Evaluation of improvements to an underwater acoustic propagation model based on the parabolic equation
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Authors
Weatherly, Kirk A.
Subjects
Underwater Acoustic Propagation
Parabolic Equation Approximation
Modal Decomposition
Parabolic Equation Approximation
Modal Decomposition
Advisors
Smith, Kevin B.
Date of Issue
2000-06-01
Date
Publisher
Monterey, California. Naval Postgraduate School
Language
en_US
Abstract
This thesis examines two implementations of the parabolic equation approximation to the acoustic wave equation aimed at removing three errors inherent to the wide-angle parabolic equation (WAPE) model. First, the selection of the range step size used by the split-step Fourier algorithm affects the convergence of the solution. Second, in certain ocean environments WAPE incorrectly computes the down-range transmission loss. Finally, WAPE does not reproduce the standard normal mode basis set as defined by normal mode theory. A double-precision implementation of the WAPE (DP-WAPE) is developed to evaluate the dependence of solution convergence on the numerical precision of the model. Finally, an implementation that is insensitive to the choice of the reference sound speed (COIPE) is evaluated for its ability to reduce or remove the latter two of these three errors. The stability other WAPE solution was found to be unaffected by the DP-WAPE implementation. The range-step dependence is inherent to the split-step algorithm. The COIPE corrects the transmission loss anomaly and satisfactorily reproduces the standard normal mode basis set
Type
Thesis
Description
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Format
viii, 87 p.;28 cm.
Citation
Distribution Statement
Approved for public release; distribution is unlimited.