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A Robust 3-Field formulation for Generalized Poroelasticity In FEniCS 18, Oxford, United Kingdom., 2018.
A robust mixed finite element method for generalized poroelasticity In Glasgow, UK., 2018.
Stokes Biot Stability and a Mixed Formulation for Generalized Poroelasticity In Lorentz Center, Leiden, Netherlands., 2018.
Stokes-Biot Stability and a Mixed Formulation For Generalized Poroelasticity In SIAM Life Sciences. Minneapolis, Minnesota., 2018.
Stokes-Biot stability and a mixed formulation for generalized proelasticity. Lorentz Center, Leiden, Netherlands, 2018.
A Stokes-Biot Stable Hdiv-Based Mixed Method for Generalized Poroelasticity’ In ECCM-ECFD. Glasgow, United Kingdom., 2018.
A Stokes-Biot Stable H(div)-based mixed method for generalized poroelasticity In SIAM Life Sciences 2018, Minneapolis, Minnesota, USA, Edited by K. Mardal., 2018.
Waterscape of the Brain: Mathematics and Scientific Computing Enabling Clinical Simulation In Simula Research Conference, Son, Norway., 2018.
Accurate numerical modelling of small collections of cardiac cells In FEniCS'17, Luxembourg City, Luxembourg., 2017.
The Brain as a Poroelastic Medium - Simulating pulsatile motion and flow In Hamburg, Germany., 2017.
porousworkshoppdf.pdf (18.12 MB)
porousworkshoppdf.pdf (18.12 MB) "cbcbeat: an adjoint-enabled framework for computational cardiac electrophysiology." Journal of Open Source Software 2, no. 13 (2017).
"A cell-based framework for numerical modelling of electrical conduction in cardiac tissue." Frontiers in Physics, Computational Physics 5 (2017).
Compatible discretizations in our hearts and minds In ENUMATH, Voss, Norway., 2017. rognes-2017-09-28.pdf (10.39 MB)
rognes-2017-09-28.pdf (10.39 MB) FEniCS: Sustainable Software Development Practices. SIAM CSE17 PP108 Minisymposterium: Software Productivity and Sustainability for CSE and Data Science, 2017.
"High resolution data assimilation of cardiac mechanics." International journal for numerical methods in biomedical engineering 33 (2017): e2863.
Impact of high abstraction/high performance finite element software in biomedical computing In 24th International Conference on Domain Decomposition Methods, Svalbard, Norway., 2017.
"Inverse estimation of cardiac activation times via gradient-based optimization." International Journal for Numerical Methods in Biomedical Engineering 34, no. 2 (2017): e2919.
Making models of your brain's waterscape. 2017 Cutting Edge Festival, 2017.
Mathematics that cures us. Oslo: TEDxOslo 2017, 2017.
Modelling pulsatility in the context of Normal-Pressure Hydrocephalus via multiple-network poroelasticity In 5th International Conference on Computational and Mathematical Biomedical Engineering, Pittsburgh, US., 2017.
"Numerical study of intrathecal drug delivery to a permeable spinal cord: effect of catheter position and angle." Computer Methods in Biomechanics and Biomedical Engineering 20, no. 15 (2017): 1599-1608.
The numerical waterscape of the brain In Université libre du Bruxelles, Bruxelles, Belgium., 2017.
The numerical waterscape of the brain In Workshop on Biomechanics of living systems, from cells to organisms, Oslo, Norway., 2017.
The numerical waterscape of the brain In 2nd Workshop on computational aspects of perfusion and flow in live tissue, Bergen, Norway., 2017.
The PDEs of our hearts and minds In Women in PDEs, Karlsruhe, Germany., 2017. rognes-2017-04-27-karlsruhe.pdf (12.19 MB)
rognes-2017-04-27-karlsruhe.pdf (12.19 MB)