Advanced Structural Dynamics and Acoustics

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Transcription:

Advanced Structural Dynamics and Acoustics

Fundamentals of OCEAN ACOUSTICS Figures in this lecture are from Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147

Generic Sound Speed Structure. Fig 1.1 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Global Sound Speed Structure. Fig 1.2 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147

SOUND SPEED, SNELL S LAW AND ATTENUATION ADVANCED STRUCTURAL DYNAMICS AND ACOUSTICS Lecture 1

ADVANCED STRUCTURAL DYNAMICS AND ACOUSTICS Lecture 1

Schematic of Sound Propagation Paths. Fig 1.6 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Geometric Spreading. Fig 1.5 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Lloyd Mirror Effect. Fig 1.8 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Deep Sound-channel Propagation (Norwegian Sea). Fig 1.11 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Surface-duct Propagation (Norwegian Sea). Fig 1.12 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Convergence Zone Propagation (Norwegian Sea). Fig 1.9 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147

ARCTIC PROPAGATION Artic Propagation Fig 1.13 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147

SHALLOW WATER SOUND SPEED PROFILES ADVANCED STRUCTURAL DYNAMICS AND ACOUSTICS Lecture 1

REFLECTIVITY AND SHALLOW WATER PROPAGATION Diagram: Fig 1.21 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147

CONSTRUCTIVE INTERFERENCE: MODAL PROPAGATION ADVANCED STRUCTURAL DYNAMICS AND ACOUSTICS Lecture 1

SHALLOW WATER PROPAGATION ADVANCED STRUCTURAL DYNAMICS AND ACOUSTICS Lecture 1

Shallow-water Propagation (Summer, Mediterranean) Fig 1.14 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Contoured Propagation Loss: Optimum Frequency Curves Fig 1.16 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147

OPTIMUM FREQUENCY CURVES ADVANCED STRUCTURAL DYNAMICS AND ACOUSTICS Lecture 1

Propagation in a Range Development Environment. Fig 1.17 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Propagation Over a Seamount (North Pacific). Fig 1.18 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Attenuation of Sound in Seawater (Urick). Fig 1.19 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Day and Night Scattering Strengths (Chapman and Marshall). Fig 1.25 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147 Ambient Noise Spectra (Wenz). Fig 1.26 Jensen, F.B., W.A. Kuperman, M.B. Porter, and H. Schmidt. Computational Ocean Acoustics. New York: AIP Press/Springer, 2000. ISBN 0387520147

HIERARCHY OF UNDERWATER ACOUSTIC MODELS ADVANCED STRUCTURAL DYNAMICS AND ACOUSTICS Lecture 1

MODEL CONSISTENCY: MODES AND RAYS

Target Scattering in Ocean Waveguides Single Scatter Approximation Source Waveguide Propagation Target Scattering Waveguide Propagation For example: Ingenito, 1984 Fawcett, 1997 Lim, 1997 Schmidt and Lee, 1998 Makris, 1999 Receivers

GOATS 98 Mono-static, Super-critical Scattering Analysis by Tesei etal., JASA 2000 ADVANCED STRUCTURAL DYNAMICS AND ACOUSTICS Lecture 1

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