Research
Table of Contents
Research topic #
My main area of research is cell dynamic system modeling. More precisely, my thesis is part of the ANR MAPEFLU project, which aims to understand the role of apoptosis in cell tissue fluidity.
Keywords #
Collective cell dynamics, Agent-based models, Vicsek type model, Numerical methods for congestion problems, Hydrodynamic limits.
Communications #
- February 2024: Talk on the SVM method at the PhD seminar, Strasbourg, France.
- May 2024: Talk on Cells’ collective dynamics for the working group (GT) at MAP5, Paris, France.
- May 2024: Poster presentation at the CANUM 2024 conference, Île de Ré, France.
- June 2024: Talk on Cells’ collective dynamics at the summer school From Cells to Tissues: Models, Analysis and Applications, Lake Como School of Advanced Studies, Como, Italy.
- July 2024: Poster presentation at the research school Mathematical Biology: Collective Behavior and Pattern Formation, CIRM, Marseille, France.
- July 2024: Talk on Cell collective dynamics with apoptosis at the MAThEOR Days 2024, Sainte-Marie-aux-Mines, France.
- June 2025: Talk on Mathematical modeling of apoptosis in cell collective dynamics: microscopic and macroscopic points of view at the SMAI 2025 conference, Carcans Maubuisson, France.
- June 2025: Talk on Mathematical modeling of apoptosis in cell collective dynamics: microscopic and macroscopic points of view at the PhD seminar, Strasbourg, France.
- November 2025: Talk on Mathematical modeling of apoptosis in cell collective dynamics: microscopic and macroscopic points of view at the JMBS 2025, Montpellier, France.
Publication #
- 2021: Vincent Calvez, Mete Demircigil, Roxana Sublet, Mathematical modeling of cell collective motion triggered by self-generated gradients. HAL Active Particles, Volume 3, 2021, 978-3-030-93302-9.
Submitted #
- L. Navoret, R. Sublet, M. Szopos, From flocking to jamming in collective cell dynamics: a Vicsek-like model including contact forces, hal-05420885