This is a highly interdisciplinary project aiming at the development, analysis and simulation of mathematical models of the cardiovascular system. It demands a collective expertise to address complex problems and a close connection between mathematics, scientific computing and clinical experiments.
This project is focussed on the development of an automatic, combined system for the complete identification of vehicles. This device has three different modules, including both hardware and software levels: 1.-Number plate recognition; 2.-Colour recognition; 3.-Magnetic recognition.
This project is devoted to research and development of novel metamaterial-based (mtm-based) passive and active sensing devices for agricultural, environmental and in-ground detection applications. High performance and compact soil-moisture sensors and ground penetrating radars are envisaged.
The objective is the development of an original, patentable synthesis of the antihypertensive generic drug aliskiren, class renin-angiotensin antagonist. The project result will be the process, leading to the cheap, safe and environmentally friendly production of aliskiren.
Development of a rapid and easy-to-use method for determination of erythropoietin isoform-profiles in biological specimens, where aberrant distribution is appearing during pathological conditions, during therapy and after illegal doping.
To develop a safe, minimally invasive, cost efficient and clinically tested treatment of cancer that stimulates the immune defence, gives improved cure rates and prolonged survival. ilt is much less traumatic than standard surgery and has low production and treatment cost.
The main subject of this project is the investigation of the improvement of membrane filtration processes in dairy industry by application of new developed process, reduction of membrane fouling and enhancement of the process economy.
The project objective is to design a mode of application of the x-ray fluorescent spectrometry as a field analytical method that is able to provide analytical data instantly and at exploration site.
To develop a robust ultrafiltration and nanofiltration watertreatment installation based on ceramic membranes.
To build a 2-d laser system for material processing. There two main areas of innovation in the project: 1) development of a new type of high power laser ; 2) development of a very high performance linear motor; and 3) development of a high performance digital drive.