An oscillation-free fully partitioned scheme for the numerical modeling of cardiac active mechanics
F Regazzoni, A Quarteroni - arXiv preprint arXiv:2007.15714, 2020 - arxiv.org
In silico models of cardiac electromechanics couple together mathematical models
describing different physics. One instance is represented by the model describing the …
describing different physics. One instance is represented by the model describing the …
An oscillation-free fully partitioned scheme for the numerical modeling of cardiac active mechanics
F Regazzoni, A Quarteroni - arXiv e-prints, 2020 - ui.adsabs.harvard.edu
In silico models of cardiac electromechanics couple together mathematical models
describing different physics. One instance is represented by the model describing the …
describing different physics. One instance is represented by the model describing the …
[PDF][PDF] An oscillation-free fully partitioned scheme for the numerical modeling of cardiac active mechanics
F Regazzoni, A Quarteroni - mate.polimi.it
In silico models of cardiac electromechanics couple together mathematical models
describing different physics. One instance is represented by the model describing the …
describing different physics. One instance is represented by the model describing the …
[PDF][PDF] An oscillation-free fully partitioned scheme for the numerical modeling of cardiac active mechanics
F Regazzoni, A Quarteroni - mate.polimi.it
In silico models of cardiac electromechanics couple together mathematical models
describing different physics. One instance is represented by the model describing the …
describing different physics. One instance is represented by the model describing the …