Modular neural networks for seismic tomography

Author

Barráez, D. ; Garcia-Salicetti, S. ; Dorizzi, B. ; Padrón, M. ; Ramos, E.

Author_Institution

Univ. Central de Venezuela, Caracas, Venezuela

Volume

3

fYear

2002

fDate

2002

Firstpage

407

Abstract

We propose in this paper a modular approach for the problem of traveltime inversion or seismic tomography. This problem consists in the inference of the velocity of wave propagation in the subsurface after an explosion has been produced at the surface, relying on such waves\´ traveltimes. These traveltimes are recorded by several receivers on the surface. In the present work, we consider data synthetically generated, thanks to the use of a particular "Earth-Model". An Earth-model is a multilayered media in which each layer is homogeneous, that is, the seismic wave\´s propagation velocity in each layer is constant, and each layer\´s thickness is different. We compare, on these synthetic data, a multilayer perceptron (MLP) to a modular neural architecture. We show that the modular approach is better suited for the inversion problem stated, and study the experimental conditions in which the potential of this approach is optimally exploited.

Keywords

geophysical techniques; geophysics computing; multilayer perceptrons; neural net architecture; seismology; wave propagation; Earth-model; MLP; modular neural networks; multilayer perceptron; multilayered medium; seismic tomography; synthetically generated data; traveltime inversion; wave propagation velocity inference; Earth; Explosions; Geology; Geophysics computing; Neural networks; Nonhomogeneous media; Petroleum; Seismic waves; Surface waves; Tomography;

fLanguage

English

Publisher

ieee

Conference_Titel

Pattern Recognition, 2002. Proceedings. 16th International Conference on

ISSN

1051-4651

Print_ISBN

0-7695-1695-X

Type

conf

DOI

10.1109/ICPR.2002.1047932

Filename

1047932