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ORCIDDániel András Drexler
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2020 – today
- 2024
[j6]Levente Kovács
, Tamás Ferenci, Balázs Gombos, András Füredi, Imre J. Rudas, Gergely Szakács, Dániel András Drexler:
Positive Impulsive Control of Tumor Therapy - A Cyber-Medical Approach. IEEE Trans. Syst. Man Cybern. Syst. 54(1): 597-608 (2024)- [c44]Vivien Patakvölgyi, Levente Kovács, Dániel András Drexler:
Artificial Neural Networks Based Cell Counting Techniques Using Microscopic Images: A Review. SACI 2024: 327-332 - [c43]Lilla Kisbenedek, Melánia Puskás, Borbála Gergics, Levente Kovács, Dániel András Drexler:
Noise Reduction with Wavelet Transform for Clustering Time Series of Tumor Volumes. SACI 2024: 339-344 - [c42]Martin Ferenc Dömény, Melánia Puskás, Levente Kovács, Dániel András Drexler:
A Review of Multi-Objective Optimization Algorithms in the Field of Chemotherapy Optimization. SACI 2024: 345-350 - 2023
- [c41]Eszter Virágh, Dániel András Drexler, Bálint Kiss:
Motion planning and modeling for isothermal parallel chemical reactions. SACI 2023: 91-96 - [c40]Martin Ferenc Dömény, Melánia Puskás, Levente Kovács, Dániel András Drexler:
In silico chemotherapy optimization with genetic algorithm. SACI 2023: 97-102 - [c39]Tamás Dániel Szücs, Melánia Puskás, Dániel András Drexler, Levente Kovács:
Model predictive fuzzy control in chemotherapy optimization. SACI 2023: 103-108 - [c38]Lilla Kisbenedek, Melánia Puskás, Levente Kovács, Dániel András Drexler:
Indirect supervised fine-tuning of a tumor model parameter estimator neural network. SACI 2023: 109-116 - [c37]Borbála Gergics, Flóra Vajda, Alexander Ládi, András Füredi, Dániel András Drexler:
Pharmacodynamics modeling based on in vitro 3D cell culture experiments. SACI 2023: 499-504 - [c36]Martin Ferenc Dömény, Melánia Puskás, Levente Kovács, Dániel András Drexler:
Population-Based Chemotherapy Optimization Using Genetic Algorithm. SISY 2023: 23-28 - [c35]Lilla Kisbenedek, Melánia Puskás, Levente Kovács, Dániel András Drexler:
Clustering-Based Parameter Estimation of a Tumor Model. SISY 2023: 43-48 - [c34]Eszter Virágh, Bálint Kiss, Dániel András Drexler:
Closed-Loop Control and Motion Planning for Parallel Structural Chemical Reactions. SISY 2023: 283-288 - [c33]Kamilla Novák, Máté Siket, Levente Kovács, Dániel András Drexler, Imre J. Rudas, György Eigner:
Model Predictive Control with Dynamic Positive Input Extension for Artificial Pancreas Applications. SMC 2023: 1313-1319 - [c32]Kamilla Novák, Máté Siket, Levente Kovács, Dániel András Drexler, György Eigner:
Impulsive Model Predictive Control in Type 1 Diabetes Mellitus Applications. SMC 2023: 1320-1326 - 2022
- [j5]Levente Kovács, Bence Czakó, Máté Siket, Tamás Ferenci, András Füredi, Balázs Gombos, Gergely Szakács, Dániel András Drexler:
Experimental Closed-Loop Control of Breast Cancer in Mice. Complex. 2022: 9348166:1-9348166:10 (2022) - [c31]Bence Czakó, Dániel András Drexler, Levente Kovács:
Control of a T1DM Model Using Robust Fixed-Point Transformations Based Control With Disturbance Rejection. AQTR 2022: 1-6 - [c30]Dániel András Drexler, Maria Ghita, Levente Kovács:
On the relative degree of perturbed nonlinear systems. ASCC 2022: 1759-1764 - [c29]Melánia Puskás, Borbála Gergics, Alexander Ládi, Dániel András Drexler:
Parameter estimation from realistic experiment scenario using artificial neural networks. SACI 2022: 161-168 - [c28]Borbála Gergics, Balázs Gombos, Flóra Vajda, András Füredi, Gergely Szakács, Dániel András Drexler:
Pharmacodynamics modeling based on in vitro 2D cell culture experiments. SMC 2022: 2409-2414 - 2021
- [c27]Melánia Puskás, Dániel András Drexler:
Tumor model parameter estimation for therapy optimization using artificial neural networks. SMC 2021: 1254-1259 - 2020
- [c26]Bence Géza Czakó, Dániel András Drexler, Levente Kovács:
Impulsive Control of Tumor Growth via Nonlinear Model Predictive Control Using Direct Multiple Shooting. ECC 2020: 755-760 - [c25]Bálint Péceli, Dániel András Drexler, Levente Kovács:
Optimal scheduling of low-dose metronomic chemotherapy: an in-silico analysis. SoSE 2020: 411-416
2010 – 2019
- 2019
- [c24]Bence Géza Czakó, Dániel András Drexler, Levente Kovács:
Continuous time Robust Fixed Point Transformations based control. AFRICON 2019: 1-6 - [c23]Dániel András Drexler, Árpád Takács, Tamás Dániel Nagy, Péter Galambos, Imre J. Rudas, Tamás Haidegger:
Situation Awareness and System Trust Affecting Handover Processes in Self-Driving Cars up to Level 3 Autonomy. IWOBI 2019: 179-184 - [c22]Dániel András Drexler, Levente Kovács:
Optimization of impulsive discrete-time tumor chemotherapy. SA 2019: 1-7 - [c21]Dániel András Drexler, Tamás Ferenci, Anna Lovrics, Levente Kovács:
Comparison of Michaelis-Menten kinetics modeling alternatives in cancer chemotherapy modeling. SACI 2019: 27-32 - [c20]Dániel András Drexler, Tamás Ferenci, Levente Kovács:
Extended tumor growth model for combined therapy. SMC 2019: 886-891 - [c19]Tamás D. Nagy, Nikita Ukhrenkov, Dániel András Drexler, Árpád Takács, Tamás Haidegger:
Enabling quantitative analysis of situation awareness: system architecture for autonomous vehicle handover studies. SMC 2019: 904-908 - 2018
- [c18]György Eigner, Dániel András Drexler, Levente Kovács:
Tumor Growth Control by TP-LPV-LMI Based Controller. SMC 2018: 2564-2569 - 2017
- [j4]Dániel András Drexler, Johanna Sápi, Levente Kovács:
Modeling of Tumor Growth Incorporating the Effects of Necrosis and the Effect of Bevacizumab. Complex. 2017: 5985031:1-5985031:10 (2017) - [j3]Dániel András Drexler:
Regularization of the Spatial Inverse Positioning Problem of Revolute Joint Manipulators. Period. Polytech. Electr. Eng. Comput. Sci. 61(3): 279-295 (2017) - [c17]Dániel András Drexler:
Regularization of the differential inverse orientation problem of generic serial revolute joint manipulators. MMAR 2017: 402-407 - 2016
- [c16]Johanna Sápi, Dániel András Drexler, Levente Kovács:
Discrete time state feedback with setpoint control, actual state observer and load estimation for a tumor growth model. SACI 2016: 111-118 - [c15]Dániel András Drexler, Levente Kovács:
Second-order and implicit methods in numerical integration improve tracking performance of the closed-loop inverse kinematics algorithm. SMC 2016: 3362-3367 - [c14]Johanna Sápi, Dániel András Drexler, Levente Kovács:
Comparison of protocol based cancer therapies and discrete controller based treatments in the case of endostatin administration. SMC 2016: 3830-3835 - 2015
- [c13]Dániel András Drexler, Péter Arató:
A Modified Inertial Method for Loop-free Decomposition of Acyclic Directed Graphs. MACRo 2015: 61-72 - [c12]Péter Arató, Dániel András Drexler:
Comparison of two loop-free decomposition methods. SACI 2015: 477-481 - [c11]Dániel András Drexler:
Regularization of the differential inverse positioning problem of an elbow manipulator. SISY 2015: 289-294 - [c10]Johanna Sápi, Dániel András Drexler, Levente Kovács:
Comparison of mathematical tumor growth models. SISY 2015: 323-328 - [c9]Johanna Sápi, Tamas Ferenci, Dániel András Drexler, Levente Kovács:
Tumor Model Identification and Statistical Analysis. SMC 2015: 2481-2486 - 2014
- [j2]Levente Kovács, Annamária Szeles, Johanna Sápi, Dániel András Drexler, Imre J. Rudas, István Á. Harmati, Zoltan Sápi:
Model-based angiogenic inhibition of tumor growth using modern robust control method. Comput. Methods Programs Biomed. 114(3): e98-e110 (2014) - [c8]Levente Kovács, Johanna Sápi, György Eigner, Tamas Ferenci, Péter Szalay, József Klespitz, Balazs Kurtan, Miklós Kozlovszky, Dániel András Drexler, Péter Pausits, István Á. Harmati, Zoltan Sápi, Imre J. Rudas:
Model-based healthcare applications at Óbuda University. SACI 2014: 183-187 - [c7]Dániel András Drexler, István Á. Harmati:
Regularization of the differential inverse orientation problem of serial revolute joint manipulators. SACI 2014: 225-230 - [c6]Péter Arató, Dániel András Drexler, Gabor Kocza:
A method for avoiding loops while decomposing the task description graph in system-level synthesis. SACI 2014: 231-235 - 2013
- [c5]Annamária Szeles, Dániel András Drexler, Johanna Sápi, István Á. Harmati, Levente Kovács:
Model-based angiogenic inhibition of tumor growth using feedback linearization. CDC 2013: 2054-2059 - [c4]Johanna Sápi, Dániel András Drexler, István Á. Harmati, Annamária Szeles, Bernadett Kiss, Zoltan Sápi, Levente Kovács:
Tumor growth model identification and analysis in case of C38 colon adenocarcinoma and B16 melanoma. SACI 2013: 303-308 - [c3]Dániel András Drexler, István Á. Harmati:
Regularized Jacobian for the differential inverse positioning problem of serial revolute joint manipulators. SISY 2013: 227-232 - 2012
- [c2]Dániel András Drexler, Johanna Sápi, Annamária Szeles, István Á. Harmati, Adalbert Kovács, Levente Kovács:
Flat control of tumor growth with angiogenic inhibition. SACI 2012: 179-183 - 2011
- [j1]András György, Levente Kovács, Péter Szalay, Dániel András Drexler, Balázs Benyó, Zoltán Benyó:
Quasi-Model-Based Control of Type 1 Diabetes Mellitus. J. Electr. Comput. Eng. 2011: 728540:1-728540:12 (2011)
2000 – 2009
- 2009
- [c1]Dániel András Drexler, István Á. Harmati:
Symbolic robot simulation software for educational purposes. ECC 2009: 5081-5086
Coauthor Index
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