Title :
Geoacoustic model inversion with artificial neural networks
Author :
Benson, Jeremy ; Chapman, N. Ross ; Antoniou, Andreas
Author_Institution :
Dept. of Electr. & Comput. Eng., Victoria Univ., BC, Canada
Abstract :
An ocean parameter estimation methodology is presented which involves neural networks. Both multi-layered perceptron networks and radial basis function networks were trained to estimate ocean bottom parameters from a received acoustic signal. The network´s design algorithms are presented and their relative merits discussed. The pre-processing of the data is described in detail. A comparison of the relative accuracies of the two networks for simulated data is presented. The inversion of actual data from the TRIAL SABLE experiment was performed and the parameter estimates are given
Keywords :
feedforward neural nets; geophysical signal processing; inverse problems; multilayer perceptrons; oceanographic techniques; parameter estimation; sediments; sonar signal processing; TRIAL SABLE experiment; artificial neural networks; design algorithms; geoacoustic model inversion; multi-layered perceptron networks; ocean bottom parameters; ocean parameter estimation methodology; pre-processing; radial basis function networks; received acoustic signal; relative accuracy; Acoustic waveguides; Acoustic waves; Algorithm design and analysis; Artificial neural networks; Geologic measurements; Multilayer perceptrons; Oceans; Parameter estimation; Sea measurements; Sediments;
Conference_Titel :
Advances in Digital Filtering and Signal Processing, 1998 IEEE Symposium on
Conference_Location :
Victoria, BC
Print_ISBN :
0-7803-4957-1
DOI :
10.1109/ADFSP.1998.685708
