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"The FEniCS Project Version 1.5." Archive of Numerical Software 3, no. 100 (2015).
Identifying the Parameters of the Heart: Variational Data Assimilation in Cardiac Mechanics Using Dolfin-Adjoint In FEniCS '15, Imperial College London, UK., 2015.
Introduction to dolfin-adjoint and its applications in cardiac electrophysiology In 2015 Summer School in Computational Physiology: Models, Tools, and Techniques for Cardiac Applications., 2015.
New simulation technology driven by medical challenges: the Biomedical Computing Department @ Simula In Oslo, Simula Research Laboratory., 2015.
"A Nitsche-based Cut Finite Element Method for a Fluid-Structure Interaction Problem." Communications in Applied Mathematics and Computational Science 10 (2015): 97-120.
Non-Manifold Manifold Simulations Using FEniCS In FEniCS '15, Imperial College London, UK., 2015.
Personalization of a Cardiac Compuational Model using Clinical Measurements In 28th Nordic Seminar on Computational Mechanics. Vol. 28. Tallin, Estonia: Proceedings of NSCM-28, 2015.
nordic2.pdf (210.82 KB)
nordic2.pdf (210.82 KB) Towards a Unified Framework for Automated a Posteriori Error Estimation and Adaptivity in Space-Time In SIAM CSE, Salt Lake City, USA., 2015.
Adaptive Finite Elements: Practice and Implementation In Centre for Mathematics for Applications, University of Oslo., 2014.
An Adjoint-Enabled Simulation Framework for Cardiac Electrophysiology In FEniCS'14 Workshop, University of Chicago center in Paris, France., 2014.
An Adjoint-Enabled Simulation Framework for Cardiac Electrophysiology In CBC and CCI Workshop on Cardiac Modelling at Simula Research Laboratory, Fornebu., 2014.
Automated Goal-Oriented Error Control and Adaptivity In RCN site visit to the CBC, Simula Research Laboratory, Fornebu., 2014.
High-Level Advanced Abstractions and Techniques in Finite Element Software In CBC Workshop on Computational Modeling with Applications in Biomedicine and Geophysics at Simula Research Laboratory., 2014.
In Silico Physiological Flows In Seminar in connection with Villani visit at Simula Research Laboratory, Fornebu., 2014.
Least Squares Fitting of a Cardiac Hyperelasticity Model Using an Automatically Derived Adjoint Equation In Proceedings of NSCM-27: the 27th Nordic Seminar on Computational Mechanics, Edited by A. Eriksson, A. Kulachenko, M. Mihaescu and G. Tibert. Vol. 27. Drottning Kristinas väg 53: KTH Stockholm Royal Institute of Technology, 2014.
Perspectives on the Current State of the Art of Computational Modelling of Fluid Flow in the Brain Parenchyma In CBC and CINPLA Workshop on Modelling Liquid Transport in the Brain, Simula Research Laboratory, Fornebu., 2014.
"A Stabilized Nitsche Fictitious Domain Method for the Stokes Problem." Journal of Scientific Computing 61, no. 3 (2014): 604-628.
"A Stabilized Nitsche Overlapping Mesh Method for the Stokes Problem." Numerische Mathematik 128, no. 1 (2014): 73-101.
"Unified Form Language: a Domain-Specific Language for Weak Formulations of Partial Differential Equations." ACM Transactions on Mathematical Software 40, no. 2 (2014).
An Adjoint-Enabled Simulation Framework for Cardiac Electrophysiology In CBC/CCI workshop Advancing numerical technologies in the cardiac domain., 2013.
"Automated Derivation of the Adjoint of High-Level Transient Finite Element Programs." SIAM Journal on Scientific Computing 35 (2013): 369-393.
"Automated Goal-Oriented Error Control I: Stationary Variational Problems." SIAM Journal on Scientific Computing 35 (2013): 173-193.
"Automating the Solution of PDEs on the Sphere and Other Manifolds in FEniCS 1.2." Geoscientific Model Development (2013): 2099-2119.
"Benchmarking FEniCS for Mantle Convection Simulations." Computers & Geosciences 50 (2013): 95-105.
FEniCS on a Moebius Strip In CBC seminar series., 2013.