Division of IT Convergence Engineering
Encyclopedia
The Division of IT Convergence Engineering The Division of IT Convergence Engineering was founded in March 2009, and will be funded by the Korean Ministry of Education, Science and Technology as a WCU (World Class University) Program. The comprehensive nature of POSTECH’s Division of IT Convergence Engineering, combined with POSTECH’s high quality faculty, facilities, and industrial relationships, makes this division an ideal research environment for students as well as experienced researchers.
History
| Month | Year | Fact |
|---|---|---|
| Sep | 2008 | Applied for MEST’s World Class University (WCU) Program (Type 1: Establishment of Graduate School) |
| Dec | 2008 | Selected as one of two IT Convergence WCU Projects |
| Jan | 2009 | Got approval to recruit 25 students / year for ITCE |
| Jan | 2009 | Held the 1st WCU ITCE Workshop |
| Mar | 2009 | Established Division of IT Convergence Engineering |
| Apr | 2009 | Held the 2nd WCU ITCE Workshop |
| May | 2009 | Recruiting students (for Sept/2009 & Mar/2010) |
| Sep | 2009 | Opened Division of ITCE for Education |
| Oct | 2009 | Held the 1st Int. Symposium on IT Convergence Engineering |
| Feb | 2010 | Held the 3rd WCU ITCE workshop |
| Aug | 2010 | Held the 2nd Int. Symposium on IT Convergence Engineering |
| Sept | 2010 | Held the 4th WCU ITCE workshop |
| Jan | 2011 | 5th ITCE Workshop |
| July | 2011 | Held the 3rd Int. Symposium on IT Convergence Engineering |
Structure
- Autonomics
- The essence of autonomics is to manage business, system, and technical complexity. This requires new developments that enable components and systems to adapt to changing user needs, environmental conditions, and business goals. Adaptation requires context-aware, intelligent decision-making that orchestrates behavior. Supporting technologies include machine learning and reasoning, control theory, information and data modeling, ontology modeling, and semantic reasoning.
- Communications&Network
- In order to support autonomic orchestration, new protocols and data representation methods for ubiquitous systems and applications must be developed. An emphasis on low power consumption and the efficient use of resources is important for developing new nano- and bio-sensors. However, the dream of U-Health and U-Environment applications will never become a reality if smart applications are connected by dumb networkDumb networkA dumb network is marked by using intelligent devices at the periphery that make use of a network that does not interfere with an application’s operation. The dumb network concept is the natural outcome of the end to end principle...
s. Therefore, the embedding of increased cognitive abilities in networks and network devices is of paramount importance.
- In order to support autonomic orchestration, new protocols and data representation methods for ubiquitous systems and applications must be developed. An emphasis on low power consumption and the efficient use of resources is important for developing new nano- and bio-sensors. However, the dream of U-Health and U-Environment applications will never become a reality if smart applications are connected by dumb network
- Nanosenssors & Systems
- Nano-sensors and systems are critical for realizing U-Health and U-Environment applications. Research will concentrate on scaling nano-devices and -systems as well as improving their scalability and enhancing the reliability of different nanostructure-based communication and data processing methods. Modeling such devices is critical for new bio-medical applications.
- Biotechnology
- Nano-sensors and systems are critical for realizing U-Health and U-Environment applications. Research will concentrate on scaling nano-devices and -systems as well as improving their scalability and enhancing the reliability of different nanostructure-based communication and data processing methods. Modeling such devices is critical for new bio-medical applications.