This PhD work is devoted to the study of nonlinear interactions between waves and floating rigid structures. The developed model relies on a boundary element method which reduces the dimensionality of the problem by one. First, a 2D model is applied to basic geometries and allows us to demonstrate the validity of the method for predicting the motion of a floating structrure subject to incoming monochromatic regular waves. Secondly, getting inspired by the 3D fully nonlinear potential flow model of Grilli textit{et al.}~cite{grilli2001fully}, we propose a novel model which generalizes the method for unstructured triangular meshes of 3D surfaces. The proposed model is able to deal with arbitrary configurations of multiple vertical cylinders i...
We present in this note two mathematical problems related to the study of floating objects. In the f...
This paper extends the QALE-FEM (quasi arbitrary Lagrangian–Eulerian finite element method) based on...
International audienceThe purpose of this work is to develop advanced numerical tools for modeling t...
This PhD work is devoted to the study of nonlinear interactions between waves and floating rigid str...
Cette thèse est consacrée à l'étude numérique des interactions non-linéaires entre des vagues et un ...
This paper presents a three-dimensional (3D) non-hydrostatic model for the prediction of the interac...
This PhD is dedicated to the development of an advanced numerical model for simulating interactions ...
This abstract describes our recent progress in developing a robust, efficient, flexible-order fi-nit...
We demonstrate the accuracy and convergence of a new numerical model solving wave-structure interact...
This abstract describes recent progress in the development of a finite-difference model for non-line...
This thesis deals with the development and application of a two-way coupling procedure between a ful...
Dans le contexte du dimensionnement de structures marines ou côtières soumises à des vagues non-liné...
This PhD dissertation deals with the study of some fluid-structure interaction models in shallow wat...
The rapid emergence of Floating Offshore Wind Turbines (FOWT) has brought a strong demand for high-f...
This thesis concerns the development of an exact or fully nonlinear numerical model capable of descr...
We present in this note two mathematical problems related to the study of floating objects. In the f...
This paper extends the QALE-FEM (quasi arbitrary Lagrangian–Eulerian finite element method) based on...
International audienceThe purpose of this work is to develop advanced numerical tools for modeling t...
This PhD work is devoted to the study of nonlinear interactions between waves and floating rigid str...
Cette thèse est consacrée à l'étude numérique des interactions non-linéaires entre des vagues et un ...
This paper presents a three-dimensional (3D) non-hydrostatic model for the prediction of the interac...
This PhD is dedicated to the development of an advanced numerical model for simulating interactions ...
This abstract describes our recent progress in developing a robust, efficient, flexible-order fi-nit...
We demonstrate the accuracy and convergence of a new numerical model solving wave-structure interact...
This abstract describes recent progress in the development of a finite-difference model for non-line...
This thesis deals with the development and application of a two-way coupling procedure between a ful...
Dans le contexte du dimensionnement de structures marines ou côtières soumises à des vagues non-liné...
This PhD dissertation deals with the study of some fluid-structure interaction models in shallow wat...
The rapid emergence of Floating Offshore Wind Turbines (FOWT) has brought a strong demand for high-f...
This thesis concerns the development of an exact or fully nonlinear numerical model capable of descr...
We present in this note two mathematical problems related to the study of floating objects. In the f...
This paper extends the QALE-FEM (quasi arbitrary Lagrangian–Eulerian finite element method) based on...
International audienceThe purpose of this work is to develop advanced numerical tools for modeling t...