Development of a noncontact monitoring system for online quality monitoring of industrial products
The purpose of the project is to develop flame detectors with a much higher signal/noise-ratio by the application of novel magnesium-niobate-lead-titanate (pmn-pt) based single crystals instead of standard lithium tantalate (lt).
In this project a novel quality control system at digital textile printing will be developed. Thus, a 1200 dpi level online monitoring system will reduce the printing error rate less than 5 % and the total cost by approx. 25 %.
The project objective is to develop both new optical sensors and aero-elastic model in order to evaluate the structural health of wind turbines and to determine its remaining life. It will allow extending wind farms life based on real data and, as a result, it will make wind energy more profitable.