Elastic wave propagation in 3D poroelastic geological media with localized heterogeneities, such as an elastic inclusion and a canyon is investigated to visualize the modification of local site responses under consideration of water saturated geomaterial. The extended computational environment herein developed is a direct Boundary Integral Equation Method (BIEM), based on the frequency-dependent fundamental solution of the governing equation in poro-visco elastodynamics. Bardet’s model is introduced in the analysis as the computationally efficient viscoelastic isomorphism to Biot’s equations of dynamic poroelasticity, thus replacing the two-phase material by a complex valued single-phase one. The potential of Bardet’s analogue is illustrate...
International audienceThe quantitative imaging of the Earth subsurface is a major challenge in geoph...
We present a novel approach for the comprehensive, flexible and accurate simulation of poroelastic w...
In this paper, we present a computational method to simulate wave propagation in porous rocks satura...
International audienceThis paper aims at obtaining boundary integral formulations as well as three d...
This book presents the theory of waves propagation in a fluid-saturated porous medium (a Biot medium...
Numerical modelling of seismic waves in heterogeneous, porous reservoir rocks is an important tool i...
We present a novel numerical algorithm for the simulation of seismic wave propagation in porous medi...
In the present paper we consider elastic and poroelastic media having a common interface. We derive ...
Biot's theory when applied to homogeneous media (involving the macroscopic flow mechanism) cannot ex...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...
The purpose of this dissertation is to develop a boundary element method (BEM) for multiphase porous...
International audienceThis paper aims at obtaining a 3D fundamental solution for unsaturated soils u...
The primary focus of this dissertation is to link the poroelastic model that couples rock’s elastic ...
This book focuses on the mathematical potential and computational efficiency of the Boundary Element...
We present a derivation of the equations describing wave propagation in porous media based upon an a...
International audienceThe quantitative imaging of the Earth subsurface is a major challenge in geoph...
We present a novel approach for the comprehensive, flexible and accurate simulation of poroelastic w...
In this paper, we present a computational method to simulate wave propagation in porous rocks satura...
International audienceThis paper aims at obtaining boundary integral formulations as well as three d...
This book presents the theory of waves propagation in a fluid-saturated porous medium (a Biot medium...
Numerical modelling of seismic waves in heterogeneous, porous reservoir rocks is an important tool i...
We present a novel numerical algorithm for the simulation of seismic wave propagation in porous medi...
In the present paper we consider elastic and poroelastic media having a common interface. We derive ...
Biot's theory when applied to homogeneous media (involving the macroscopic flow mechanism) cannot ex...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...
The purpose of this dissertation is to develop a boundary element method (BEM) for multiphase porous...
International audienceThis paper aims at obtaining a 3D fundamental solution for unsaturated soils u...
The primary focus of this dissertation is to link the poroelastic model that couples rock’s elastic ...
This book focuses on the mathematical potential and computational efficiency of the Boundary Element...
We present a derivation of the equations describing wave propagation in porous media based upon an a...
International audienceThe quantitative imaging of the Earth subsurface is a major challenge in geoph...
We present a novel approach for the comprehensive, flexible and accurate simulation of poroelastic w...
In this paper, we present a computational method to simulate wave propagation in porous rocks satura...