The project integrates and optimizes an accurate gps for the usage of vehicle safety application. Vehicle-to-vehicle communication relies on accurate positioning and cheap cost. Both of those targets are addressed by this project.
To design, build and confirm the efficiency of a medical sterilizer prototype device, which use a non-thermal plasma discharge glidarc type, for bio-decontamination of medical instruments in order to obtain a new product.
A system to orchestrate building processes (bp). A collaborative platform enables multiple parties’ information exchange, a groundbreaking exceptions’ manager, co-storage, a built-in analytical module to make sense of the big data, and an innovative engine for dynamic and proactive design of bp
The goal of the present project is the development of a novel and multifunctional instrument panel (ip) according to the automotive industry requirements. The ip will be based on plastic electronics and high thermal dissipation capacity.
Jasmin is a cloud based it solution for complete job application process designed for job seekers and human resources departments in smes. Jasmin offers simple and user-friendly interface to connect job seekers with companies searching for new employees.
This innovative r&d project will be executed by two parties in order to share the technological and financial risks involved in developing a ground-breaking helmet platform with increased protection against rotational force to the brain.
Ecobogie is a novel bogie that will deliver environmental benefits for freight vehicles by decreasing noise emissions by at least 10 db and reducing mass by up to 1000 kg per bogie thus reducing the carbon foot print and track damage and increasing the capacity of existing rail infrastructure
Termite ppk uas – an unmanned aircraft system (uas) with a high precision survey grade gnss receiver and modular sensor architecture aimed at remote sensing, ecological monitoring, vegetation and precision agriculture.
Arwatex project aimes development of recycling methods of the textile aramid waste. The essence of project is to develop the most suitable grinding techniques, and the eco-innovative and economic application of recycled materials as functional flame retardant products.
The automotive sector requires high throughput production based on a flexible solution capable to manufacture different parts without cost associated to hard tooling. This project will develop and validate the technology required to manufacture blanks by means of high speed laser cutting.