The aim of the project is development and clinical tests of a new generation of therapeutic surgical footwear for patients suffering from common simple and medially heavy orthopaedic handicaps.
Development of an integrated system for collection and processing of information on vehicles and logistics units on transport networks, in logistic centres and warehouses, based on uploaded (retrieved) information from rfid tags, installation of a prototype system and testing.
To develop and implement a new generation of sitting furniture with a high ergonomic quality obtainable exclusively upon application of bionic principles and implementable by means of mechatronics in a synergy with application of modified materials and technology.
To discover and develop methods of isolation, identification and propagation of bacterial strains which will be used after completion of the project for the preparation of a new polyvalent vaccine against infectious diseases of lower respiratory tract in pigs.
Development of the multi-lingual web application focused on cargo loading into railway wagons as an extensive database system with european regulations, instructions and examples, to guarantee the trouble-free fixing of the cargo during the transportation and to prevent accidents on railways.
Aim of project is research and development of technology which replaces secondary and chip-machining operations during production of stamped parts for automotive and electro-technical industry. The secondary operations will be replaced by precise, cubical cold forming operations.
The project is a unique mobile robotic device that will be able to independently measure the instantaneous shape of crane rental deviations caused by abrasion in use, evaluate and adjust the integrated machining equipment wheel profile to the desired optimal shape.
The project is aimed for applied research and development for intelligent building automation with technology of wireless sensor networks operating under ieee 802.15.4 standard. Wireless communication system will be integrated into the existing bus system inels.
The project aim is to research and develop system for an automatic detection and recognition of identification characters of rail vehicles moving at high speeds.
Integrated artificial intelligent system for detecting the wildlife migration that will utilise video surveillance technology with computer vision technology, that will provide gov. Structural and eco. Organisations with accurate data about wildlife migration for optimising road network.