Vertical spatial coherence model for a transient signal forward-scattered from the sea surface

Author

Yoerger, Edward J. ; McDaniel, Suzanne T.

Author_Institution

Naval Oceanogr. & Atmos. Res. Lab., Stennis Space Center, MS, USA

Volume

21

Issue

1

fYear

1996

fDate

1/1/1996 12:00:00 AM

Firstpage

24

Lastpage

36

Abstract

The treatment of acoustic energy forward scattered from the sea surface, which is modeled as a random communications scatter channel, is the basis for developing an expression for the time-dependent coherence function across a vertical receiving array. The derivation of this model uses linear filter theory applied to the Fresnel-corrected Kirchhoff approximation in obtaining an equation for the covariance function for the forward-scattered problem. The resulting formulation is used to study the dependence of the covariance on experimental and environmental factors. The modeled coherence functions are then formed for various geometrical and environmental parameters and compared to experimental data

Keywords

acoustic arrays; acoustic signal processing; acoustic wave scattering; coherence; oceanography; random processes; transients; Fresnel-corrected Kirchhoff approximation; acoustic energy; coherence functions; covariance function; environmental factors; environmental parameters; equation; experimental factors; forward-scattered problem; linear filter theory; random communications scatter channel; sea surface; time-dependent coherence function; transient signal; vertical receiving array; vertical spatial coherence model; Acoustic arrays; Acoustic scattering; Equations; Filtering theory; Kirchhoff´s Law; Nonlinear filters; Sea surface; Spatial coherence; Surface treatment; Underwater communication;

fLanguage

English

Journal_Title

Oceanic Engineering, IEEE Journal of

Publisher

ieee

ISSN

0364-9059

Type

jour

DOI

10.1109/48.485199

Filename

485199