Cécile Daversin-Catty

E. Khalili, C. Daversin-Catty, A. L. Olivares, J. Mill, O. Camara and K. Valen-Sendstad

On The Importance of Fundamental Computational Fluid Dynamics Toward a Robust and Reliable Model of Left Atrial Flows

International journal of numerical methods in biomedical engineering

C. Daversin-Catty, J. P. Dean and M. E. Rognes

Finite Element Software and Performance for Network Models with Multipliers

Quantitative Approaches to Microcirculation: Mathematical Models, Computational Methods and Data Analysis

H. Finsberg, I. G. M. van Herck, C. Daversin-Catty, H. Arevalo and S. Wall

simcardems: A FEniCS-based cardiac electro-mechanics solver

Journal of Open Source Software

C. Daversin-Catty, J. P. Dean, M. E. Rognes and G. N. Wells

Mixed-Domain Coupled Finite Elements in FEniCSx

SIAM CSE23 - Amsterdam, the Netherlands

C. Daversin-Catty, I. Gjerde and M. E. Rognes

Geometrically reduced modelling of pulsatile flow in perivascular networks

Frontiers in Physics

E. Khalili, C. Daversin-Catty and K. Valen-Sendstad

A Comparative Study of Normal and High-Fidelity Approaches to Predict Flow Physics of Left Atrium

Computing in Cardiology, CinC 2022

I. van Herck, H. Finsberg, C. Daversin-Catty, M. Mora, B. Trenor, H. Arevalo and S. Wall

Population of Computational Cell and Tissue Cardiac Electromechanical Models for functional analysis

World Congress of Biomechanics

E. Khalili, C. Daversin-Catty and K. Valen-Sendstad

A Comparative Study of Normal and High-Fidelity Computational Fluid Dynamics Approaches to Predict Flow Physics of Left Atrium

Computing in Cardiology, Tampere, Finland

E. Khalili, H. Kjeldsberg, S. N. Gadur, C. Daversin-Catty and K. Valen-Sendstad

Computational Fluid Dynamics Approaches to Predict Flow Physics of Left Atrium

Universitat Pompeu Fabra - Barcelona, Spain

C. Daversin-Catty, V. Vinje, I. Gjerde, K. Mardal and M. E. Rognes

Modeling fluid flow in perivascular networks

ECCOMAS22, Oslo (Norway)

I. G. M. van Herck, J. Llopis-Lorente, H. Finsberg, C. Daversin-Catty, M. Mora, J. Saiz, B. Trenor, H. Arevalo and S. Wall

Computational 3D cardiac electromechanical models for functional and pharmacological analysis

9th International Workshop on Cardiac Mechano-Electric Coupling and Arrhythmias

I. G. M. van Herck, M. Mora, H. Finsberg, C. Daversin-Catty, B. Trenor, H. Arevalo and S. Wall

Omecamtiv Mecarbil Improves Contraction Behaviour in a 3D Electromechanical Tissue Model of Heart Failure

49th Computing in Cardiology Conference

I. G. M. van Herck, H. Finsberg, C. Daversin-Catty, M. Mora, B. Trenor, H. Arevalo and S. Wall

Functional Analysis of Healthy and Heart Failure Tissue Populations using 3D Cardiac Electromechanical Models

15th World Congress on Computational Mechanics (virtual)

I. G. M. van Herck, M. Mora, J. Llopis-Lorente, H. Finsberg, C. Daversin-Catty, J. Saiz, B. Trenor, H. Arevalo and S. Wall

Omecamtiv Mecarbil Improves Contraction Behaviour in a 3D Electromechanical Tissue Model of Heart Failure

2022 Computing in Cardiology (CinC)

C. Daversin-Catty, C. Richardson, A. J. Ellingsrud and M. E. Rognes

Abstractions and Automated Algorithms for Mixed Domain Finite Element Methods

ACM Transactions on Mathematical Software

C. Daversin-Catty, C. N. Richardson, A. J. Ellingsrud and M. E. Rognes

Abstractions and automated algorithms for mixed-dimensional finite element methods

ACM Transactions on Mathematical Software

A. J. Ellingsrud, C. Daversin-Catty and M. E. Rognes

A cell-based model for ionic electrodiffusion in excitable tissue

Modeling Excitable Tissue: The EMI Framework

A. J. Ellingsrud, C. Daversin-Catty and M. E. Rognes

A cell-based model for ionic electrodiffusion in excitable tissue

Modeling Excitable Tissue: The EMI Framework

C. Daversin-Catty and M. E. Rognes

Mixed-dimensional coupled finite elements in FEniCS.

Indo-Norwegian workshop on computational challenges and modelling of coupled processes in porous media, University of Bergen (Norway)

C. Daversin-Catty, I. Gjerde, K. Mardal, M. E. Rognes and V. Vinje

Modeling fluid flow in perivascular networks

Oslo glymphatics symposium, Oslo (Norway)

C. Daversin-Catty, V. Vinje, K. Mardal and M. E. Rognes

The mechanisms behind perivascular fluid flow

PLOS ONE

C. Daversin-Catty and M. E. Rognes

Mixed-dimensional coupled finite elements in FEniCS

FEniCS'19, Washington DC, USA

C. Daversin-Catty and M. E. Rognes

Mixed-dimensional coupled finite elements in FEniCS

ENUMATH 2019, Egmond aan Zee, The Netherlands

C. Daversin-Catty and M. E. Rognes

Mixed-dimensional modeling of the brain’s waterscape

M. E. Rognes, T. Thompson and C. Daversin-Catty

Waterscape of the Brain: Mathematics and Scientific Computing Enabling Clinical Simulation

Simula Research Conference, Son, Norway

C. Daversin-Catty and M. E. Rognes

Mixed-dimensional modeling of the brain’s waterscape

Workshop on solvers for materials with high-aspect-ratio inclusions, Finse, Norway

C. Daversin-Catty and M. E. Rognes

Mixed-dimensional models of the brain's waterscape with FEniCS

InterPore 2018, New-Orleans (USA)

C. Daversin-Catty and M. E. Rognes

Mixed-dimensional coupled finite elements in FEniCS

ECCM-ECFD 2018, Glasgow (UK)

C. Daversin-Catty and M. E. Rognes

Mixed-dimensional coupled finite elements in FEniCS

FEniCS18, Oxford, UK

C. Daversin-Catty and C. Prud'homme

Simultaneous Empirical Interpolation and Reduced Basis Method: Application to Non-linear Multi-Physics Problem

Model Reduction of Parametrized Systems

C. Daversin-Catty and M. E. Rognes

Towards coupled mixed dimensional finite elements in FEniCS

FEniCS17 conference, University of Luxembourg, Luxembourg

P. Sala, C. Daversin-Catty, F. Debray, J. Dumas and C. Trophime

Transient Recording System for Power Supply and High Field Magnet Fault Analysis: Its Use for Magnet Aging Surveillance and Accident Diagnosis

IEEE Transactions on Applied Superconductivity

C. Daversin-Catty, C. Prudhomme and C. Trophime

Full three-dimensional multiphysics model of high-field polyhelices magnets

IEEE transactions on applied superconductivity

C. Daversin-Catty

Reduced basis method applied to large non-linear multi-physics problems: application to high field magnets design

Université de Strasbourg

C. Daversin-Catty and C. Prud'homme

Simultaneous empirical interpolation and reduced basis method for non-linear problems

Comptes Rendus Mathematique