Safewindturbine seeks to practically eliminate catastrophic failures and minimise the need for corrective maintenance by developing and successfully implementing an integrated condition monitoring system for the continuous evaluation of wind turbines.
The main objective of the team project is to gain an effective approach for different healthcare applications by combining smart home technology with healthcare technology based on thermography capable of monitoring vital signs and activities of daily living (adl)
Ues delivers the next generation of methods and means for development and production of hi-tech products in modern manufacturing enterprises. A synergetic result comes from the domains of a) management and control architecture, b) distributed systems of ict, c) ubiquitous oriented embedded systems.
The project will develop the application integrating xml intelligent forms with voice engine able to communicate with doctors, patients and medical information systems so that a patient's medical records would be accessible instantaneously at a sick bed during the doctor's round.
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.
The aim of this project is to develop technical textile functionalised with natural bio-active compounds design for life quality improvement.
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.
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