Theory Pertaining to Comparison and Calibration in an Experiment to Measure Acoustic Reflection Coefficients

Abstract

For the purpose of analyzing data to determine underwater acoustic reflection coefficients at low megahertz frequencies, relevant theory is developed. For a target that may be in the near field, the three-dimensional point spread function for image points close to the target, is derived for rather general arrays and waveforms. The model of the active system is extended to allow a coded signal, a spherical transmitter, and a transmitter not in the receiver array plane. Here and elsewhere, conditions of validity are carefully obtained. Conditions are derived under which a ball target (used for calibration in the experiment) behaves as a point reflector. The image of a rectangular target, described by an angle-dependent reflection coefficient, is obtained. The preceding results lead to an integral relationship,' or energy conservation' relationship, proved for a point target and conjectured to hold generally. It is shown how this result would enable one to analyze the experiment to determine absolute reflection coefficients.

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Document Details

Document Type
Technical Report
Publication Date
Mar 01, 2002
Accession Number
ADA407517

Entities

People

  • David G. Blair

Organizations

  • Defence Science and Technology Group

Tags

Communities of Interest

  • Air Platforms
  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Acoustic Properties
  • Acoustic Reflection
  • Acoustics
  • Diffraction
  • Energy Conservation
  • Frequency
  • Geometric Forms
  • Geometry
  • Integrals
  • Intensity
  • Measurement
  • Near Field
  • Physics Laboratories
  • Reflection
  • Reflectors
  • Three Dimensional
  • Two Dimensional

Fields of Study

  • Physics

Readers

  • Electromagnetic Wave Scattering and Antenna Radiation Engineering
  • Sensor Fusion and Tracking Systems.
  • Statistical inference.