Ims 4.0 will be a modular shredder that will allow quick shifting of the grinding head in accordance with the requirements of the input materials. Part of the ims 4.0 will also be a program module with advanced mathematical optimization algorithms that will optimally enable the adjustment of ims 4.0
Project aims to develop a wireless power measurement system. Since the price of power will undoubtedly go up, individual energy consumers need to be monitored accurately, using the data to implement energy-saving measures.
The consortium plans to develop a fully autonomous, smart and sustainable indoor wayfinding solution using electronic paper displays
The project will conduct a comprehensive research on the application of constructed wetlands technology (cws) for various specific pollutants (heavy metals, pharmaceuticals, phosphorus and nitrogen), more cws will be tested also in the third world countries as part of the "water reuse" strategy.
The aim of the project is to create a technologically advanced electric motorcycle that will combine carbon materials, an electric drive unit, control electronics and other technical solutions of their own production.
At the end of the project a comprehensive and innovative application for managing and knowledge sharing in large and complex construction contracts based on fidic conditions will be developed.
Cerplast project will obtain injection moulding tools for plastic industry through the development of advanced material formulations based on ceramics that will be processable by means of fused filament fabrication (fff) and jetting blinder, both technologies of 3d printing.
The main result of the project will be a new product: an it cloud solution for complex billing with integrated ai designed for the active management of energy consumption of end-consumers and consumer groups (block chain).
The main result of the project will be a new product: ai extension designed for 100% protection of personal data, which will be integrated into smart assistants for e-mail analysis.
The aim of the project is to develop automated optical system for measurement of oxygen levels in modified atmosphere packaging of products, which will enable precise and rapid measurements of oxygen, saving the producers in various industries cost and time.