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Ivan Cimrák
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2020 – today
- 2024
- [j13]Dominika Petríková, Ivan Cimrák, Katarína Tobiásová, Lukás Plank:
Dataset of Registered Hematoxylin-Eosin and Ki67 Histopathological Image Pairs Complemented by a Registration Algorithm. Data 9(8): 100 (2024) - [c17]Lucia Piatriková, Ivan Cimrák, Dominika Petríková:
Generation of H&E-Stained Histopathological Images Conditioned on Ki67 Index Using StyleGAN Model. BIOSTEC (1) 2024: 512-518 - [c16]Adam Mracko, Ivan Cimrák, Lucia Vanovcanová, Viera Lehotská:
Deep Learning in Breast Calcifications Classification: Analysis of Cross-Database Knowledge Transferability. BIOSTEC (1) 2024: 527-535 - [c15]Dominika Petríková, Ivan Cimrák, Katarína Tobiásová, Lukás Plank:
Ki67 Expression Classification from HE Images with Semi-Automated Computer-Generated Annotations. BIOSTEC (1) 2024: 536-544 - [c14]Michal Mulík, Ivan Cimrák:
Particle and Cell Cluster Separation Based on Inertial Effects in Rectangular Serpentine Channels. BIOSTEC (1) 2024: 553-560 - [c13]Adam Mracko, Ivan Cimrák, Lucia Vanovcanová:
Enhancing Breast Microcalcification Classification: From Binary to Three-Class Classifier. FRUCT 2024: 473-481 - 2023
- [j12]Dominika Petríková, Ivan Cimrák:
Survey of Recent Deep Neural Networks with Strong Annotated Supervision in Histopathology. Comput. 11(4): 81 (2023) - [j11]Ivan Cimrák, Peter Tarábek, Frantisek Kajánek:
Curated Dataset for Red Blood Cell Tracking from Video Sequences of Flow in Microfluidic Devices. Data 8(6): 106 (2023) - [j10]Adam Mracko, Lucia Vanovcanová, Ivan Cimrák:
Mammography Datasets for Neural Networks - Survey. J. Imaging 9(5): 95 (2023) - [c12]Alzbeta Bugánová, Ivan Cimrák:
Computational Study of Particle Separation Based on Inertial Effects in Rectangular Serpentine Channels with Different Aspect Ratios. BIOINFORMATICS 2023: 284-291 - [c11]Dominika Petríková, Ivan Cimrák, Katarína Tobiásová, Lukás Plank:
Semi-Automated Workflow for Computer-Generated Scoring of Ki67 Positive Cells from HE Stained Slides. BIOINFORMATICS 2023: 292-300 - [c10]Lucia Piatriková, Peter Tarábek, Ivan Cimrák:
Digital Verification of Optically Variable Ink Feature on Identity Cards. FRUCT 2023: 210-218 - 2022
- [c9]Kristína Kovalcíková Duracíková, Alzbeta Bugánová, Ivan Cimrák:
Modelling of Arbitrary Shaped Channels and Obstacles by Distance Function. IWBBIO (1) 2022: 28-41 - [c8]Alzbeta Bohiniková, Iveta Jancigová, Ivan Cimrák, James J. Feng:
Sensitivity Analysis of Adhesion in Computational Model of Elastic Doublet. IWBBIO (2) 2022: 220-233 - 2021
- [c7]Mariana Ondrusová, Ivan Cimrák:
Computational study of red blood cell behaviour in shear flow for different bending stiffness of the membrane. IDT 2021: 282-285 - 2020
- [j9]Iveta Jancigová, Kristína Kovalcíková, Rudolf Weeber, Ivan Cimrák:
PyOIF: Computational tool for modelling of multi-cell flows in complex geometries. PLoS Comput. Biol. 16(10) (2020) - [c6]Frantisek Kajánek, Ivan Cimrák:
Advancements in Red Blood Cell Detection using Convolutional Neural Networks. BIOINFORMATICS 2020: 206-211 - [c5]Alzbeta Bohiniková, Inês Maia Gonçalves, Monika Smiesková, Alzbeta Bugánová, Ana S. Moita, Ivan Cimrák, Rui A. Lima:
Assessment of Computational Cell Model Benefits for Optimization of Microfluidic Devices. BIODEVICES 2020: 280-287 - [c4]Frantisek Kajánek, Ivan Cimrák, Peter Tarábek:
Automated Tracking of Red Blood Cells in Images. IWBBIO 2020: 800-810
2010 – 2019
- 2019
- [c3]Kristína Kovalcíková, Ivan Cimrák, Katarína Bachratá, Hynek Bachratý:
Comparison of Numerical and Laboratory Experiment Examining Deformation of Red Blood Cell. IWBBIO (2) 2019: 75-86 - [c2]Mariana Ondrusová, Ivan Cimrák:
Analysis of the Behavior of the Red Blood Cell Model in a Tapered Microchannel. IWBBIO (2) 2019: 407-417 - 2018
- [j8]Martin Busík, Martin Slavík, Ivan Cimrák:
Dissipative Coupling of Fluid and Immersed Objects for Modelling of Cells in Flow. Comput. Math. Methods Medicine 2018: 7842857:1-7842857:11 (2018) - [c1]Kristína Kovalcíková, Alzbeta Bohiniková, Martin Slavík, Isabelle Mazza Guimaraes, Ivan Cimrák:
Red Blood Cell Model Validation in Dynamic Regime. IWBBIO (1) 2018: 259-269 - 2016
- [j7]Martin Busík, Iveta Jancigová, Renáta Tóthová, Ivan Cimrák:
Simulation study of rare cell trajectories and capture rate in periodic obstacle arrays. J. Comput. Sci. 17: 370-376 (2016) - 2015
- [p1]Ivan Cimrák, Iveta Jancigová, Renáta Tóthová, Markus Gusenbauer:
Mesh-Based Modeling of Individual Cells and Their Dynamics in Biological Fluids. Applications of Computational Intelligence in Biomedical Technology 2015: 1-28 - 2014
- [j6]Ivan Cimrák, Markus Gusenbauer, Iveta Jancigová:
An ESPResSo implementation of elastic objects immersed in a fluid. Comput. Phys. Commun. 185(3): 900-907 (2014) - 2012
- [j5]Ivan Cimrák, Valdemar Melicher:
Mixed Tikhonov regularization in Banach spaces based on domain decomposition. Appl. Math. Comput. 218(23): 11583-11596 (2012) - [j4]Ivan Cimrák, Markus Gusenbauer, Thomas Schrefl:
Modelling and simulation of processes in microfluidic devices for biomedical applications. Comput. Math. Appl. 64(3): 278-288 (2012) - [j3]Ivan Cimrák:
Material and Shape Derivative Method for Quasi-Linear Elliptic Systems with Applications in Inverse Electromagnetic Interface Problems. SIAM J. Numer. Anal. 50(3): 1086-1110 (2012) - 2011
- [i1]Markus Gusenbauer, Ivan Cimrák, Simon Bance, Lukas Exl, Franz Reichel, Harald Oezelt, Thomas Schrefl:
A tunable cancer cell filter using magnetic beads: cellular and fluid dynamic simulations. CoRR abs/1110.0995 (2011) - 2010
- [j2]Ivan Cimrák, Valdemar Melicher:
Determination of precession and dissipation parameters in micromagnetism. J. Comput. Appl. Math. 234(7): 2239-2249 (2010) - [j1]Ivan Cimrák, Roger Van Keer:
Level set method for the inverse elliptic problem in nonlinear electromagnetism. J. Comput. Phys. 229(24): 9269-9283 (2010)
Coauthor Index
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last updated on 2024-09-21 23:41 CEST by the dblp team
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