Trans-dimensional geoacoustic inversion of wind-driven ambient noise | Zendy

Jorge E. Quijano | Zendy; Stan E. Dosso | Zendy; Jan Dettmer | Zendy; Lisa M. Zurk | Zendy; Martin Siderius | Zendy

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Trans-dimensional geoacoustic inversion of wind-driven ambient noise

Author(s) -

Jorge E. Quijano,

Stan E. Dosso,

Jan Dettmer,

Lisa M. Zurk,

Martin Siderius

Publication year - 2012

Publication title -

the journal of the acoustical society of america

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.619

H-Index - 187

eISSN - 1520-8524

pISSN - 0001-4966

DOI - 10.1121/1.4771975

Subject(s) - parallel tempering , inversion (geology) , markov chain monte carlo , seabed , ambient noise level , geology , reversible jump markov chain monte carlo , metropolis–hastings algorithm , bayesian probability , jump , monte carlo method , acoustics , algorithm , computer science , hybrid monte carlo , mathematics , physics , statistics , oceanography , seismology , artificial intelligence , sound (geography) , quantum mechanics , tectonics

This letter applies trans-dimensional Bayesian geoacoustic inversion to quantify the uncertainty due to model selection when inverting bottom-loss data derived from wind-driven ambient-noise measurements. A partition model is used to represent the seabed, in which the number of layers, their thicknesses, and acoustic parameters are unknowns to be determined from the data. Exploration of the parameter space is implemented using the Metropolis-Hastings algorithm with parallel tempering, whereas jumps between parameterizations are controlled by a reversible-jump Markov chain Monte Carlo algorithm. Sediment uncertainty profiles from inversion of simulated and experimental data are presented.

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