A new generation of loudspeakers for digital signals will be studied, prototypes will be developed and new mass production technologies will be designed.
Development of and clinical tests on a new generation of prophylactic shoes for diabetics.
30% of the global production of viscose fibres is used in blends with polyester. In this project, special viscose fibres, which are more environment-friendly and intended for use in blends, will be developed to replace the standard viscose fibre.
Through r & d into new solutions, there will be optimisation of the manufacturing of polypropylene texture threads, starting with a poy (partial oriented yarn) thread, thus providing a new thread with great features.
The purpose of the project is to investigate the surface properties of two selected textile fabrics with incorporated microcapsules using the new approach of streaming potential measurement. The knowledge of these surface properties will improve the process of micro-encapsulation.
Virtual shoe fitting is about replacing the existing footwear sizing systems (french, eu, uk, etc.) With a contemporary system based on 3d scan of a foot and 3d inner dimensions of a shoe. Consumer will scan his/her feet only once and will be able to buy best fitting shoes without trying them on.
This project would deal with knitted fabrics, produced from cotton or wool blended with fr fibres in various ratio. The target is the production of eco-innovative fr knitwear (garments) that can be competitive on the eu and overseas markets.
The objective of meproma is to evaluate existing approaches for an integrated mechatronic engineering from a user perspective. Identified gaps will be documented as requirements for methods and tools, closing the gaps and leading to an efficient use of mechatronic approaches in today's industry.
Ventilation and safety device which is to be developed within this project optimizes the life time of li-ion batteries and provides safety in case of an explosion due to overheating of the battery and nature of li ion batteries. It meets protection classes ip 66/67/69k.
The aim of the project is to research and develop the construction of a new water treatment system using reverse osmosis with a power range of 50 liters per hour with intelligent control including remote monitoring by the service center.