The purpose of the project is to develop flame detectors with a much higher signal/noise-ratio by the application of novel magnesium-niobate-lead-titanate (pmn-pt) based single crystals instead of standard lithium tantalate (lt).
To develop highly flexible mobile 3d augmented reality (ar) service systems which provide a set of comprehensive features to support a wide range of mobile end user devices, communication protocols, data resolutions and of mobile services using 3d ar datasets.
We are suggesting to utilise the fruit of autumn olive, which is widely farmed in korea, for the production of natural lycopene. Supercritical co2 extraction, microencapsulation of lycopene, and the development of lycopene formulations for various products will be studied.
Replace steel & rubber hose to high temperature plastic tube with quick connector for power train part which require high temperature characteristic.
Accis (automated crowd classification & identification system) is a comprehensive access management solution for office buildings which manages & monitors all entry points and public areas. Accis augments or replaces receptionist stations with an easier more cost effective solution.
Glass on led 3dtv project objective is to provide seamless unique 3d design, which is maximising all in one appearance and protecting module, improving visual by reducing outdoor reflection, it is new concept optical component that realise the multiple design for customer's needs.
Project is focused on development of integrated sensor system which will be applied to detection of ultra-violet (uv) radiation in high temperature areas. The sensor system is based on fibre-optic components built in fully portable system.
The aim of this project is to develop technical textile functionalised with natural bio-active compounds design for life quality improvement.
The main project objectives are customised certified solution of information services (epcis), automatic identification based on rfid technology for the needs of the european automotive market, design and testing of suitable hardware and preparation of methodological procedures of implementation.
The project goal is the creation of innovative self-cleaning, self-sterilizing and antibacterial textiles by coating textiles with new nanostructured photocatalytic compounds with extended absorption in visible range.