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.
The project is addressing security and validity of electronic documents from the prospective of long term archiving in cloud. Special attention is given to safe and secure mobile access to the documents archived in a trusted electronic storage in cloud.
To achieve an innovation in the dike safety monitoring, namely the use of geotextiles and "smart" cables to assess the acute risk of flooding in order to take appropriate action, like reinforcement of embankments or the installation of a permanent monitoring system.
Euripides2 will cover the electronic systems integration value chain, from materials, equipment and technologies, through components, modules, up to embedded, mechatronics, enmeshed and implanted systems.
To develop intermediate temperature solid oxide fuel cell (it-sofc) technology addressed to the automotive and energy sector. Special attention will be paid in massive synthesis of non-conventional materials and scalability of manufacturing processes for cells and interconnects.
The goal of this project is the development of a real time intelligent system for a comprehensive management of wind farms. It will include a revolutionary early detection fault and failure analysis engine and diagnostic engine to improve operation&maintenance.
The present project will develop new tailored products based on ceramic compositions to make them processable by means of fused deposition modelling (fdm) and selective laser sintering (sls) technologies. The project will also develop new fdm equipment adapted to the new ceramic compositions.
Advanced metering infrastructure (ami) are systems that measure, collect, and analyse energy usage, and communicate with metering devices such as electricity meters either on request or on a schedule. These systems include hardware, software, communications, consumer energy displays and controllers
Development of 100 femtosecond laser based ultra-precision manufacturing process and system to increase production yield rate for next generation display "smart amoled (active matrix active matrix organic light emitting)" - flexible, foldable, transparent, wearable, and sensor integrated