A complex mathematical system of optimization of electrical energy production with decision making support will be developed and tested in a real environment. It will improve the efficiency of electrical energy production and sales.
The aim is to mathematically model technological processes in order to promote reconstruction of heating equipment in papermills and thus increase waste paper remaking capacity.
Development of a mathematical-physical model describing the phenomena accompanying glass shield penetration; determination of work direction to ensure glass manufacturing offering optimum protective properties.
The proposed project is devoted to the development of a complex yet easy-to-use parametrised data (mathematical) model with optimal user interface which will allow for effective cost management and be uniformly applicable.
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.