The paper introduces a high-order, adaptive finite-element method for simulation of sonic measurements acquired with borehole-eccentered logging instruments. The resulting frequency-domain based algorithm combines a Fourier series expansion in one spatial dimension with a two-dimensional high-order adaptive finite-element method (FEM), and incorporates a perfectly matched layer (PML) for truncation of the computational domain. The simulation method was verified for various model problems, including a comparison to a semi-analytical solution developed specifically for this purpose. Numerical results indicate that for a wireline sonic tool operating in a fast formation, the main propagation modes are insensitive to the distance from the cente...
Sonic logging is a useful technique to estimate tectonic stress around a borehole. The key to succes...
textMulti-component induction resistivity and sonic measurements acquired in high-angle wells can be...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary S...
We describe a numerical study to quantify the influence of tool-eccentricity on wireline (WL) and lo...
Borehole sonic measurements are widely used to estimate formation elastic properties and to construc...
AbstractTriaxial induction measurements provided by LWD tools generate crucial petrophysical data to...
textBorehole sonic measurements are widely used by petrophysicists to estimate in-situ dynamic elast...
This work proposes a semi-analytical method for simulation of the acoustic response of multipole ecc...
This paper presents a numerical program for the simulation of elastic wave propagation and scatterin...
The high-frequency dielectric logging tool is analyzed, using first-principle electromagnetic field ...
Abstract. A Finite-difference method for simulation of sonic waves propagating in a vicinity of a bo...
We quantify the relative effects of shoulder beds, layer thickness, invasion, and sand-shale laminat...
Acoustic logging is an important geophysical method for obtaining relevant information concerning ro...
AbstractA finite-difference method of numerical simulation of sonic logging has been developed and i...
Abstract. We describe the application of a perfectly matched layer (PML) combined with a self-adapti...
Sonic logging is a useful technique to estimate tectonic stress around a borehole. The key to succes...
textMulti-component induction resistivity and sonic measurements acquired in high-angle wells can be...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary S...
We describe a numerical study to quantify the influence of tool-eccentricity on wireline (WL) and lo...
Borehole sonic measurements are widely used to estimate formation elastic properties and to construc...
AbstractTriaxial induction measurements provided by LWD tools generate crucial petrophysical data to...
textBorehole sonic measurements are widely used by petrophysicists to estimate in-situ dynamic elast...
This work proposes a semi-analytical method for simulation of the acoustic response of multipole ecc...
This paper presents a numerical program for the simulation of elastic wave propagation and scatterin...
The high-frequency dielectric logging tool is analyzed, using first-principle electromagnetic field ...
Abstract. A Finite-difference method for simulation of sonic waves propagating in a vicinity of a bo...
We quantify the relative effects of shoulder beds, layer thickness, invasion, and sand-shale laminat...
Acoustic logging is an important geophysical method for obtaining relevant information concerning ro...
AbstractA finite-difference method of numerical simulation of sonic logging has been developed and i...
Abstract. We describe the application of a perfectly matched layer (PML) combined with a self-adapti...
Sonic logging is a useful technique to estimate tectonic stress around a borehole. The key to succes...
textMulti-component induction resistivity and sonic measurements acquired in high-angle wells can be...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary S...