Maxence Reberol's homepage

Email: maxence (dot) reberol (at) gmail (dot) com

Intro

At ResolveStroke, I work on 3D Ultrasound Localized Microscopy for human brain imaging.

Previously, I was a software engineer at Siemens Digital Industries Software, where I specialized in improving quad meshing and surface wrapping in the Star-CCM+ multiphysics simulation software. Before that, I was a postdoctoral researcher at UCLouvain working with Jean-François Remacle in the Hextreme team, focusing on robust CAD model meshing techniques, including all-quadrilateral surface and hex-dominant volume meshing, as well as combinatorial approaches for unstructured all-hexahedral meshes.

Earlier, I earned my Computer Science PhD in Inria Grand-Est's Alice team, supervised by Bruno Lévy and Sylvain Lefebvre. My research centered on hex-dominant mesh generation using frame-field based global parametrization, finite element method numerical simulations, and the assessment of mesh influence on numerical outcomes.

Publications

Robust Topological Construction of All-Hexahedral Boundary Layer Meshes

Maxence Reberol, Kilian Verhetsel, François Henrotte, David Bommes, Jean-François Remacle

ACM Transactions on Mathematical Software, 2023

Link, PDF, Results (supplemental), Github, Slides
Available in the hexbl development branch of Gmsh

Hex Me If You Can

Pierre-Alexandre Beaufort, Maxence Reberol, Denis Kalmykov, Heng Liu, Franck Ledoux, David Bommes

Computer Graphics Forum (SGP), 2022

Project page

Indirect All-Quadrilateral Meshing Based on Bipartite Topological Labeling

Christos Georgiadis, Maxence Reberol, Jean-François Remacle

Engineering with Computers, 2022

Link, PDF

Robust Quantization for Polycube Maps

Protais François, Maxence Reberol, Nicolas Ray, Etienne Corman, Franck Ledoux, Dmitry Sokolov

Computer-Aided Design, 2022

Link

Generation of High-Order Coarse Quad Meshes on CAD Models via Integer Linear Programming

Mattéo Couplet, Maxence Reberol, Jean-François Remacle

AIAA Aviation, 2021

PDF

Quasi-structured quadrilateral meshing in Gmsh - a robust pipeline for complex CAD models

Maxence Reberol, Christos Georgiadis, Jean-François Remacle

Preprint, 2021

PDF, Results (supplemental), Talk (video)
Available in Gmsh 4.8.1+ (open-source)

Quad layouts with high valence singularities for flexible quad meshing

Jovana Jezdimirovíc, Alexandre Chemin, Maxence Reberol, François Henrotte, Jean François Remacle

29th International Meshing Roundtable, 2021

PDF

Multiple approaches to frame field correction for CAD models

Maxence Reberol, Alexandre Chemin, Jean-François Remacle

28th International Meshing Roundtable, 2019

PDF, Slides, CAD models

Maillages hex-dominants : génération, simulation et évaluation

Maxence Reberol

PhD thesis, 2018

Supervisors: Bruno Lévy, Sylvain Lefebvre

Link, PDF, Slides

Hexahedral Meshing: Mind the Gap!

Nicolas Ray, Dmitry Sokolov, Maxence Reberol, Franck Ledoux, Bruno Lévy

Computer-Aided Design, 2018

Link, Preprint

Computing the distance between two finite element solutions defined on different 3D meshes on a GPU

Maxence Reberol, Bruno Lévy

SIAM Journal on Scientific Computing, 2018

Link, PDF, Code (on Github)

Low-order continuous finite element spaces on hybrid non-conforming hexahedral-tetrahedral meshes

Maxence Reberol, Bruno Lévy

Research report, 2016

Preprint

Talks

• Robust Topological Construction of All-Hexahedral Boundary Layer Meshes, FRAMES 2021, Online, 2021. (slides)
• Hex-dominant meshing with all-hexahedral boundary layer, USNCCM16, Online, 2021.
• Quasi-structured quadrilateral meshing of complex CAD models in Gmsh, FRAMES 2020, Online, 2020. (video)
• 3D frame fields and block decomposition of CAD models, seminar at the Computer Graphics Group, Unibe, Bern (Switzerland), 2020. (slides)
• Multiple approaches to frame field correction for CAD models, 28th IMR, Buffalo (US), 2019. (slides)
• Towards automatic block decomposition of 3D domains by exploiting frame fields, IGA 2019, Munich (Germany), 2019. (slides)
• Towards automatic block decomposition of general 3D domains by correcting frame fields, USNCCM15, Austin (US), 2019. (slides)
• Limitations of boundary-aligned frame fields for full hexahedral meshing, FRAMES 2019, Louvain-la-Neuve (Belgium), 2019. (slides)
• Maillages hex-dominants : génération, simulation et évaluation, PhD defense, Nancy (France), 2018. (slides)
• Efficient computation of distances between FEM solutions defined on different 3D meshes, CHANGE workshop, Leysin (Switzerland), 2018. (slides)
• Hex-dominant meshes and the finite element method, seminar at UCLouvain, Louvain-la-Neuve (Belgium), 2017.
• Finite Element method on hybrid hexahedral-tetrahedral meshes, seminar at ENSG Nancy (France), 2016.

Teaching

• 2018-2021: Tutorials on math analysis (LEPL1102), UCLouvain
• 2017: Course on the implementation of FEM in C++ and student project supervision, ENSG
• 2017: Tutorials on numerical analysis, ENSG
• 2016, 2017: Tutorials on programming and algorithms, ENSG

Education

• PhD in Computer Science, Inria Grand-Est / Université de Lorraine, 2015 - 2018
• M.Sc. in Civil engineering, École Centrale Paris, 2013 - 2014
• Diplôme d'Ingénieur, Supélec, 2011 - 2014