DocumentCode
785218
Title
Estimation of Transmission Loss in the Presence of Geoacoustic Inversion Uncertainty
Author
Gerstoft, Peter ; Huang, Chen-Fen ; Hodgkiss, William S.
Author_Institution
Marine Phys. Lab., Univ. of California San Diego
Volume
31
Issue
2
fYear
2006
fDate
4/1/2006 12:00:00 AM
Firstpage
299
Lastpage
307
Abstract
A common problem in sonar system prediction is that the ocean environment is not well known. Utilizing probabilistic based results from geoacoustic inversions we characterize parameters relevant to sonar performance. This paper describes the estimation of transmission loss and its statistical properties based on posterior parameter probabilities obtained from inversion of ocean acoustic array data. This problem is solved by first finding an ensemble of relevant environmental model parameters and the associated posterior probability using a likelihood based inversion of the acoustic array data. In a second step, each realization of these model parameters is weighted with their posterior probability to map into the transmission loss domain. This approach is illustrated using vertical-array data from a recent benchmark data set and from data acquired during the Asian Seas International Acoustics Experiment (ASIAEX) 2001 in the East China Sea. The environmental parameters are first estimated using a probabilistic-based geoacoustic inversion technique. Based on the posterior probability that each of these environmental models fits the ocean acoustic array data, each model is mapped into transmission loss. This enables us to compute a full probability distribution for the transmission loss at selected frequencies, ranges, and depths, which potentially could be used for sonar performance prediction
Keywords
inverse problems; oceanographic techniques; sonar arrays; underwater sound; Asian Seas International Acoustics Experiment; East China Sea; geoacoustic inversion uncertainty; ocean acoustic array data; posterior parameter probabilities; sonar performance prediction; transmission loss estimation; Acoustic arrays; Distributed computing; Frequency; Geoacoustic inversion; Oceans; Parameter estimation; Probability distribution; Propagation losses; Sonar; Uncertainty; Geoacoustic inversion; SAGA; sonar performance prediction; transmission loss prediction;
fLanguage
English
Journal_Title
Oceanic Engineering, IEEE Journal of
Publisher
ieee
ISSN
0364-9059
Type
jour
DOI
10.1109/JOE.2006.875104
Filename
1707981
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