Accession Number : ADA133156

Title :   The Numerical Synthesis and Inversion of Acoustic Fields Using the Hankel Transform with Application to the Estimation of the Plane Wave Reflection Coefficient of the Ocean Bottom.

Descriptive Note : Doctoral thesis,


Personal Author(s) : Mook,Douglas Robert

PDF Url : ADA133156

Report Date : Sep 1983

Pagination or Media Count : 231

Abstract : The plane wave reflection coefficient is an important geometry independent means of specifying the acoustic response of a horizontally stratified ocean bottom. It is an integral step in the inversion of acoustic field measurements to obtain parameters of the bottom and it is used to characterize an environment for purpose of acoustic imaging. This thesis studies both the generation of synthetic pressure fields through the plane wave reflection coefficient and the inversion of measured pressure fields to estimate the plane wave reflection coefficient. These are related through the Sommerfeld integral which is in the form of a Hankel transform. The Hankel transform is extensively studied in this thesis and both applications. When we apply them to the generation of synthetic data, we obtain hybrid numerical-analytical algorithms which provide extremely accurate synthetic fields without sacrificing computational speed. These algorithms can accurately incorporate the effects of trapped modes guided by slow speed layers in the bottom. We also apply these tools to study the inverion of measured pressure filed data for the plane wave coefficient. We address practical issues associated with the inversion procedure including removal of the source field, sampling, field measurements over a finite range, and uncontrolled variations in source-height. A phase unwrapping and associated interpolation scheme is developed to handle improperly space data.

Descriptors :   *Acoustic fields, *Acoustic reflection, Underwater sound, Plane waves, Continuous waves, Ocean bottom, Deep oceans, Stratification, Mathematical analysis, Transformations(Mathematics), Theses

Subject Categories : Acoustics

Distribution Statement : APPROVED FOR PUBLIC RELEASE