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Is Respiration the main driver of CSF Flow? In International Convention Center, Kobe, Japan, Edited by P. K. Eide, M. E. Rognes and K. Mardal., 2017.
kobe.pdf (9.55 MB)
Towards coupled mixed dimensional finite elements in FEniCS In FEniCS17 conference, University of Luxembourg, Luxembourg., 2017.
A 2-day training course in FEniCS and dolfin-adjoint In NGCM Summer Academy, University of Southampton., 2016.
On accurate and efficient simulations of multiple-network poroelastic modelling with applications to interstitial fluid flow in the human brain In WCCM XII & APCOM VI, Seoul ., 2016.
"Adjoint Multi-Start Based Estimation of Cardiac Hyperelastic Material Parameters using Shear Data." Biomechanics and Modeling in Mechanobiology (2016): 1-13.
submitted_article.pdf (920.2 KB)
Developing simulation technology to solve biomedical problems: analysis, implementation and applications In University of Uppsala., 2016.
rognes-2016-09-16.pdf (11.18 MB)
The FEniCS and dolfin-adjoint projects In Higher-order DG methods and finite element software for modern architectures, University of Bath, UK., 2016.
The FEniCS and Dolfin-adjoint Projects In NGCM Summer Academy, University of Southampton., 2016.
High-level abstractions, algorithms and applications in forward and inverse finite element solution of PDEs In Nordic Seminar on Computational Mechanics, Chalmers University of Technology, Sweden., 2016.
Modelling and simulation of viscous and poroelastic fluid flow in the brain In FEniCS16, Simula Research Laboratory., 2016.
The Numerical Waterscape of the Brain In Norway-Russia workshop on Biot's equations and error estimation, Voss, Norway., 2016.
Optimization of a Spatially Varying Cardiac Contraction parameter using the Adjoint Method In FEniCS'16., 2016.
fenics16.pdf (164.2 KB)
Patient Specific Modeling of Cardiac Mechanics using the Active Strain Formulation In Geilo Winter School., 2016.
finsberg_poster.pdf (1.02 MB)
Personalized Cardiac Mechanical Model using a High Resolution Contraction Field In VPH16 Translating VPH to the Clinic., 2016.
vph_abstract_finsberg.pdf (3.02 MB)
Simulating Cerebrospinal Fluid Flow and Spinal Cord Movement Associated with Syringomyelia In Chalmers Institute of Technology. Website: Chalmers Publication Library, 2016.
vinje2016.pdf (268.21 KB)
Time scales of mathematics: from basic research to societal application In RCN Workshop on the Importance of Mathematics for Value Creation, Lysaker, Norway., 2016.
Waterscales: mathematical and computational foundations for modelling cerebral fluid flow In OBCE-Simula Workshop, Simula Research Laboratory, Norway., 2016.
The waterscape of the brain., 2016.
A 2-day training course in FEniCS and dolfin-adjoint In NGCM Summer Academy, University of Southampton., 2015.
Biomedical Computing at Simula Research Laboratory In UNICAT Kick-off meeting, Porto, Portugal (Invited)., 2015.
Dolfin-adjoint, automated adjoint models for FEniCS. Salt Lake City, USA: SIAM Conference on Computational Science and Engineering, 2015.
poster_0.pdf (2.69 MB)
Dolfin-adjoint: Automatic adjoint models for FEniCS In The 8th International Congress on Industrial and Applied Mathematics. Beijing, China: The 8th International Congress on Industrial and Applied Mathematics, 2015.
poster-small.pdf (2.57 MB)
Dyssynchronous Left Ventricular Stress Estimation In Workshop on Advanced Numerical Techniques in Biomedical Computing: Simula Research Laboratory, Edited by H. Finsberg, M. E. Rognes, J. Sundnes, S. Wall, H. H. Odland and S. Ross., 2015.
Effect of Spinal Cord Viscoelasticity on Its Response to CSF Pressure Waves: a Computational Study In ASNR 53rd Annual Meeting & The Foundation of the ASNR Symposium 2015, April 25 – 30, Chicago, Illinois., 2015.
The FEniCS and Dolfin-adjoint Projects In NGCM Summer Academy, University of Southampton., 2015.