We implement a transdimensional Bayesian algorithm to invert Rayleigh wave dispersion curves considering as unknowns the number of model parameters, that is the locations of the layer boundaries together with the shear wave velocity and the Vp/Vs ratio of each layer. A reversible jump Markov Chain Monte Carlo (MCMC) algorithm is used to sample the variable-dimension model space, while the adoption of a parallel tempering strategy and of a delayed rejection updating scheme improve the efficiency of the probabilistic sampling. This work has a mainly theoretical perspective and is aimed at drawing general conclusions about the suitability of our approach for dispersion curve inversion. For this reason, we focus on synthetic data inversions, an...
We implement a transdimensional Bayesian inversion that infers petrophysical reservoir properties, l...
Shear wave velocity models can be built through surface wave analysis. For the presented field case,...
The inversion of surface-wave dispersion curve to derive shear-wave velocity profile is a very delic...
We implement a transdimensional Bayesian algorithm to invert Rayleigh wave dispersion curves conside...
Rayleigh wave measurements are highly sensitive to the S-wave velocity (Vs) and for this reason they...
We present a Hamiltonian Monte Carlo (HMC) algorithm to infer S-wave velocity and layer thicknesses ...
We compare two Monte Carlo inversions that aim to solve some of the main problems of dispersion curv...
Surface wave dispersion curve inversion is a challenging problem for linear inversion procedures due...
Physical properties of near-surface soil and rock layers play a fundamental role in the seismic site...
We implement a transdimensional Bayesian approach to solve the 1D elastic full-waveform inversion (F...
The inversion of Rayleigh wave dispersion curves is a non-linear problem in which a numerical sampli...
The inversion of Rayleigh-wave dispersion curves is a classic geophysical inverse problem. We have d...
In this thesis the Rayleigh Wave dispersion curves are inverted to recover 1D near-surface Vs-Vp pro...
Analysis of surface wave data can be made using probabilistic approaches, e.g. Monte Carlo methods t...
The inversion of Rayleigh dispersion curve has been used to estimate the Vs ground profiles (thickne...
We implement a transdimensional Bayesian inversion that infers petrophysical reservoir properties, l...
Shear wave velocity models can be built through surface wave analysis. For the presented field case,...
The inversion of surface-wave dispersion curve to derive shear-wave velocity profile is a very delic...
We implement a transdimensional Bayesian algorithm to invert Rayleigh wave dispersion curves conside...
Rayleigh wave measurements are highly sensitive to the S-wave velocity (Vs) and for this reason they...
We present a Hamiltonian Monte Carlo (HMC) algorithm to infer S-wave velocity and layer thicknesses ...
We compare two Monte Carlo inversions that aim to solve some of the main problems of dispersion curv...
Surface wave dispersion curve inversion is a challenging problem for linear inversion procedures due...
Physical properties of near-surface soil and rock layers play a fundamental role in the seismic site...
We implement a transdimensional Bayesian approach to solve the 1D elastic full-waveform inversion (F...
The inversion of Rayleigh wave dispersion curves is a non-linear problem in which a numerical sampli...
The inversion of Rayleigh-wave dispersion curves is a classic geophysical inverse problem. We have d...
In this thesis the Rayleigh Wave dispersion curves are inverted to recover 1D near-surface Vs-Vp pro...
Analysis of surface wave data can be made using probabilistic approaches, e.g. Monte Carlo methods t...
The inversion of Rayleigh dispersion curve has been used to estimate the Vs ground profiles (thickne...
We implement a transdimensional Bayesian inversion that infers petrophysical reservoir properties, l...
Shear wave velocity models can be built through surface wave analysis. For the presented field case,...
The inversion of surface-wave dispersion curve to derive shear-wave velocity profile is a very delic...