The aim of this project is to develop technical textile functionalised with natural bio-active compounds design for life quality improvement.
This research is concerned primarily with electrically conductive textiles. The work that would be carried out would focus on the design for intelligent wearable garment from a knitwear design perspective. The knitwear technique, and garment design skill have to be integrated interactively.
To develop criteria for environmentally friendly road and rail freight vehicles and to identify ways of encouraging their operation in service in order to reduce the environmental impact of transport.
Maintenance of networks is one of the most costly budget heading for telecommunication operator. Our solution will reduce dramatically by isolating rapidly what subpart of the network is out of order. It is compose by a low cost innovative probe and a web based server solution.
The project aims to the revalorisation of a renewable francion of industrial waste such as glycerol transforming it into an advance biofuel that may be used in several uses, including transport and heating. The project will link the gaps between laboratory and the manufacturing plants.
The main objective of the project is the design and development of new advanced technologies to optimize and improve the productivity of rolling mills and skin pass, improving process efficiency, quality of material produced and reducing their operating costs.
T-bea (tool for biomass energy accessibility) is a technological solution with a test-proven operative environment to measure efficiently accessible forested biomass growing up in agricultural areas, providing information about new bio-energy resources in our surroundings with earth observation.
To develop a new manufacturing process, based on specific data, of garment for obese and elderly people. The paradigm is a network portal with modules/ libraries, as a guideline for designing and manufacturing fitting clothing. The network will make the joint producers-customers-market.
Oligolac is a project aim to revalorization of renewable substrate of dairy industry such as whey transforming it into bioproducts that may be used in zootechny field as feed additives with immune modulatory and prebiotic effect. The project will diversify protein and mineral sources in animals diet
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.