To investigate the possibility of developing biomarkers for hcc prognosis and companion diagnostics by using advanced sequencing technologies (ngs) and the data analysis algorithms for a set of target biomarkers.
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.
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.
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
Development of a new generation obiggs systems based on current state-of-the-art at cesa(systems and hfts) adn emk (hfts and other components for 150 seats civil aircrafts
There is a vast need of integration of low cost thermal sensor into security and surveillance systems. The project aims to develop the world's most cost-effective thermal imaging technology, coupled with visible which will create a paradigm shift in use of thermal imaging technology in the market.
The goal is to develop innovative health services for health care professionals to help them prevent and monitor patients suffering from chronic neurological diseases by combining strong points from south korea in electronics and switzerland in health data analysis.
Development of a multi-function smart hand-free display system for connected smart factory - micro display of compact size, lightness, low power consumption - sensor modules for vital conditions and ambient air quality
The proposed project aims at the implementation of platform for the development of entertainment and edutainment applications. The platform will include advanced 3d rendering, depth keying, sensor-less gesture tracking, avatar animation with motion capture and generating 3d models with 3d scanners
The objectives of the proposed project are to define the requirements and to develop and validate a platform for iot connectivity with proven interoperability with other devices using the same transport technologies. The iot platform will be provided with short range and long range communications.