Impulse response of the ocean floor: mathematical modeling. Phase 2, final report.

Research output: Contribution to journalArticle

Abstract

Success in probing the ocean floor acoustically depends on the ability to resolve physical features. Since this amounts to temporal resolution of the received signal, short-duration transient signals are ideal for these measurements. Procedures for propagation prediction of such acoustic transients are developed as a tool for interpreting ocean floor measurements. Some of the special features of time-dependent propagation are discussed in contrast with the usual continuous wave solutions and asymptotic solutions for the field integral are related to various types of propagation. -from STAR, 21(22), 1983

Original languageEnglish (US)
Journal[No source information available]
StatePublished - Dec 1 1983

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Impulse response
impulses
oceans
seafloor
propagation
modeling
acoustics
Acoustics
temporal resolution
continuous radiation
prediction
predictions

All Science Journal Classification (ASJC) codes

  • Earth and Planetary Sciences(all)
  • Environmental Science(all)

Cite this

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title = "Impulse response of the ocean floor: mathematical modeling. Phase 2, final report.",
abstract = "Success in probing the ocean floor acoustically depends on the ability to resolve physical features. Since this amounts to temporal resolution of the received signal, short-duration transient signals are ideal for these measurements. Procedures for propagation prediction of such acoustic transients are developed as a tool for interpreting ocean floor measurements. Some of the special features of time-dependent propagation are discussed in contrast with the usual continuous wave solutions and asymptotic solutions for the field integral are related to various types of propagation. -from STAR, 21(22), 1983",
author = "Gabrielson, {Thomas B.}",
year = "1983",
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day = "1",
language = "English (US)",
journal = "Journal of Fluid Mechanics",
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publisher = "Cambridge University Press",

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AB - Success in probing the ocean floor acoustically depends on the ability to resolve physical features. Since this amounts to temporal resolution of the received signal, short-duration transient signals are ideal for these measurements. Procedures for propagation prediction of such acoustic transients are developed as a tool for interpreting ocean floor measurements. Some of the special features of time-dependent propagation are discussed in contrast with the usual continuous wave solutions and asymptotic solutions for the field integral are related to various types of propagation. -from STAR, 21(22), 1983

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