Model-based control algorithms for optimal therapy of high-impact public health diseases

Kovács, Levente [Kovács, Levente (Irányítástechnika), author] Department of Control Engineering and Informati... (BUTE / FEEI); Szalay, Péter [Szalay, Péter (irányítástechnika), author] Department of Control Engineering and Informati... (BUTE / FEEI); Ferenci, Tamás [Ferenci, Tamás (Biostatisztika), author] Department of Control Engineering and Informati... (BUTE / FEEI); Sápi, Johanna [Sápi, Johanna (Egészségügyi mérnök), author] Department of Control Engineering and Informati... (BUTE / FEEI); Sas, Péter István; Drexler, Dániel [Drexler, Dániel András (Irányítástechnika), author] Department of Control Engineering and Informati... (BUTE / FEEI); Harmati, István [Harmati, István (Irányításelmélet), author] Department of Control Engineering and Informati... (BUTE / FEEI); Benyó, Balázs [Benyó, Balázs István (Informatika, irán...), author] Department of Control Engineering and Informati... (BUTE / FEEI); Kovács, Adalbert

English Conference paper (Chapter in Book) Scientific
Published: Szakál Anikó. Proceedings of the IEEE 16th International Conference on Intelligent Engineering Systems 2012. (2012) ISBN:9781467326957; 9781467326940 pp. 531-536 Paper: 6249892
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    The current paper represents a continuation of the conference paper presented at the INES 2011 conference. It summarizes the updated results of research tasks in the field of physiological modeling and control of diseases with high public health impact carried out by the Biomedical Engineering Laboratory of the Budapest University of Technology and Economics. The developed and presented optimal algorithms and strategies focus on three cases: blood glucose control in case of the artificial pancreas problem, tight glycaemic control under intensive care and optimal antiangiogenic therapy in the treatment of cancerous tumor.
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    2025-04-13 15:00