Development of thin-film coatings for integrated optics grating couplers in order to enhance their sensitivity, selectivity and speed of response for sensing applications in medicine.
Determination of the environmental footprint of a vehicle and relation of this to the economic and social costs of maintaining the infrastructure.
Development of a software system for low-cost, high quality uncertainty calculations in chemical measurements in order to promote the mutual recognition of test results and make international trade easier, especially in in the pharmaceutical and food sectors.
Development of a laseroptical flowsensor for the on-site inspection and in-situ meter calibration of conventional flow sensors of heat meters based on the measurement principle of laser doppler velocimetry.
Development and production of a new monitoring system using the electrical impedance spectrometry (eis) method.
The rf exposure in and around mri will be thoroughly assessed with respect to local sar and temperature rises. All results will be validated in experimental phantoms and in-vivo.
Development and realisation of a set of monitoring systems using the electrical impedance spectrometry method for application under real conditions.