D
Dominique Chapelle
Researcher at French Institute for Research in Computer Science and Automation
Publications - 98
Citations - 4736
Dominique Chapelle is an academic researcher from French Institute for Research in Computer Science and Automation. The author has contributed to research in topics: Finite element method & Shell (structure). The author has an hindex of 33, co-authored 90 publications receiving 4345 citations. Previous affiliations of Dominique Chapelle include Massachusetts Institute of Technology.
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The Finite Element Analysis of Shells - Fundamentals
TL;DR: In this paper, a modern continuum mechanics and mathematical framework is presented to study shell physical behaviors and to formulate and evaluate finite element procedures, with a view towards the synergy that results from physical and mathematical understanding.
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The inf-sup test
TL;DR: A numerical test on whether the inf-sup condition for the finite element solution of problems in incompressible elasticity is passed will prove useful for many discretizations of constrained variational problems.
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Patient-specific electromechanical models of the heart for the prediction of pacing acute effects in CRT: A preliminary clinical validation
Maxime Sermesant,Radomir Chabiniok,Phani Chinchapatnam,Tommaso Mansi,Florence Billet,Philippe Moireau,Jean-Marc Peyrat,Kitty Wong,Jatin Relan,Kawal Rhode,Matthew Ginks,Pier D. Lambiase,Hervé Delingette,Michel Sorine,Christopher A. Rinaldi,Dominique Chapelle,Reza Razavi,Nicholas Ayache +17 more
TL;DR: How the personalisation of an electromechanical model of the myocardium can predict the acute haemodynamic changes associated with CRT is presented, demonstrating the potential of physiological models personalised from images and electrophysiology signals to improve patient selection and plan CRT.
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External tissue support and fluid-structure simulation in blood flows.
Philippe Moireau,Philippe Moireau,Nan Xiao,Matteo Astorino,Matteo Astorino,C. A. Figueroa,Dominique Chapelle,Charles A. Taylor,Jean-Frédéric Gerbeau,Jean-Frédéric Gerbeau +9 more
TL;DR: This work proposes to model the effect of external tissues by introducing viscoelastic support conditions along the artery wall, with two—possibly distributed—parameters that can be adjusted to mimic the response of various physiological tissues.
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An evaluation of the MITC shell elements
TL;DR: In this paper, the performance of the MITC general shell elements is evaluated in the analysis of judiciously selected test problems and the authors conclude that the elements are effective for general engineering applications.