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Dániel András Drexler
Dániel András Drexler
Obuda University, Physiological Controls Research Center
Verified email at uni-obuda.hu - Homepage
Title
Cited by
Cited by
Year
Tumor volume estimation and quasi-continuous administration for most effective bevacizumab therapy
J Sápi, L Kovács, DA Drexler, P Kocsis, D Gajári, Z Sápi
PloS one 10 (11), e0142190, 2015
1252015
Model-based angiogenic inhibition of tumor growth using modern robust control method
L Kovács, A Szeles, J Sápi, DA Drexler, I Rudas, I Harmati, Z Sápi
Computer Methods and Programs in Biomedicine 114 (3), e98-e110, 2014
602014
Model-based analysis and synthesis of tumor growth under angiogenic inhibition: a case study
DA Drexler, L Kovács, J Sápi, I Harmati, Z Benyó
IFAC Proceedings Volumes 44 (1), 3753-3758, 2011
562011
Modeling of tumor growth incorporating the effects of necrosis and the effect of bevacizumab
DA Drexler, J Sápi, L Kovács
Complexity 2017, 2017
542017
Assessment and standardization of autonomous vehicles
Á Takács, DA Drexler, P Galambos, IJ Rudas, T Haidegger
2018 IEEE 22nd International Conference on Intelligent Engineering Systems …, 2018
472018
Tumor dynamics modeling based on formal reaction kinetics
DA Drexler, T Ferenci, A Lovrics, L Kovács
Acta Polytechnica Hungarica 16 (10), 31-44, 2019
382019
A minimal model of tumor growth with angiogenic inhibition using bevacizumab
DA Drexler, J Sápi, L Kovács
2017 IEEE 15th International Symposium on Applied Machine Intelligence and …, 2017
332017
Potential benefits of discrete-time controllerbased treatments over protocol-based cancer therapies
J Sápi, DA Drexler, L Kovács
Acta Polytechnica Hungarica 14 (1), 11-23, 2017
332017
Experimental data-driven tumor modeling for chemotherapy
DA Drexler, T Ferenci, A Füredi, G Szakács, L Kovács
IFAC-PapersOnLine 53 (2), 16245-16250, 2020
312020
Handover Process of Autonomous Vehicles-technology and application challenges
DA Drexler, A Takács, TD Nagy, T Haidegger
Acta Polytechnica Hungarica 16 (9), 235-255, 2019
302019
Qualitative analysis of tumor growth model under antiangiogenic therapy–choosing the effective operating point and design parameters for controller design
J Sápi, DA Drexler, I Harmati, Z Sápi, L Kovács
Optimal Control Applications and Methods 37 (5), 848-866, 2016
272016
Linear state-feedback control synthesis of tumor growth control in antiangiogenic therapy
J Sápi, DA Drexler, I Harmati, Z Sápi, L Kovács
2012 IEEE 10th International Symposium on Applied Machine Intelligence and …, 2012
252012
Flat control of tumor growth with angiogenic inhibition
DA Drexler, J Sápi, A Szeles, I Harmati, A Kovács, L Kovács
2012 7th IEEE International Symposium on Applied Computational Intelligence …, 2012
212012
Modeling of tumor growth incorporating the effect of pegylated liposomal doxorubicin
DA Drexler, T Ferenci, A Lovrics, L Kovács
2019 IEEE 23rd International Conference on Intelligent Engineering Systems …, 2019
202019
Positive nonlinear control of tumor growth using angiogenic inhibition
DA Drexler, J Sápi, L Kovács
IFAC-PapersOnLine 50 (1), 15068-15073, 2017
202017
Global controllability of chemical reactions
DA Drexler, J Tóth
Journal of Mathematical Chemistry 54, 1327-1350, 2016
202016
Solution of the closed-loop inverse kinematics algorithm using the Crank-Nicolson method
DA Drexler
2016 IEEE 14th International Symposium on Applied Machine Intelligence and …, 2016
182016
State and parameter estimation of a mathematical carcinoma model under chemotherapeutic treatment
M Siket, G Eigner, DA Drexler, I Rudas, L Kovács
Applied Sciences 10 (24), 9046, 2020
172020
Qualitative analysis of a closed-loop model of tumor growth control
DA Drexler, I Nagy, V Romanovski, J Tóth, L Kovács
2018 IEEE 18th International Symposium on Computational Intelligence and …, 2018
162018
H∞ control of nonlinear systems with positive input with application to antiangiogenic therapy
DA Drexler, J Sápi, L Kovács
IFAC-PapersOnLine 51 (25), 146-151, 2018
162018
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