The present project aims to the development of a platform for medical decision making from the integration of clinical data, massive sequencing of exomas and metabolic of the analysis of liquid biopsies of patients with breast cancer with a computational system to improve the precision medicine
The use of solid biomass in small plants is often carried out with low efficiency and high pollutant emissions. In order to improve the performance a universal retrofit solution is developed which increases the efficiency and reduces simultaneously the particulate and gaseous emissions.
Goal of the project is the development of a drone based 3d deformation monitoring system for tailings dams, embankments etc. In the project the system shall be specified, designed, developed until prototype stage and tested.
Seebee aims at the development of new smart home objects fully integrated in the building elements, such as walls and wood panels. Smart sensors and actuators for optimal control of room temperature and lightning will be developed and integrated based on flexible electronics technologies.
The overall objective of the project is designing and developing novel coloured and luminescent masterbatches that can be used in processes of injection, extrusion-blowing, extrusion, film and 3d printing. Demonstrators of real parts by using these masterbatchs (matrices/colours) will be obtained.
Project target is cost-efficient,high-temperature selective laser sintering for competitive automotive small-series additive manufacturing of peek with eco-friendly & low-cost processes, reliable quality by high & predictable fatigue strength, integrated functional construction & wear resistance
Fishcol project aims at: - obtaining fish gelatins from skins of cold water fish, performing higher features than those currently on the market. - obtaining fish gelatins and hydrolysates from other byproducts of cold-water fish (scales and bones).
Currently available personal protective equipment (ppe) against threats like ebola are inappropriate for use in hospitals in low and middle income countries. The goal of this project is to develop a more efficient ppe using innovative technologies and taking into account the general context of use.
The solution will make it possible to retrieve, store, analyze, restore and manage all the data and settings of connected geebees. with bidirectional data flow, the solution will offer vehicle fleet management at three levels: user, operator and manufacturer.
Aims to get a family of customised tools for the machining of ni-based alloys which allow a reduction of the manufacturing time and increased life in service thank to use of hipims)pvd coatings on hard metal tools, also implementing new machining strategies and tooling designs.