The development of a new modular system. The production of a new laboratory device. The final result of this project should be a fully automatic serologic system. This system will be designed for clinical and research laboratories.
The main goal of the project is to develop a unique welding robot for generating crane rails. An important part of the project is the research and development of optimum welding parameters.
The aim is to develop new types of polymer composites able to face high temperatures (200-400 degrees celsius), fire (class a1 or a2) and seismicity, for adoption in strucutral engineering.
Development and processing of molecular-biological diagnostic kits for rapid and sensitive diagnosis of viruses and bacteria causing human and animal diseases.
Improved manufacturing process conditions for producing feni alloys with optimisation of quality and properties. The research should result in new quality alloy grades of this type.
The aim of the project is to develop and design a new spatial and statistic information tool for health-related data processing in management information systems. The pilot information system will also be released.
To construct an experimental plasma reactor capable of processing (recycling and energetically utilising) waste materials from the metallurgical and chemical industry, electronic waste, and waste from the pharmaceutical industry and health sector.
Development and production of a new monitoring system using the electrical impedance spectrometry (eis) method.
To develop hydraulic and pneumatic systems that from the point of view of noise emission meet and exceed the csn iso 73 0527 requirements and pi applications in theatre techniques en 1570 requirements.
Development of rail wagon accessory unit based on satellite positioning system, offering communication with a central system and monitoring of wagon parameters, and with the aim of meeting all system demands for optimal integrated standard equipment.