We present a 3D hybrid method which combines the finite element method (FEM) and the spectral boundary integral method (SBIM) to model nonlinear problems in unbounded domains. The flexibility of FEM is used to model the complex, heterogeneous, and nonlinear part— such as the dynamic rupture along a fault with near fault plasticity—and the high accuracy and computational efficiency of SBIM is used to simulate the exterior half spaces perfectly truncating all incident waves. The exact truncation allows us to greatly reduce the domain of spatial discretization compared to a traditional FEM approach, leading to considerable savings in computational time and memory requirements. The coupling of FEM and SBIM is achieved by the exchange of tractio...
Unstructured grid methods are well suited for earthquake problems in complex geometries, such as non...
We are in the process of the development of a hybrid method for flexible and efficient modeling of d...
Despite recent advances in High Performance Computing (HPC), numerical simulation of high frequency ...
The finite element method (FEM) and the spectral boundary integral method (SBI) have both been widel...
The Finite Difference (FD) and the Boundary Integral (BI) Method have been used extensively to model...
An important goal of computational seismology is to simulate dynamic earthquake rupture and strong g...
Continuing improvements in data acquisition techniques result in an increase in quantity and qualit...
In this study we focus at examining an efficient high order finite element strategy to compute the d...
Dynamic earthquake sequence simulation is an important tool for investigating the behavior of a faul...
AbstractFor the past two decades, the combination between the boundary integral equation method (BIE...
The first part of my thesis focuses on seismic modeling in fractured media. Several recent developme...
To enhance the applicability of BEM for geomechanical modeling numerically optimized BEM models, hyb...
International audienceThe analysis of seismic wave propagation and amplification in complex geologic...
The dissertation is devoted to developments of numerical methodologies to simulate physical processe...
This article presents a hybrid finite element-boundary integral equation (FE-BIE) method where the b...
Unstructured grid methods are well suited for earthquake problems in complex geometries, such as non...
We are in the process of the development of a hybrid method for flexible and efficient modeling of d...
Despite recent advances in High Performance Computing (HPC), numerical simulation of high frequency ...
The finite element method (FEM) and the spectral boundary integral method (SBI) have both been widel...
The Finite Difference (FD) and the Boundary Integral (BI) Method have been used extensively to model...
An important goal of computational seismology is to simulate dynamic earthquake rupture and strong g...
Continuing improvements in data acquisition techniques result in an increase in quantity and qualit...
In this study we focus at examining an efficient high order finite element strategy to compute the d...
Dynamic earthquake sequence simulation is an important tool for investigating the behavior of a faul...
AbstractFor the past two decades, the combination between the boundary integral equation method (BIE...
The first part of my thesis focuses on seismic modeling in fractured media. Several recent developme...
To enhance the applicability of BEM for geomechanical modeling numerically optimized BEM models, hyb...
International audienceThe analysis of seismic wave propagation and amplification in complex geologic...
The dissertation is devoted to developments of numerical methodologies to simulate physical processe...
This article presents a hybrid finite element-boundary integral equation (FE-BIE) method where the b...
Unstructured grid methods are well suited for earthquake problems in complex geometries, such as non...
We are in the process of the development of a hybrid method for flexible and efficient modeling of d...
Despite recent advances in High Performance Computing (HPC), numerical simulation of high frequency ...