Environmental Acoustics and Intensity Vector Acoustics with Emphasis on Shallow Water Effects and the Sea Surface

Abstract

The long-term goal is to understand and predict key properties of the signal intensity vector field (Umov vector) as it propagates away from an active sound source, with emphasis is on mid-frequency, shallow water propagation. Because of enabling technologies involving MEMS and bio-inspired transduction, tomorrow s navy will depend on and utilize acoustic vector field properties (velocity, acceleration, intensity) much more than today s. Advancement in Navy relevant capabilities will be in part realized through a better understanding of the environmental and acquisition geometry dependence (source depth, range, etc.) of the vector field in a shallow water environment. The primary technical objectives this year were to: (1) Complete acoustic and sea surface wave modeling relating to the influence of sea surface directional waves on propagation measurements from the Shallow Water 06 (SW06) experiment off the coast of New Jersey and complete the analysis of the vector property known as circularity also using data from SW06. (2) Undertake the Targets and Reverberation Experiment (TREX13) off the coast of Florida. Here a new vector sensor from China was used in the first full-scale field test, following controlled laboratory testing from the previous year. These objectives share a common thread: towards understanding the environmental influences on the intensity vector field in shallow water sound propagation.

Document Details

Document Type

Technical Report

Publication Date

Sep 30, 2013

Accession Number

ADA599014

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