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.
The product "pocket pet" is an innovative, technologically up-to-date, safe, self-learning and didactic toy for children from 4 to 12 years in the form of a self-learning pocket pet (a smart device application combining augmented reality and artificial intelligence) and a set of physical products.
Flavo-pyra-tech is aiming to obtain new natural food flavours and to develop a new technology for pyrazine production using fusel oil as raw material, based on supported liquid membrane extraction (slm).
To develop novel textile fabrics and prototypes for protection, safety and well-being. Theoretical works dealing with adoption of techniques and solutions of already existing materials and fibres are envisaged, extended by a wide-range of experimental and validation activities.
The main objective of the project is to strengthen the food industry in the romania and serbia by the development of technologies for production of functional food products enriched with a range of novel low-cost, nutritious and functional soy proteins.
The objective of the susplart project is to use plasma technology for the treatment of natural polymeric materials and to develop a cost-effective, versatile, environmentally friendly, non-thermal plasma system for cleaning, disinfection and lifetime prolongation of cultural heritage objects.
Project aims to integrate inline surface inspection into emblem production of automotive parts. The innovative redesign of the production process without the need of protective foil is one major goal of this project. it is also aimed to develop modular solutions transferable to other industries.
The main goal of this project is to use locally available industrial by-products like fly ash and slag in order to replace partially portland cement and therefore reduce the carbon footprint of industrial mortars.
In ths ule²-project, extensions to the dect ule protocol will be insteigated and developed. These extension will push network and application layers, as wella as hardware and verification platforms to a new level, integrating and leveraging wake-on-radio-(wor)-technologies.
1) development and scale up of green purification processes of two active extracts 2) identification of active principles and their content in both extracts through a bioguided fractionation method 3) design of a complete dermocosmetic line formulated with qc forest biomass developed ingredients