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Acoustical Imaging

  • Hua Lee
  • Glen Wade

Part of the Acoustical Imaging book series (ACIM, volume 18)

Table of contents

  1. Front Matter
    Pages i-xi
  2. Biomedical Applications

    1. J. P. Jones, P. A. N. Chandraratna, T. Tak, S. Kaiser, E. Yigiter, J. Gallet
      Pages 1-6
    2. A. Pech, E.-G. Loch, W. v. Seelen
      Pages 7-15
    3. Zhengdi Qin, J. Ylitalo, J. Koivukangas, J. Oksman
      Pages 27-33
    4. Sidney Lees, Thomas J. Nelligan, Robert Doherty
      Pages 35-43
  3. Imaging Systems

  4. Advanced Imaging Techniques

  5. Nondestructive Evaluation

    1. B. R. Tittmann, J. R. Bulau
      Pages 145-152
    2. N. K. Batra, K. E. Simmonds, M. A. Tamm, H. H. Chaskelis
      Pages 153-161
    3. S. Pangraz, H. Simon, R. Herzer, W. Arnold
      Pages 189-195
  6. Acoustic Microscopy

  7. Seismic Imaging

    1. Enders A. Robinson
      Pages 273-280
    2. Benli Gu, Ying Ji
      Pages 289-298
  8. Parameter Estimation and Detection

  9. Multi-Dimensional Imaging

    1. C. J. M. van Ruiten, G. Boersma, A. J. Berkhout
      Pages 373-379
    2. Günter Prokoph, Helmut Ermert
      Pages 381-390
    3. Brent S. Robinson, James F. Greenleaf
      Pages 391-400
    4. Nils Sponheim, Ingvild Johansen, Anthony J. Devaney
      Pages 401-411
    5. J. S. Meng, H. W. Jones
      Pages 413-419
  10. Underwater Acoustic Imaging

    1. Pierre Alais, Pascal Challande, Lilia Eljaafari
      Pages 431-440
    2. Robert C. Dees, James H. Miller, Kevin P. Schaaff, Sönke Paulsen, Ching-Sang Chiu, Laura Ehret et al.
      Pages 441-453
    3. Michael P. Hayes, Peter T. Gough
      Pages 455-466
    4. L. A. Ferrari, P. V. Sankar, D. Pang, H. Masahara
      Pages 467-479

About this book

Introduction

How to produce images with sound has intrigued engineers and scientists for many years. Bats, whales and dolphins can easily get good mental images with acoustical energy, but humans have little natural ability for obtaining such images. The history of engineering and science, however, is an impressive demonstration that technological solutions can compensate, and then some, for deficiencies of nature in humans. Thus with the proper technology, we too can "see" with sound. Many methods involv­ ing ultrasonic energy can be employed to enable us to do so. Few of these methods are at all reminiscent of the acoustic systems employed by animals. Pulse-echo, phase-amplitude and amplitude-mapping approaches constitute the conceptual bases for three fundamentally different types of acoustic imaging systems and can be used for categorizing the systems. However, by now systems exist that combine the approaches in such sophisticated ways as to make an unambiguous categorization of some of the more complicated systems difficult or impossible. Among the instruments so far pro­ duced are mechanically-scanning focused instruments, chirped pulse-echo instruments, and instruments involving holography, tomography, parametric excitation, phase conju­ gation, neural networks, random phase transduction, finite element methods, Doppler frequency shifting, pseudo inversion, Bragg diffraction and reflection, and a host of other principles. The fifty-five chapters in this volume are selected from papers presented at the Eighteenth International Symposium on Acoustical Imaging which was held in Santa Barbara, California on September 18 - 20, 1989.

Keywords

Phase diffraction history of engineering imaging instruments network neural networks ultrasound

Editors and affiliations

  • Hua Lee
    • 1
  • Glen Wade
    • 1
  1. 1.University of California at Santa BarbaraSanta BarbaraUSA

Bibliographic information

  • DOI https://doi.org/10.1007/978-1-4615-3692-5
  • Copyright Information Plenum Press, New York 1990
  • Publisher Name Springer, Boston, MA
  • eBook Packages Springer Book Archive
  • Print ISBN 978-1-4613-6641-6
  • Online ISBN 978-1-4615-3692-5
  • Series Print ISSN 0270-5117
  • Buy this book on publisher's site