The finite element method (FEM) and the spectral boundary integral method (SBI) have both been widely used in the study of dynamic rupture simulations along a weak interface. In this paper, we present a hybrid method that combines FEM and SBI through the consistent exchange of displacement and traction boundary conditions, thereby benefiting from the flexibility of FEM in handling problems with nonlinearities or small-scale heterogeneities and from the superior performance and accuracy of SBI. We validate the hybrid method using a benchmark problem from the Southern California Earthquake Center's dynamic rupture simulation validation exercises.We further demonstrate the capability and computational efficiency of the hybrid scheme for resolv...
We couple a node-centered finite volume method to a high order finite difference method to simulate ...
We have developed a finite difference method that is especially adapted to the study of dynamic shea...
The spectral boundary integral method is popular for simulating fault, fracture, and frictional proc...
We present a 3D hybrid method which combines the finite element method (FEM) and the spectral bounda...
The Finite Difference (FD) and the Boundary Integral (BI) Method have been used extensively to model...
International audienceFinite element methods (FEM), as often used in soil dynamics should be a power...
[1] The spontaneously propagating shear crack on a frictional interface has proven to be a useful id...
The study of dynamically propagating rupture along interfaces is of prime importance in various fiel...
AbstractFor the past two decades, the combination between the boundary integral equation method (BIE...
We are in the process of the development of a hybrid method for flexible and efficient modeling of d...
Dynamic earthquake sequence simulation is an important tool for investigating the behavior of a faul...
International audienceIt is widely accepted that the rupture area of earthquake is controlled by fau...
An important goal of computational seismology is to simulate dynamic earthquake rupture and strong g...
We develop a stable and high-order accurate finite difference method for problems in earthquake rupt...
We couple a node-centered finite volume method to a high order finite dif- ference method to simulat...
We couple a node-centered finite volume method to a high order finite difference method to simulate ...
We have developed a finite difference method that is especially adapted to the study of dynamic shea...
The spectral boundary integral method is popular for simulating fault, fracture, and frictional proc...
We present a 3D hybrid method which combines the finite element method (FEM) and the spectral bounda...
The Finite Difference (FD) and the Boundary Integral (BI) Method have been used extensively to model...
International audienceFinite element methods (FEM), as often used in soil dynamics should be a power...
[1] The spontaneously propagating shear crack on a frictional interface has proven to be a useful id...
The study of dynamically propagating rupture along interfaces is of prime importance in various fiel...
AbstractFor the past two decades, the combination between the boundary integral equation method (BIE...
We are in the process of the development of a hybrid method for flexible and efficient modeling of d...
Dynamic earthquake sequence simulation is an important tool for investigating the behavior of a faul...
International audienceIt is widely accepted that the rupture area of earthquake is controlled by fau...
An important goal of computational seismology is to simulate dynamic earthquake rupture and strong g...
We develop a stable and high-order accurate finite difference method for problems in earthquake rupt...
We couple a node-centered finite volume method to a high order finite dif- ference method to simulat...
We couple a node-centered finite volume method to a high order finite difference method to simulate ...
We have developed a finite difference method that is especially adapted to the study of dynamic shea...
The spectral boundary integral method is popular for simulating fault, fracture, and frictional proc...