DocumentCode
1405956
Title
Optimal modal beamforming of bandpass signals using an undersized sparse vertical hydrophone array: theory and a shallow-water experiment
Author
Chiu, Ching-Sang ; Miller, Christopher W. ; Lynch, James F.
Author_Institution
Dept. of Oceanogr., Naval Postgraduate Sch., Monterey, CA, USA
Volume
22
Issue
3
fYear
1997
fDate
7/1/1997 12:00:00 AM
Firstpage
522
Lastpage
533
Abstract
Conventional methods for modal beamforming of underwater acoustic signals using a vertical-line hydrophone array (VLA) can suffer significant degradation in resolution when the array is geometrically deficient, i.e., consists of sparsely spaced elements and spans the water column partially or is poorly navigated. Designed for estimating the coefficients of the normal modes, these conventional methods include the direct projection (DP) of the data on the calculated mode shapes and least-squares (LS) fitting of the mode sum to the data. The degradation, in the form of modal cross talk or sidelobes, is a result of an undersampling in depth. This cross talk may be mitigated with the application of proper space-time filter constraints in the case of a pulse transmission. In this paper, a generalized least-squares (GLS) mode beamformer, capable of incorporating physical space-time constraints on the propagation of sound, is presented. The formulation is based on the well-known theorem of Gauss and Markov. Initialized by a model prediction of the basic arrival structure of the normal modes and incorporating, iteratively, refined estimates of the statistics of the modal fluctuations, this GLS technique strives to boost the resolution of a geometrically deficient VLA. The improvement is demonstrated using the VLA data collected during a shallow-water tomography experiment in the Barents Sea. The superiority of the GLS method over the conventional DP and LS methods is evident, providing a high-quality time series of modal arrivals as a function of geophysical time, which, in turn, reveals the dominant time scales of the oceanic processes associated with the Barents Sea Polar Front
Keywords
acoustic tomography; oceanographic regions; oceanographic techniques; oceanography; underwater sound; Arctic Ocean; Barents Sea; Polar Front; acoustic array; acoustic beamforming; acoustic measurement technique; acoustic tomography; acoustics; bandpass signal; coupled mode analysis; direct projection; least-squares mode beamformer; modal arrival; ocean; optimal modal beamforming; shallow-water experiment; shallow-water tomography; sonar; theory; undersized sparse vertical hydrophone array; underwater sound; vertical-line hydrophone array; Acoustic arrays; Acoustic propagation; Array signal processing; Degradation; Filters; Navigation; Shape; Signal resolution; Sonar equipment; Underwater acoustics;
fLanguage
English
Journal_Title
Oceanic Engineering, IEEE Journal of
Publisher
ieee
ISSN
0364-9059
Type
jour
DOI
10.1109/48.611143
Filename
611143
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