Add to ORKGA careful look into the pertinent models of poroelasticity reveals that in water-saturated sediments or soils, the seismic (P and S wave) velocity dispersion and attenuation in the low field-seismic frequency band (20-200 Hz) have a contrasting behaviour in the porosity-permeability domain.Taking advantage of this nearly orthogonal behaviour, a new approach has been proposed, which leads to unique estimates of both porosity and permeability simultaneously. Through realistic numerical tests, the effect of maximum frequency content in data and the integration of P and S waves on the accuracy and robustness of the estimates are demonstrated
Analysis of compression wave propagation through a high-permeability layer in a homogeneous poroelas...
Due to differences of rock properties such as porosity, permeability and compressibility between dif...
Oscillatory fluid movements in heterogeneous porous rocks induced by seismic waves cause dissipation...
A careful look into the pertinent models of poroelasticity reveals that in water-saturated sediments...
A careful look into the pertinent models of poroelasticity reveals that in water-saturated sediments...
A careful look into the pertinent models of poroelasticity reveals that in water-saturated sediments...
Theoretical and experimental studies in the past have shown the sensitivity of seismic waves to soil...
Theoretical and experimental studies in the past have shown the sensitivity of seismic waves to soil...
One major cause of elastic wave attenuation in heterogeneous porous media is wave-induced flow of th...
This paper presents a novel procedure for determining porosity in fluid-saturated porous media from...
This paper presents a novel procedure for determining porosity in fluid-saturated porous media from...
In inhomogeneous porous media, the mechanism of wave-induced fluid flow causes significant attenuati...
Biot's theory when applied to homogeneous media (involving the macroscopic flow mechanism) cannot ex...
Seismic velocity models of the near-surface (\u3c 30 m) better explain seismic velocities when all e...
In fully-saturated rock and at ultrasonic frequencies, the microscopic squirt flow induced between t...
Analysis of compression wave propagation through a high-permeability layer in a homogeneous poroelas...
Due to differences of rock properties such as porosity, permeability and compressibility between dif...
Oscillatory fluid movements in heterogeneous porous rocks induced by seismic waves cause dissipation...
A careful look into the pertinent models of poroelasticity reveals that in water-saturated sediments...
A careful look into the pertinent models of poroelasticity reveals that in water-saturated sediments...
A careful look into the pertinent models of poroelasticity reveals that in water-saturated sediments...
Theoretical and experimental studies in the past have shown the sensitivity of seismic waves to soil...
Theoretical and experimental studies in the past have shown the sensitivity of seismic waves to soil...
One major cause of elastic wave attenuation in heterogeneous porous media is wave-induced flow of th...
This paper presents a novel procedure for determining porosity in fluid-saturated porous media from...
This paper presents a novel procedure for determining porosity in fluid-saturated porous media from...
In inhomogeneous porous media, the mechanism of wave-induced fluid flow causes significant attenuati...
Biot's theory when applied to homogeneous media (involving the macroscopic flow mechanism) cannot ex...
Seismic velocity models of the near-surface (\u3c 30 m) better explain seismic velocities when all e...
In fully-saturated rock and at ultrasonic frequencies, the microscopic squirt flow induced between t...
Analysis of compression wave propagation through a high-permeability layer in a homogeneous poroelas...
Due to differences of rock properties such as porosity, permeability and compressibility between dif...
Oscillatory fluid movements in heterogeneous porous rocks induced by seismic waves cause dissipation...