the HISTAC research team submitted a research paper composed of 11 Korean and 1 English book. It has now exceeded its initial goal of publishing 7 English books by signing the recent agreement with the Cambridge University Press.
“Science and Civilization in Korea” is the second collection of non-western science to be published by the Cambridge University Press since 1954 following “Science and Civilization in China” by Joseph Needham who is well-known for his momentous achievements in history of science in East Asia. This collection will highlight the achievements of Korea in science and civilization of Korea, much of which has been under-valued compared to those of China and Japan.[ It now has the significance similar to the Western science and civilization].
HISTAC appointed Professor Hong-Gi Yoon from the University of Auckland as the translator and invited Professor Christopher Cullen from Cambridge University and Professor Morris Low from the University of Queensland as co-editors. Professor Cullen was an editor of “Science and Civilization in China” and is now the director of the Needham Research Institute and Professor Low is an expert in modern science of East Asia.
The series includes:
- History of Science and Technology in Korea
- Technology, Everyday Life, and Korean Civilization
- History and Cultural Studies of Geomancy in Korea
- Patients, Doctors and the State: History of Korean Medical and Pharmaceutical Culture
- History of Astronomy in Korea
- Mathematics and the History of Korean Civilization
- The West and Korea in the History of Science and Technology, 1600-1950
- Imperialism, Colonialism, Post-colonialism and Technological Science in Korea
- Development of Science and Technology Under the Korean Authoritarian Regime
- Dynamics of Technological Development in Korean Industrialization
The HISTAC team believes that the publication will illuminate the nation’s triumphs in science and technology and expects that the publication will serve as valuable research resources for the study of the history of East Asian scientific civilization which has mainly focused on China and Japan. Further, by adopting various case studies of scientific achievements of South Korea and developing countries, they hope to propose a new model for studying history of science and civilization.
2013.11.28 View 8169 -
UN biological weapons expert gives lecture at KAIST
KAIST’s student organization, the ICISTS Organizing Committee, invited United Nations Security Council expert Terence Taylor to deliver a speech under the topic of ‘Terrorists and Scientists: Biological Weapons and its impact on Global Society’. The lecture took place on November 19 on the Daejeon campus.
Taylor shared his experiences as a biochemical weapons expert at Iraq and discussed the fast-approaching future of the world with biochemical weapons.
Terence Taylor is a former British military officer, who served various governmental and non-governmental organizations around the world, including UK and U.S. agencies, as well as the UN. His current work involves the non-proliferation and disarmament of nuclear or biological weapons, toxic substances and other weapons of mass destruction.
ICISTS Organizing Committee is a student organization run by of KAIST students. Since 2005, it has actively held one of the largest student conferences in Asia, ICISTS-KAIST, at KAIST every year. "ICISTS" stands for “International Conference for the Integration of Science, Technology, and Society”, which conveys its vision in achieving a harmony between science and society.
UN Security Council expert Terence Taylor
2013.11.28 View 8027 -
Green Technology for Data Centers: Ultra-low Power 100 Gbps Ethernet Integrated Circuit Developed
A new integrated circuit (IC), consuming only 0.75W of electricity, will reduce the power usage of data chips installed at data centers by one-third.
Each day, billions of people surf the Internet for information, entertainment, and educational content. The Internet contains an immeasurable amount of information and knowledge generated every minute all around the world that is readily available to everyone with a click of a computer mouse. The real magic of the Internet, however, lies in data centers, where hundreds of billions of data are stored and distributed to designated users around the clock.
Today, almost every business or organization either has its own data centers or outsources data center services to a third party. These centers house highly specialized equipment responsible for the support of computers, networks, data storage, and business security. Accordingly, the operational cost of data centers is tremendous because they consume a large amount of electricity.
Data centers can consume up to 100 times more energy than a standard office building. Data center energy consumption doubled from 2000 to 2006, reaching more than 60 billion kilowatt hours per year. If the current usage and technology trends continue, the energy consumption of data centers in the US will reach 8% of the country’s total electric power consumption by 2020.
A research team at the Korea Advanced Institute of Science and Technology (KAIST) and Terasquare, Inc. (
http://www.terasquare.co.kr
), a spin-off company of the university,
developed an extremely low-powered integrated circuit for Ethernet that consumes less than 0.75W of electricity but is able to send and receive data at the high speed of 100 gigabits per second (Gbps). The research team, headed by Hyeon-Min Bae, assistant professor of electrical engineering at KAIST, claims that the new microchip uses only one-third of the electricity consumed by the currently installed chips at data centers, thereby helping the centers to save energy.
Integrated circuits are embedded on communication modules that are inserted into a line card. Data centers have numerous line cards to build a network including routers and switches. Currently, 8W ICs are the most common in the market, and they consume a lot of energy and require the largest modules (112 cm
2
of CFP), decreasing the port density of line cards and, thus, limiting the amount of data transmission.
The ultra-low-power-circuit, 100-gigabit, full-transceiver CDR, is the world’s first solution that can be loaded to the smallest communication modules (20 cm
2
of CFP4 or 16 cm
2
of
QSFP28), the next-generation chips for data centers. Compared with other chip producers, the 100 Gbps CDR is a greener version of the technology that improves the energy efficiency of data centers while maintaining the high speed of data transmission.
Professor Hyeon-Min Bae said, “When we demonstrate our chip in September of this year at one of the leading companies that manufacture optical communication components and systems, they said that our product is two years ahead of those of our competitors. We plan to produce the chip from 2014 and expect that it will lead the 100 Gbps Ethernet IC market, which is expected to grow to USD 1 billion by 2017.”
The commercial model of the IC was first introduced at the 39
th
European Conference and Exhibition on Optical Communication (ECOC), the largest optical communication forum for new results and developments in Europe, held from September 22-26 at ExCeL London, an international exhibition and convention center.
Professor Bae added, “We received positive responses to our ultra-low-power 100-Gbps Ethernet IC at the ECOC. The chip will be used not only for a particular industry but also for many of next-generation, super-high-speed information communications technologies, such as high-speed USB, high-definition multimedia interface (HDMI), and TV interface.”
Before joining KAIST, Hyeon-Min Bae worked for many years at Finisar as a researcher who designed and developed the world’s first super-high-speed circuit, the 100 Gbps Ethernet IC.
2013.11.25 View 8501 -
President of WIPA Sang-Hui Lee and SK Hynix Awarded the 2013 Intellectual Property Award
The ceremony for the 3rd Intellectual Property Award was held at the KAIST campus in Seoul on November 2nd. The award is given annually to Korean practitioners in intellectual property.
This year’s recipients were Sang-Hui Lee, the president of the World Intellectual Property Association of Korean Practitioners (WIPA) and the SK Hynix Patent Group which successfully defended a long-lasting claim against a patent specialist corporation.
The Intellectual Property Award (IP Award) is presented in recognition to Korean individuals or groups that contributed to national competitiveness through creation, application, or proceedings of intellectual property, as well as to building the foundation for the protection of patents, intellectual properties, and trademarks.
President Lee successfully hosted the Global Intellectual Property Summit in Seoul, which was held in October 2012. He was a crucial force behind the foundation of WIPA in May of this year and was also elected as the first president for the organization. Recently, President Lee has been at the forefront of job creation through the efficient use of intellectual property and the creative discovery of venture endeavors.
President Lee said, “The unique characteristic of a knowledge-based society lies in the collaboration network of people and knowledge property, startups based on intellectual property, and decentralized development.”
He added, “Just as Finland adopted a policy to build venture companies in utilization of intellectual properties and encouraged the decentralized growth throughout the nation after the collapse of Nokia, Korea must adapt to meet the changing requirements of the knowledge-intensive era.”
The SK Hynix Patent Group, another recipient for the Intellectual Property Award, won the lawsuit, dragged on for 13 years, against the Rambus, an American patent specialized corporation. The group initially lost the first trial in the federal court of California, but through relentless research and efforts, they won the case in the appeals court. The IP Award was co-hosted by the Korea Patent Attorney Association, the Korea Intellectual Property and Service Association, and KAIST.
2013.11.21 View 8328 -
Professor Ji-Yun Lee, Received FAA Recognition Award
Professor Ji-Yun Lee, from the Department of Aerospace Engineering at KAIST, received the US Federal Aviation Administration (FAA) Recognition Award for her Ground-Based Augmentation System (GBAS) and her contribution to the development of satellite navigation technology.
GBAS contributes to the safety of aircraft navigation by providing flawless information with real-time location accuracy within one meter.
Professor Lee developed the monitoring software to improve the safety of GBAS users in her paper published in the International Journal of Radio Science in July of 2012.
The software will be distributed and used by many organizations including Eurocontrol following verification from the FAA technical center. It is expected to be standardized after discussions among international organizations.Professor Lee said, “As satellite navigation is applied to the infrastructure of air, marine, and ground transportation, as well as information & communications and finance, ensuring the performance and safety of the system is the most important factor. GBAS will be further developed and applied as a part of a global service system through international collaboration.”
2013.11.15 View 10160 -
2013 International Forum on Eco-Friendly Vehicle and System
Leaders in transportation technology gathered at KAIST to discuss commercialization & standardization and to encourage the exchange of research progress, strategy, and future initiatives in transportation technology.
The Graduate School for Green Transportation at KAIST hosted the 2013 International Forum on Eco-friendly Vehicles and Systems (IFEV) in Fusion Hall of the KAIST Institute Building from October 21 to 22.
About 50 leaders in the field of future transportation from academic institutes and industries including Dr. Soon-Man Hong, President of Korea Railroad Research Institute (KRRI), Dr. Kwang-Hee Nam, Professor at Pohang University of Science and Technology (POSTECH), and Mr. Mike Schagrin, the Intelligent Transportation Systems Program Manager of the US Department of Transportation (retired) participated in the 4th annual IFEV.
The commercialization & standardization session and a technical session were followed by the plenary meeting of the forum.
Dr. Hong, the keynote speaker, introduced the High Capacity Double Deck High Speed Train, Near Surface Subway System, and Urban Railway System with Wireless Power Transfer Technology under the title “Korea’s Policy and Technology Initiative for Enhancing Green Transport Systems.”
Dr. Kwang-Hee Nam presented “Electric Vehicle Trends & the POSTECH E-Car Research Center Power Train Design,” followed by Mr. Mike Schagrin who spoke about “Going Green with Connected Automation.”
Dr. Omer C. Onar from the Oak Ridge National Laboratory (ORNL) shared recent research on “ORNL Development in Stationary and Dynamic Wireless Charging.”
In the commercialization session, Faical Turki of Vahle, Germany, presented “Wireless Inductive Battery Chargers,” and Professor Kazuyuki Ouchi from Tokyo University presented “Wind Challenger, the Next Generation Hybrid Vessels.”
In the technical session, presentations and discussions were performed on future ground vehicles and railroad technology, intelligent transportation systems and strategy, and policy on eco-friendly vehicle technology, including Professor In-Soo Suh of the Graduate School for Green Transportation at KAIST who presented on “Armadillo-T: 4WD Micro Electric EV with a Foldable Body Concept.”
On the second day of IFEV 2013, representatives of the European Union’s Safe and Green Road Vehicles (SAGE) consortium discussed connectivity in road transportation as a means of improving safety, efficiency and convenience in future safe and green vehicles with collaboration from Korean transportation organizations such as the Korea Transport Institute and Electronics and Telecommunications Research Institute.
Professor Suh, who organized the forum, said, “This forum will serve as an excellent opportunity to discuss and share R&BD progress in the green transportation field. “Details can be found at http://gt.kaist.ac.kr/ifev2013/.
2013.11.15 View 11104 -
Professor Chun-Taek Rim Appointed as Associate Editor for IEEE TPEL
Professor Chun-Taek Rim of the nuclear and quantum engineering at KAIST was appointed as an associate editor of the Institute of Electrical and Electronics Engineers (IEEE) Transactions on Power Electronics (TPEL), an eminent academic journal bio-monthly published in the field of power electronics.The journal has a high impact factor (4.08), a measure reflecting the average number of citations to recent articles published in an academic journal, which ranks as the 6th the most influential journal among the 100 journals published by IEEE.Professor Rim was also appointed to an associate editor for IEEE Journal of Emerging and Selected Topics in Power Electronics in September in recognition of his expertise in wireless power and electric vehicles.
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KAIST student wins Aerospace Student Papers Grand Prize
Dong-Il Yoo, a doctoral candidate under Professor Hyun-Chul Shim, at the Department of Aerospace Engineering, KAIST, has been awarded the Second Prize Award at the 11th Korea Aerospace Industries (KAI) Paper Contest. The award ceremony was held on October 30th at the media conference room at the KINTEX ADEX 2013 Exhibition in Seoul.
Yoo"s paper, titled "A Study on Virtual Pursuit Point-based Autonomous Air Combat Guidance Law for UCAV," is highly regarded for originality and creativity. The Field Robotics Center at the KAIST Institute, where Yoo conducted his research, also received the first prize at the 7th KAI Paper Contest.
The KAI Paper Contest was first organized in 2003 to promote academic interest and advance research and development in aerospace engineering among university students.
The KAI Paper Contest is one of the most prestigious contests in Korea. It is sponsored by the Ministry of Trade, Industry and Energy, the Ministry of Land, Infrastructure and Transport, the Korean Society for Aeronautical and Space Sciences, the Korea Aerospace Industries Association, and the Korea Civil Aviation Development Association.
Dong-Il Yoo (left) and Professor Hyun-Chul Shim (right)
2013.11.11 View 11014 -
Kinetic Lighting, Dlight, Dominates World Renowned Design Awards
Professor Sang-Min Bae
“D’light,” a lamp that transforms its lampshade shape, developed by a team led by KAIST Department of Industrial Design’s Professor Sang-Min Bae, won Japan’s Good Design Awards on October the 2nd, soon after winning the internationally renowned 2013 International Design Excellence Awards (IDEA) in August.
IDEA, sponsored by the Industrial Design Society of America (IDSA) and BusinessWeek, awards the best work from over 6,000 exhibits from 50 countries. Japan’s Good Design Awards, founded by the Japan Institute of Design Promotion (JDP) in 1957, is the most prestigious and one of the World’s four major design awards.
“D’light” combines “donative” and “light.” Its meaning originates from the meaning of “delight” which means “giving great joy.” The shape and the brightness of the lamp can be transformed by turning the end of the heart-shaped lampshade. The team states that the lamp carries a figurative meaning of generous hearts lighting the neglected of the world by designing the lamp to be the brightest when it takes the shape of a heart. D’light developed as the 5th product of “the Nanum” project that started in 2006. Professor Bae first participated in the project in developing the 2nd product, “Cross Cube” in 2007. The he designed and launched the environmentally friendly humidifier “Lovepot” in 2008 and interactive tumbler “Hearty” in 2009.
The “Nanum” project aims to develop innovative products for charity to create a humane social circulatory system. The project, led by the international relief and development organisation, World Vision and KAIST’s ID+IM laboratory run by Professor Bae, donates all profits to educate the children of low-income families. The project raised a total of 1.7 billion Korean won from 2007 this year to provide scholarships to 240 children in need.
Professor Bae’s team has undertaken seed and “Nanum” projects with the theme of philanthropy design helping people in need by creating innovative designs. The project has produced four excellent and authentic products which received 44 world renowned design awards.
Professor Bae said, “’The Nanum’ project consists of planning, designing, producing and selling for charity and donates all profit to children in need through education and scholarship.” He continued, “The consumers can purchase products that are aesthetically pleasing and convenient as well as gaining an opportunity to donate to children in need.”
Figure1 Kinetic lighting D’light
Figure 2. Characteristics of “Nanum” D’light
The shape of the lampshade can be transformed. The lamp sheds the brightest light when it takes the shape of a heart, hence showing the figurative meaning of brightening the neglected parts of the world with generous hearts.
Figure 3. Detailed Images of D’light
2013.11.11 View 9002
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KAIST graduate appointed as professor at Southeast University in China
Dr. Yoon-Kyu Ahn has been appointed as a professor in the civil engineering department at Southeast University in Nanjing, China.
Dr. Ahn earned his Master’s and Ph.D. in civil & environmental engineering at KAIST, under the guidance of Professor Hoon Sohn, following his undergraduate studies at Korea University.His appointment is considered quite exceptional since most of top Chinese universities are likely hiring professors from the US and EU as a general trend.Ranked third in the field of civil engineering in China, Southeast University has been among the top ten universities in the nation. The university has 27,000 students with 1,300 faculty members in 34 schools.
2013.11.06 View 6503 -
Professor Jae-Hyung Lee appointed as AIChE fellow
Professor Jae-Hyung Lee from the Department of Chemical and Bimolecular Engineering at KAIST was appointed as a fellow in the American Institute of Chemical Engineers (AIChE).
Established in 1908, AIChE is the largest association of chemical engineers worldwide, which now boasts more than 40,000 members from 90 countries.
Following Distinguished Professor Sang Yup Lee from the same department at KAIST, Professor Jae-Hyung Lee is the second Korean appointed as a fellow by the organization.
He has been acknowledged for his innovative research on the improvement of model predictive control of industrial processes.
Professor Lee is the director of the Saudi Armaco-KAIST CO2 Management Center at KAIST, a fellow of the Institute of Electrical and Electronics Engineers (IEEE) and the International Federation of Automatic Control (IFAC), and a member of the Korean Academy of Science and Technology.
He received the Young Investigator Award from the National Science Foundation (NSF) in 1994 and the Computing in Chemical Engineering Award from AIChE in 2013.
2013.11.05 View 8801 -
Metabolically engineered E. coli producing phenol
Many chemicals we use in everyday life are derived from fossil resources. Due to the increasing concerns on the use of fossil resources, there has been much interest in producing chemicals from renewable resources through biotechnology.
Phenol is an important commodity chemical, and is a starting material for the production of numerous industrial chemicals and polymers, including bisphenol A and phenolic resins, and others. At present, the production of phenol entirely depends on the chemical synthesis from benzene, and its annual production exceeds 8 million tons worldwide. Microbial production of phenol seems to be a non-viable process considering the high toxicity of phenol to the cell.
In the paper published online in Biotechnology Journal, a Korean research team led by Distinguished Professor Sang Yup Lee at the Department of Chemical and Biomolecular Engineering from the Korea Advanced Institute of Science and Technology (KAIST) reported the successful development of an engineered Escherichia coli (E. coli) strain which can produce phenol from glucose. E. coli has been a workhorse for biological production of various value-added compounds such as succinic acid and 1,4-butanediol in industrial scale. However, due to its low tolerance to phenol, E. coli was not considered a viable host strain for the biological production of phenol.
Professor Lee"s team, a leading research group in metabolic engineering, noted the genetic and physiological differences of various E. coli strains and investigated 18 different E. coli strains with respect to phenol tolerance and engineered all of the 18 strains simultaneously. If the traditional genetic engineering methods were used, this work would have taken years to do. To overcome this challenge, the research team used synthetic small RNA (sRNA) technology they recently developed (Nature Biotechnology, vol 31, pp 170-174, 2013). The sRNA technology allowed the team to screen 18 E. coli strains with respect to the phenol tolerance, and the activities of the metabolic pathway and enzyme involved in the production of phenol. The research team also metabolically engineered the E. coli strains to increase carbon flux toward phenol and finally generated an engineered E. coli strain which can produce phenol from glucose.
Furthermore, the team developed a biphasic extractive fermentation process to minimize the toxicity of phenol to E. coli cells. Glycerol tributyrate was found to have low toxicity to E. coli and allowed efficient extraction of phenol from the culture broth. Through the biphasic fed-batch fermentation using glycerol tributyrate as an in situ extractant, the final engineered E. coli strain produced phenol to the highest titer and productivity reported (3.8 g/L and 0.18 g/L/h, respectively). The strategy used for the strain development and the fermentation process will serve as a framework for metabolic engineering of microorganisms for the production of toxic chemicals from renewable resources.
This work was supported by the Intelligent Synthetic Biology Center through the Global Frontier Project (2011-0031963) of the Ministry of Science, ICT & Future Planning through the National Research Foundation of Korea.
Process of Phenol Production
2013.11.05 View 9264