From cefb7a13dcb2c9ab5abf9ed6cdd869ea76eb0bfe Mon Sep 17 00:00:00 2001 From: Cristobal Bertoglio Date: Wed, 13 Apr 2022 17:42:13 +0200 Subject: [PATCH] corrections --- cbme2022/CMBE21_ale.tex | 4 ++-- cbme2022/biblio_merged.bib | 14 +++++++------- 2 files changed, 9 insertions(+), 9 deletions(-) diff --git a/cbme2022/CMBE21_ale.tex b/cbme2022/CMBE21_ale.tex index 46556b8..e63dfe3 100644 --- a/cbme2022/CMBE21_ale.tex +++ b/cbme2022/CMBE21_ale.tex @@ -109,12 +109,12 @@ We will show the extension to a CT scheme. Namely, in that case the following in \end{equation} for $(\mathbf{u}^n, p^n)$ the velocity/pressure pair solution at time $t^n$, in the reference domain $\Omega^0$, for operators to be specified in the talk. -Our finding will be supplemented with an application to fluid-solid interaction in an idealized cardiac geometry, exploiting the splitting nature of the CT scheme with a well-known coupling approach \cite{bertoglio2013sisc, fernandez-gerbeau-grandmont-06}. +Our finding will be supplemented with an application to fluid-solid interaction in an idealized cardiac geometry, exploiting the splitting nature of the CT scheme with a well-known coupling approach \cite{bertoglio2013sisc, fernandez-gerbeau-grandmont-06}, see example in Figure \ref{fig:comparison_figure}. %In such a case, we will exploit the fluid pressure projection step, coupling it with the solid problem in an efficient fashion. Simulations of such a case will be provided, as well as the current research done in more realistic geometries. \begin{figure}[!hbtp] \centering \includegraphics[width=0.8\textwidth]{figs/comparison_two_ways_to_one_way.png} - \caption{Comparison two-ways (left) to one-way (right) approach, with $\mathbb{P}_1$ lagrange elements. In arrows the fluid magnitude and direction, driven by an hyperelastic solid actively contracting (grey, with decreased opacity).} + \caption{Two-ways FSI (left) and one-way FSI (right), on an ellipsoid. In arrows the fluid velocity magnitude and direction, driven by an hyperelastic active solid (in grey, with decreased opacity).} \label{fig:comparison_figure} \end{figure} diff --git a/cbme2022/biblio_merged.bib b/cbme2022/biblio_merged.bib index 8d4e3e0..f68ce5e 100644 --- a/cbme2022/biblio_merged.bib +++ b/cbme2022/biblio_merged.bib @@ -29,7 +29,7 @@ publisher = {Elsevier {BV}}, volume = {182}, pages = {313--324}, - author = {Bruno Burtschell and Dominique Chapelle and Philippe Moireau}, + author = {B. Burtschell and D. Chapelle and P. Moireau}, title = {Effective and energy-preserving time discretization for a general nonlinear poromechanical formulation}, journal = {Computers {\&} Structures} } @@ -37,7 +37,7 @@ @phdthesis{smaldone2014, TITLE = {{Numerical analysis and simulations of coupled problems for the cariovascular system}}, - AUTHOR = {Smaldone, Saverio}, + AUTHOR = {Smaldone, S.}, SCHOOL = {{L'universit{\'e} Pierre et Marie Curie - Paris VI }}, YEAR = {2014}, MONTH = Oct, @@ -52,7 +52,7 @@ publisher = {Elsevier {BV}}, volume = {333}, pages = {55--73}, - author = {Alexander Lozovskiy and Maxim A. Olshanskii and Yuri V. Vassilevski}, + author = {A. Lozovskiy and M. Olshanskii and Y. Vassilevski}, title = {A quasi-Lagrangian finite element method for the Navier{\textendash}Stokes equations in a time-dependent domain}, journal = {Computer Methods in Applied Mechanics and Engineering} } @@ -64,7 +64,7 @@ volume = {33}, number = {8}, pages = {e2845}, - author = {Andreas Hessenthaler and Oliver R\"{o}hrle and David Nordsletten}, + author = {A. Hessenthaler and O. R\"{o}hrle and D. Nordsletten}, title = {Validation of a non-conforming monolithic fluid-structure interaction method using phase-contrast {MRI}}, journal = {International Journal for Numerical Methods in Biomedical Engineering} } @@ -75,7 +75,7 @@ publisher = {Elsevier {BV}}, volume = {331}, pages = {312--336}, - author = {Steffen Basting and Annalisa Quaini and Sun{\v{c}}ica {\v{C}}ani{\'{c}} and Roland Glowinski}, + author = {S. Basting and A. Quaini and S. {\v{C}}ani{\'{c}} and Roland Glowinski}, title = {Extended {ALE} Method for fluid{\textendash}structure interaction problems with large structural displacements}, journal = {Journal of Computational Physics} } @@ -126,7 +126,7 @@ @article{marchesseau2013regionalvols, title={Personalization of a cardiac electromechanical model using reduced order unscented Kalman filtering from regional volumes}, - author={Marchesseau, St{\'e}phanie and Delingette, Herv{\'e} and Sermesant, Maxime and Cabrera-Lozoya, R and Tobon-Gomez, Catalina and Moireau, Philippe and i Ventura, RM Figueras and Lekadir, Karim and Hernandez, Alfredo and Garreau, Mireille and others}, + author={Marchesseau, St{\'e}phanie and Delingette, Herv{\'e} and Sermesant, Maxime and Cabrera-Lozoa, R and Tobon-Gomez, Catalina and Moireau, Philippe and i Ventura, RM Figueras and Lekadir, Karim and Hernandez, Alfredo and Garreau, Mireille and others}, journal={Medical image analysis}, volume={17}, number={7}, @@ -177,7 +177,7 @@ @article{arostica2021monolithic, title={On monolithic and Chorin--Temam schemes for incompressible flows in moving domains}, - author={Ar{\'o}stica, Reidmen and Bertoglio, Crist{\'o}bal}, + author={Ar{\'o}stica, R. and Bertoglio, C.}, journal={Applied Mathematics Letters}, volume={112}, pages={106830},