An element-free method (EFM) has been demonstrated successfully in elasticity, heat conduction and fatigue crack growth problems. We present the theory of EFM and its numerical applications in seismic modelling and reverse time migration (RTM). Compared with the finite difference method and the finite element method, the EFM has unique advantages: (1) independence of grids in computation and (2) lower expense and more flexibility (because only the information of the nodes and the boundary of the concerned area is required). However, in EFM, due to improper computation and storage of some large sparse matrices, such as the mass matrix and the stiffness matrix, the method is difficult to apply to seismic modelling and RTM for a large velocity...
Three-dimensional reverse-time migration with the constant-density acoustic wave equation requires a...
Abstract The finite element method (FEM) is one of the most commonly used tech-niques for the soluti...
International audienceThis work pertains to numerical aspects of a finite element method based disco...
International audienceWe designed a fast parallel simulator that solves the acoustic wave equation o...
The computation of crustal deformation following a given fault slip is important for understanding e...
In this study, we present a novel strategy to the method of finite elements (FEM) of linear elastic ...
In geophysical applications, the interest in least-squares migration (LSM) as an imaging algorithm i...
Best Paper Award at HPCS'09International audienceWe have designed a fast parallel simulator that sol...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/96...
In finite element software one has to solve a system of non-linear equations, which is commonly simp...
Reverse-Time Migration (RTM) is a two-way wave-equation based method used to generate images of the ...
An approach is developed to perform explicit time domain finite element simulations of elastodynamic...
Reverse-Time Migration (RTM) is a state-of-the-art technique in seismic acoustic imaging, because of...
This paper presents a technique for spatial partitioning of the time increment in the explicit centr...
Elastically deformable models have found applications in various areas ranging from mechanical scien...
Three-dimensional reverse-time migration with the constant-density acoustic wave equation requires a...
Abstract The finite element method (FEM) is one of the most commonly used tech-niques for the soluti...
International audienceThis work pertains to numerical aspects of a finite element method based disco...
International audienceWe designed a fast parallel simulator that solves the acoustic wave equation o...
The computation of crustal deformation following a given fault slip is important for understanding e...
In this study, we present a novel strategy to the method of finite elements (FEM) of linear elastic ...
In geophysical applications, the interest in least-squares migration (LSM) as an imaging algorithm i...
Best Paper Award at HPCS'09International audienceWe have designed a fast parallel simulator that sol...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/96...
In finite element software one has to solve a system of non-linear equations, which is commonly simp...
Reverse-Time Migration (RTM) is a two-way wave-equation based method used to generate images of the ...
An approach is developed to perform explicit time domain finite element simulations of elastodynamic...
Reverse-Time Migration (RTM) is a state-of-the-art technique in seismic acoustic imaging, because of...
This paper presents a technique for spatial partitioning of the time increment in the explicit centr...
Elastically deformable models have found applications in various areas ranging from mechanical scien...
Three-dimensional reverse-time migration with the constant-density acoustic wave equation requires a...
Abstract The finite element method (FEM) is one of the most commonly used tech-niques for the soluti...
International audienceThis work pertains to numerical aspects of a finite element method based disco...