Target-oriented full-waveform inversion based on generalized R\'enyi entropy using patched Green's function techniques
Abstract
The estimation of physical parameters from data analysis is a crucial point for the description and modeling of many complex systems. Based on R\'enyi -Gaussian distribution and patched Green's function (PGF) techniques, we propose a robust framework for data inversion using a wave-equation based methodology named full-waveform inversion (FWI). We show the effectiveness of our proposal by considering two distinct realistic P-wave velocity models, in which the first one is inspired in the Kwanza Basin in Angola and the second in a region of great economic interest in the Brazilian pre-salt field. We call our proposal by the abbreviation -PGF-FWI. The results reveal that the -PGF-FWI is robust against additive Gaussian noise and non-Gaussian noise with outliers in the limit , being the R\'enyi entropic index.
Keywords
Cite
@article{arxiv.2201.12564,
title = {Target-oriented full-waveform inversion based on generalized R\'enyi entropy using patched Green's function techniques},
author = {Wagner A. Barbosa and Sérgio Luiz E. F. da Silva and Erick de la Barra and João M. de Araújo},
journal= {arXiv preprint arXiv:2201.12564},
year = {2023}
}