The consortium will merchandise a set of pistachio varieties adapted to the mediterranean climate and with a high uniformity thanks to its production under in-virtro conditions. The companies involved will develop a specific protocol for pistacia genus under in-vitro conditions.
Disruptive technology to locate a train with 1 cm accuracy in a reliable way and hack free, allowing to duplicate the capacity of traffic lines. Plastic beacons with encoded information through different thickness installed in each railway sleeper and on-board high-resolution radar to read them.
This project aims at developing the manufacturing technology of new simo alloys with higher corrosion resistant and mechanical properties at competitive prices. Activities will be focused in integrating technologies in different manufacturing systems supported by sample and prototypes manufacturing.
To develop new subsurface irrigation systems with antiroot properties for use in short and long-term crops, by the use of natural/non-toxic additives, avoiding contamination of soil and any negative effect on the cultivated plants.
The objective of techwool is to create a new line of wool-based technical textiles with improved properties of comfort, breathability and functional properties that will be achieved through innovative finishing processes and chemical products.
The main goal of the project is to develop more sustainable textile components for vehicle interiors such as headliners and upholstery, which combine biodegradability with enhanced thermal properties compared to commercially-available products.
The goal of the project is to use the ability that certain inorganic materials such as titanium, zinc, zirconium and silicate have to capture and emit far-infrared radiation when incorporated into a cationic polyester fibre in order to be used in medical textiles with health and wellbeing benefits.
High strength steels are needed for proper working of crane sheaves for drilling industry. For this purpose, a new mechanically welded sheaves, refered as "drilling sheaves", will be developed using steels which have higher tensile and impact strength.
Although 5g is being designed with sdn and nfv concepts, the current focus is on the transmission and core network, missing the radio access side. This project will focus on making the radio access side virtual and programmable to achieve 5g's vision of end-to-end virtual, programmable network.
Impetus will be an integrated solution, including the facility equipment (gateway/rtu and protection relay), the communication front-end and the user interface