The project objective is to develop both new optical sensors and aero-elastic model in order to evaluate the structural health of wind turbines and to determine its remaining life. It will allow extending wind farms life based on real data and, as a result, it will make wind energy more profitable.
The project aims to develop hybrid vlc/ir-rf system based on multiple sensing application from a single low-cost/power compact sensor module. It will create a paradigm shift in use of sensing and telecommunication technology in smart spaces by allowing objects to be sensed or controlled remotely.
Development of dmt 3d printing process technology for new metal matrix composite material (zti-powder)
The service is a geo-fence service for dementia, which allows patients with dementia to be monitored and in particular their movements out of a restricted area. We will develop wearable and iot based geo-fence service system with low power and low cost for b2c customers.
Design and develop an exhaust gas recirculation cooler (egrc) in materials of aluminum, resistant to the severe corrosion and mechanical conditions that provides a better relation efficiency / weight / cost due to a dramatically weight reduction.
Development of a solution for safe train operation to contribute to a big picture of a smart city. Based on various sensors to collect different types of data and analyze them to predict and prevent accidents efficiently. Also, by enabling preventive maintenance, maximize the lifecycle of resources.
If smart, connected products (scps) produce, and exchange data with inadequate levels of quality , then organization can fail to achieve their business goals. Dqiot project will supply organizations with results to efficiently manage the data quality in scp operations.
To develop and validate new textiles providing health and well-being to the users based on tailored multi-functional nano-composites generating negative ions and far infrared rays and, protecting humans against uv-rays and bacterial infection.
The objective is to develop a hollow optical fiber module for ultrafast laser beam delivery for ultra-precise processing of organic emitting diode (oled) and to develop laser machining system for next generation flexible oled display manufacturing using the module.
The development of a multichannel telecommunications control unit (tcu) for autonomous vehicles enabling it to communicate with infrastructure, aiming at maximum continuity of service.