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Tae-Wan Kim, a doctoral candidate, receives the best paper award from ECTC
The 2014 Electronic Components and Technology Conference (ECTC) will take place on May 27-30 in Florida, USA. Tae-Wan Kim, a Ph.D. candidate at the Department of Materials Science Engineering (MSE), KAIST, will receive the Intel Best Student Paper Award at the conference.ECTC is the premier international conference that brings together the best researchers and engineers in packaging, components and microelectronic systems science, technology and education in an environment of cooperation and technical exchange. The conference is sponsored by the Components, Packaging and Manufacturing Technology (CPMT) Society of IEEE (Institute of Electrical and Electronics Engineering).The paper describes research on novel nanofiber anisotropic conductive films for ultra fine pitch electronic package application, which was written under the guidance of Professor Kyung-Wook Paik of the MSE Department. In the past ten years, two of his students have received the best paper award from ECTC.
2014.03.14 View 13491 -
Visit by Sir Paul Maxime Nurse, President of the Royal Society
Sir Paul Maxime
Nurse, who is an English geneticist and cell biologist, visited KAIST and gave
a lecture entitled The Great Ideas of
Biology on March 11, 2014.
Sir Paul was awarded the 2001 Nobel Prize in
Physiology or Medicine with Leland H. Hartwell and R. Timothy Hunt for their discoveries
of protein molecules that control the division of cells in the cell cycle.
He was Professor of Microbiology at the University
of Oxford, CEO of the Imperial Cancer Research Fund and Cancer Research UK, and
President of Rockefeller University in New York. Sir Paul is currently the President of
the Royal Society as well as Director and Chief Executive of the Francis Crick
Institute.
Founded in London in 1660, the Royal Society is composed of the world’s most distinguished scientists drawn from all areas of
science, engineering, and medicine.
Below is a summary of his lecture, The Great Ideas of Biology:
Four major ideas of biology
are the theory of genes, evolution by natural selection, the proposal that the
cell is the fundamental unit of all life, and the chemical composition of a cell.
When considering the
question “what is life?” these ideas come together. The special way cells reproduce
provides the conditions by which natural selection takes place, allowing living
organisms to evolve. The organization of chemistry within the cell provides
explanations for life’s phenomena.
In addition, an emerging idea
is the nature of biological self-organization with which living cells and organisms
process information and acquire specific forms. These great ideas have
influenced one another and changed the way we perceive biology and science
today.
2014.03.11 View 12156 -
Book Announcement: Sound Visualization and Manipulation
The movie
Gravity
won seven Oscar awards this year, one of which was for its outstanding 3D sound mixing, immersing viewers in the full experience of the troubled space expedition.
3D audio effects are generated by manipulating the sound produced by speakers, speaker-arrays, or headphones to place a virtual sound source at a desired location in 3D space such as behind, above, or below the listener's head.
Two professors from the Department of Mechanical Engineering at KAIST have recently published a book that explains two important technologies related to 3D sound effects: sound visualization and manipulation.
Professor Yang-Hann Kim, an eminent scholar in sound engineering, and Professor Jung-Woo Choi collaborated to write Sound Visualization and Manipulation (Wily 2013), which uniquely addresses the two most important problems in the field in a unified way.
The book introduces general concepts and theories and describes a number of techniques in sound visualization and manipulation, offering an interrelated approach to two very different topics: sound field visualization techniques based on microphone arrays and controlled sound field generation techniques using loudspeaker arrays.
The authors also display a solid understanding of the associated physical and mathematical concepts applied to solve the visualization and manipulation problems and provide extensive examples demonstrating the benefits and drawbacks of various applications, including beamforming and acoustic holography technology.
The book will be an excellent reference for graduate students, researchers, and professionals in acoustic engineering, as well as in audio and noise control system development.
For detailed descriptions of the book:
http://as.wiley.com/WileyCDA/WileyTitle/productCd-1118368479.html
2014.03.10 View 15721 -
The 4th Meeting of Korea and Denmark Alliance for Green Growth
President Steve Kang attended the “Fourth Meeting of Korea and Denmark Alliance for Green Growth” which took place on March 6, 2014 at the Shilla Hotel in Seoul. President Kang was a keynote speaker at the meeting and gave a lecture on sustainable energy.
KAIST and the Technical University of Denmark (DTU) signed a memorandum of understanding (MOU) on the “Cooperation for Innovation and Entrepreneurship” at the meeting.
In the MOU, KAIST and DTU agreed to post the information on their websites regarding the patents acquired through the implementation of joint research programs. In addition, KAIST students will attend conferences and idea competitions organized by DTU, e.g., the Green Challenges. DTU students will participate in KAIST’s conferences and competitions including “Startup KAIST Global Idea Competition.”
2014.03.07 View 9236 -
KAIST Holds Open Lecture For Daejeon Residents
Free of cost for any Korean citizen, the registration for the new course opens on the official website from 5th March KAIST’s Department of Humanities and Social Science is currently operating free humanities and liberal arts classes for Daejeon residents.
The theme of the course for this semester is “World and Politics,” which will begin on 13th March and run every Thursday for 6 weeks at KAIST’s International Seminar Room.
This course has been organized to introduce the general public to the current political situation with neighboring countries such as China, Japan and North Korea, as well as the characteristics of multinational companies.
Top experts in the related fields will give lectures. First, Professor Ha-Yong Jung from Kyunghee University will talk on “American liberalism and democracy”; Professor Gyeong-Mo An from Korea National Defense University on “Kim Jeong-Eun and the Future of North Korea--Is the Collapse of North Korea A Reality?” and Ja-Seon Koo, a visiting professor at Korea National Diplomatic Academy on “The Chinese Communist Party during the Xi Jinping Period.”
“With the era of globalization, the political situations in the neighboring countries have both direct and indirect effects on our lives,” said Professor Hyeon-Seok Park who has organized the courses. "These classes will be an opportunity for our citizens to understand and learn about the current affairs in the world.”
Anyone can attend the course, and registration is from March 5th to 9th at the official webpage of KAIST’s Humanities and Social Sciences Department (http://hss.kaist.ac.kr). All the courses are free of charge.
Contact: Department of Humanities and Social Science Research (Tel. 350-4687, E-mail: baobab@kaist.ac.kr)
2014.03.06 View 7457 -
Seung-Han Lee, a doctoral student in electrical engineering, receives the best paper award from ISQED 2014
Seung-Han
Lee, a doctoral candidate in the department of electrical engineering at KAIST,
received a Best Paper Award from the International Symposium on Quality
Electronic Design (ISQED), a high-profile international conference started in 2000 to promote innovation and quality in electronic and
engineering designs through inter- and multidisciplinary approaches. The
award ceremony will take place at the 2014 ISQED on March 3-5, 2014 at the Convention
Center in Santa Clara, CA, USA.
Professor
Chong-Min Kyung, an advisor to Seung-Han, expressed his excitement about his student's achievement.
“This is
the first time a Korean has ever received the best paper award at this academic
conference. It’s great news to our student as well as to KAIST.”
The topic
of Lee’s research paper was dynamic cache data management for minimizing the
energy consumption of three-dimensional multi-processor semiconductor chips.
2014.03.03 View 12372 -
Quacquarelli Symonds (QS) World University Rankings by Subject 2014
The QS
World University Rankings are annual university rankings published by
Quacquarelli Symonds (QS) which provides the overall rankings of top global
universities as well as the rankings for individual subjects. The 2014 QS World
University Rankings by Subject is a comprehensive guide to the world’s best universities
in 30 popular subjects of 5 academic disciplines: arts & humanities,
engineering & technology, life sciences & medicine, natural sciences,
and social sciences.
According
to the 2014 subject rankings, released on February 26, KAIST made the list of top
50 universities in 9 subjects: physics & astronomy; materials sciences;
chemistry; chemical engineering; mechanical, aeronautical & manufacturing
engineering; electrical & electronic engineering; civil & structural engineering;
computer science & information systems; and biological sciences.
Among
them, KAIST was ranked number one in Korea for 5 subjects: materials sciences
(16th); mechanical, aeronautical & manufacturing engineering (21st);
civil & structural engineering (32nd); computer science &
information systems (36th), and biological sciences (43rd).
For basic sciences, KAIST has made good progress as well. For example, in
mathematics, KAIST took first place in Korea and was ranked in the 51st-100th
of the world’s top universities. Another notable result was that its business college
in Seoul campus, a relatively new addition to KAIST, made the rankings list of
51st-100th in accounting & finance.
The 2014
QS subject rankings used the following criteria for its evaluation of
university performance: a survey of academic and employer reputation, citations
per paper, inclusion of specialists, and the h-index, known as the Hirsch index or Hirsch number, which was
suggested by Jorge E. Hirsch, a physicist at the University of California in
San Diego, as a tool for determining theoretical physicists’ relative quality.
Today, the h-index is used to measure
both the productivity and impact of the published work of a scientist or
scholar.
2014.02.28 View 12048 -
Festival Featuring Asia's Best Science Students to be Held
The first Electronic Olympics, which will host students from five top Asian research-centered universities, will be held in August at KAIST. Students will take part in competitive events and explore cultural diversity. Student representatives of HKUST, NTU, TITECH, Tsinghua University, and KAIST gathered on February 20 to begin planning the tentatively named “ASPIRE E-Olympics.”
The key words of this Olympics are "Harmony" and "Competition." The events will be composed of an AI programming contest, SEM (Scanning Electron Microscope) picture contest, and the other technology-based contests. Cultural events, where each university’s students can interact, will also be prepared.
ASPIRE (Asian Science and Technology Pioneering Institutes of Research and Education) events have been held from 2009. Previously, the ASPIRE forum has been an exchange event for groups of vice presidents and graduate school students from the five schools to exchange achievements in education and research. This year, it has been extended to undergraduates.
Yoseop Kim, KAIST’s student body vice president, said that he wants to make a MOU with some of Asia’s best research-centered universities and develop it into something similar to the Davos Forum. His intention is to support the E-Olympics in the hope that ASPIRE will become a top university consortium.
From left, HKUST, KAIST, NTU, TITECH, Tsinghua University Logos
Student representative group photo of Top Asian Research-Centered Universities
Electronic Olympics for students from five top Asian science and engineering universities to be held in August
2014.02.27 View 9641 -
Professor Yong-Tak Im of Mechanical Engineering Appointed as President of Korea Institute of Machinery and Materials
Yong-Tak Im, Professor of the Department of
Mechanical Engineering at KAIST, was sworn in on February 25, 2014 as
the 16th president of the Korea Institute of Machinery and Materials
(KIMM), a leading government-funded research institution in Korea. KIMM was
established in 1976 to contribute to the development of
Korea through the invention of source technology and technology transfer in
mechanical engineering.
President Im graduated from Seoul National
University, obtaining degrees of Bachelor of Science and Master’s in mechanical
engineering. He later studied at the University of California in Berkeley and
received a doctoral degree in mechanical engineering.
After working as an assistant professor of
the Industrial and Systems Engineering at the Ohio State University,
President Im joined KAIST as a professor of mechanical engineering in 1989.
President Im took many important posts at
KAIST, including Dean of Planning Office, Dean of External Affairs and Public
Relations Office, and Associate Vice President of Special Projects and
Institutional Relations, making a great addition to the university’s endeavors for
globalization.
Among the awards President Im received was the
William Johnson Award in 2007 presented by the Advances in Materials and
Processing Technologies, the Research Achievement Award in 2010 by the Global
Congress on Manufacturing and Management, and the Presidential Award in 2012 by
the Republic of Korea. He was also elected as the vice president of the Korean
Society of Mechanical Engineers, the largest association of professionals in
the mechanical engineering field in Korea.
President Im is currently a professor at
POSCO, an internationally known Korean steel company, and a member of the
Korean Academy of Science and Technology and the National Academy of
Engineering of Korea, respectively.
President Im will serve KIMM for three
years until February 24, 2017.
2014.02.25 View 12747 -
Former Minister of Science and Technology, Dr. KunMo Chung, Awarded KAIST Honorary Doctorate
KAIST will confer an honorary doctorate on former minister of Science and Technology, Dr. KunMo Chung, at the 2014 KAIST graduation ceremony on Friday, February, 21.Dr. Chung presented the Survey Report for the Establishment of the Korea Advanced Institute of Science (KAIS) to the United States Agency for International Development (USAID) in 1969. This proposal for nurturing the advanced science technology elite and boost Korean industrial development became the foundation for KAIS, which is now known as KAIST.After passing the KAIS Foundation Law in 1970, Dr. Chung designed the faculty room, secured faculty members, and acquired a $6 million education loan from the USAID. Dr. Chung devoted himself to research and teaching. His first appointment was the position of assistant professor at the University of South Florida, followed by research professor positions at the Princeton Nuclear Fusion Research Center and MIT Nuclear Engineering, and an associate professor position in the Department of Electrophysics at the Polytechnic Institute of New York.When KAIS was founded on Feb. 16, 1971, 31-year-old Dr. KunMo Chung became the provost and a professor in the Electronic and Electrical Science Department where he made outstanding contributions to the development of science and technology in Korea.
2014.02.21 View 11840 -
A student club for education donation at KAIST received an award from the City of Daejeon Education Superintendent
One of the student clubs at KAIST, the Midam Scholarship Fund, was awarded by the education superintendent of Daejeon City in recognition of its contributions to the education benefits of underprivileged students in the region.The Midam Scholarship Fund was established in 2009, and since then, it has helped many teenage students who are suffering financial hardships through knowledge donation. The Fund organized private classes and mentoring programs for the students as well as collaborating with other education donation clubs at seven different universities in Korea.The award ceremony was held on February 20th at the City Hall in Daejeon.
2014.02.21 View 8484 -
KAIST developed an extremely low-powered, high-performance head-mounted display embedding an augmented reality chip
Walking around the streets searching for a place to eat will be no hassle when a head-mounted display (HMD) becomes affordable and ubiquitous. Researchers at the Korea Advanced Institute of Science and Technology (KAIST) developed K-Glass, a wearable, hands-free HMD that enables users to find restaurants while checking out their menus. If the user of K-Glass walks up to a restaurant and looks at the name of the restaurant, today’s menu and a 3D image of food pop up. The Glass can even show the number of tables available inside the restaurant. K-Glass makes this possible because of its built-in augmented reality (AR) processor. Unlike virtual reality which replaces the real world with a computer-simulated environment, AR incorporates digital data generated by the computer into the reality of a user. With the computer-made sensory inputs such as sound, video, graphics or GPS data, the user’s real and physical world becomes live and interactive. Augmentation takes place in real-time and in semantic context with surrounding environments, such as a menu list overlain on the signboard of a restaurant when the user passes by it, not an airplane flight schedule, which is irrelevant information, displayed. Most commonly, location-based or computer-vision services are used in order to generate AR effects. Location-based services activate motion sensors to identify the user’s surroundings, whereas computer-vision uses algorithms such as facial, pattern, and optical character recognition, or object and motion tracking to distinguish images and objects. Many of the current HMDs deliver augmented reality experiences employing location-based services by scanning the markers or barcodes printed on the back of objects. The AR system tracks the codes or markers to identify objects and then align them with virtual reality. However, this AR algorithm is difficult to use for the objects or spaces which do not have barcodes, QR codes, or markers, particularly those in outdoor environments and thus cannot be recognized. To solve this problem, Hoi-Jun Yoo, Professor of Electrical Engineering at KAIST and his team developed, for the first time in the world, an AR chip that works just like human vision. This processor is based on the Visual Attention Model (VAM) that duplicates the ability of human brain to process visual data. VAM, almost unconsciously or automatically, disentangles the most salient and relevant information about the environment in which human vision operates, thereby eliminating unnecessary data unless they must be processed. In return, the processor can dramatically speed up the computation of complex AR algorithms. The AR processor has a data processing network similar to that of a human brain’s central nervous system. When the human brain perceives visual data, different sets of neurons, all connected, work concurrently on each fragment of a decision-making process; one group’s work is relayed to other group of neurons for the next round of the process, which continues until a set of decider neurons determines the character of the data. Likewise, the artificial neural network allows parallel data processing, alleviating data congestion and reducing power consumption significantly. KAIST’s AR processor, which is produced using the 65 nm (nanometers) manufacturing process with the area of 32 mm2, delivers 1.22 TOPS (tera-operations per second) peak performance when running at 250 MHz and consumes 778 miliWatts on a 1.2V power supply. The ultra-low power processor shows 1.57 TOPS/W high efficiency rate of energy consumption under the real-time operation of 30fps/720p video camera, a 76% improvement in power conservation over other devices. The HMDs, available on the market including the Project Glass whose battery lasts only for two hours, have revealed so far poor performance. Professor Yoo said, “Our processor can work for long hours without sacrificing K-Glass’s high performance, an ideal mobile gadget or wearable computer, which users can wear for almost the whole day.” He further commented:“HMDs will become the next mobile device, eventually taking over smartphones. Their markets have been growing fast, and it’s really a matter of time before mobile users will eventually embrace an optical see-through HMD as part of their daily use. Through augmented reality, we will have richer, deeper, and more powerful reality in all aspects of our life from education, business, and entertainment to art and culture.” The KAIST team presented a research paper at the International Solid-State Circuits Conference (ISSCC) held on February 9-13, 2014 in San Francisco, CA, which is entitled “1.22TOPS and 1.52mW/MHz Augmented Reality Multi-Core Processor with Neural Network NoC for HMD Applications.”Youtube Link: http://www.youtube.com/watch?v=wSqY30FOu2s&feature=c4-overview&list=UUirZA3OFhxP4YFreIJkTtXw
2014.02.20 View 18519