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Rapid Biomechanics Simulation for Personalized Clinical Design

Livrables

Medical image deformation methods based on homogenization (ESR 10+11)

Scientific Deliverables Medical image deformation methods based on homogenization (ESR 10+11)

Sensitivity study of rheology parameters for predicting observed breast shapes

Scientific Deliverables: Sensitivity study of rheology parameters for predicting observed breast shapes (ESR 6)

SB minutes documenting election of ESR representative

SB minutes documenting election of ESR representative (B3.2)

Survey on interface tracking meshing and tutorial on 2D interface tracking meshing

Scientific Deliverables: Survey on interface tracking meshing and tutorial on 2D interface tracking meshing (ESR 1, 2, 3, 4 & 5)

Intuitive interaction techniques for medical image deformation and manipulation

IScientific Deliverables: ntuitive interaction techniques for medical image deformation and manipulation (ESR 10 & 11)

Release open source software for interface tracking meshing with examples and video tutorials.

Scientific Deliverables: Release open source software for interface tracking meshing with examples and video tutorials. (ESR 1, 2, 3, 4, & 5)

Open-source scripted prototype of meta-models for hyperelastic soft tissues with cutting

Scientific Deliverables: Open-source scripted prototype of meta-models for hyperelastic soft tissues with cutting (ESR 8 & 14)

ESR Recruitment

ESR Recruitment (B3.2.4) Planned recruitments completed

Demonstrations of early prototypes

Scientific Deliverables: Demonstrations of early prototypes: Pre-scan Image registration for surgery, RSA and FEA coupling, Jaw motion simulation, Demonstrate interaction between gait analysis data of the spine and a musculoskeletal model. (ESR 1, 3, 4, & 5)

Recherche de données OpenAIRE...

Publications

Contact modeling from images using cut finite element solvers

Auteurs: S. Claus, P. Kerfriden, F. Moshfeghifar, S. Darkner, K. Erleben, C. Wong
Publié dans: Advanced Modeling and Simulation in Engineering Sciences, Issue 8/1, 2021, ISSN 2213-7467
DOI: 10.1186/s40323-021-00197-2

Simulation inverse pour retrouver la configuration au repos de matériaux hyper-élastique : application aux simulations pour les seins

Auteurs: Mazier, Arnaud; Bilger, Alexandre; Forte, Antonio; Peterlik, Igor; Hale, Jack; Bordas, Stéphane
Publié dans: 2020