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Elias Karabelas

Showing results (1-10 of 12) with videos related to

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Computational Mechanics|January 25, 2020
Versatile stabilized finite element formulations for nearly and fully incompressible solid mechanicsElias Karabelas, Gundolf Haase, Gernot Plank, et al.
Computer Methods in Applied Mechanics and Engineering|April 18, 2022
An accurate, robust, and efficient finite element framework with applications to anisotropic, nearly and fully incompressible elasticityElias Karabelas, Matthias A F Gsell, Gundolf Haase, et al.
Softwarex|July 2, 2020
Automating image-based mesh generation and manipulation tasks in cardiac modeling workflows using MeshtoolAurel Neic, Matthias A F Gsell, Elias Karabelas, et al.
Plos Computational Biology|April 1, 2022
Modelling the interaction between stem cells derived cardiomyocytes patches and host myocardium to aid non-arrhythmic engineered heart tissue designDamiano Fassina, Caroline M Costa, Stefano Longobardi, et al.
IEEE Transactions on Bio-Medical Engineering|March 30, 2022
Global Sensitivity Analysis of Four Chamber Heart Hemodynamics Using Surrogate ModelsElias Karabelas, Stefano Longobardi, Jana Fuchsberger, et al.
Frontiers in Physiology|June 13, 2018
Towards a Computational Framework for Modeling the Impact of Aortic Coarctations Upon Left Ventricular LoadElias Karabelas, Matthias A F Gsell, Christoph M Augustin, et al.
Computer Methods in Applied Mechanics and Engineering|October 11, 2021
A computationally efficient physiologically comprehensive 3D-0D closed-loop model of the heart and circulationChristoph M Augustin, Matthias A F Gsell, Elias Karabelas, et al.
International Journal for Numerical Methods in Biomedical Engineering|August 29, 2018
Assessment of wall stresses and mechanical heart power in the left ventricle: Finite element modeling versus Laplace analysisMatthias A F Gsell, Christoph M Augustin, Anton J Prassl, et al.
Europace : European Pacing, Arrhythmias, and Cardiac Electrophysiology : Journal of the Working Groups on Cardiac Pacing, Arrhythmias, and Cardiac Cellular Electrophysiology of the European Society of Cardiology|December 25, 2016
Patient-specific modeling of left ventricular electromechanics as a driver for haemodynamic analysisChristoph M Augustin, Andrew Crozier, Aurel Neic, et al.
Computer Methods and Programs in Biomedicine|June 25, 2021
The openCARP simulation environment for cardiac electrophysiologyGernot Plank, Axel Loewe, Aurel Neic, et al.
Pageof 2

Showing results (1-10 of 12) with videos related to

Sort By:
Pageof 2
Computational Mechanics|January 25, 2020
Versatile stabilized finite element formulations for nearly and fully incompressible solid mechanicsElias Karabelas, Gundolf Haase, Gernot Plank, et al.
Computer Methods in Applied Mechanics and Engineering|April 18, 2022
An accurate, robust, and efficient finite element framework with applications to anisotropic, nearly and fully incompressible elasticityElias Karabelas, Matthias A F Gsell, Gundolf Haase, et al.
Softwarex|July 2, 2020
Automating image-based mesh generation and manipulation tasks in cardiac modeling workflows using MeshtoolAurel Neic, Matthias A F Gsell, Elias Karabelas, et al.
Plos Computational Biology|April 1, 2022
Modelling the interaction between stem cells derived cardiomyocytes patches and host myocardium to aid non-arrhythmic engineered heart tissue designDamiano Fassina, Caroline M Costa, Stefano Longobardi, et al.
IEEE Transactions on Bio-Medical Engineering|March 30, 2022
Global Sensitivity Analysis of Four Chamber Heart Hemodynamics Using Surrogate ModelsElias Karabelas, Stefano Longobardi, Jana Fuchsberger, et al.
Frontiers in Physiology|June 13, 2018
Towards a Computational Framework for Modeling the Impact of Aortic Coarctations Upon Left Ventricular LoadElias Karabelas, Matthias A F Gsell, Christoph M Augustin, et al.
Computer Methods in Applied Mechanics and Engineering|October 11, 2021
A computationally efficient physiologically comprehensive 3D-0D closed-loop model of the heart and circulationChristoph M Augustin, Matthias A F Gsell, Elias Karabelas, et al.
International Journal for Numerical Methods in Biomedical Engineering|August 29, 2018
Assessment of wall stresses and mechanical heart power in the left ventricle: Finite element modeling versus Laplace analysisMatthias A F Gsell, Christoph M Augustin, Anton J Prassl, et al.
Europace : European Pacing, Arrhythmias, and Cardiac Electrophysiology : Journal of the Working Groups on Cardiac Pacing, Arrhythmias, and Cardiac Cellular Electrophysiology of the European Society of Cardiology|December 25, 2016
Patient-specific modeling of left ventricular electromechanics as a driver for haemodynamic analysisChristoph M Augustin, Andrew Crozier, Aurel Neic, et al.
Computer Methods and Programs in Biomedicine|June 25, 2021
The openCARP simulation environment for cardiac electrophysiologyGernot Plank, Axel Loewe, Aurel Neic, et al.
Pageof 2