دانلود کتاب Fundamentals of general linear acoustics

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Cover
Title Page
Copyright
Contents
About the Authors
Preface
List of Symbols
Chapter 1 Introduction
Chapter 2 Fundamentals of Acoustic Wave Motion
2.1 Fundamental Acoustic Concepts
2.2 The Wave Equation
References
Chapter 3 Simple Sound Fields
3.1 Plane Waves
3.2 Sound Transmission Between Fluids
3.3 Simple Spherical Waves
References
Chapter 4 Basic Acoustic Measurements
4.1 Introduction
4.2 Frequency Analysis
4.3 Levels and Decibels
4.4 Noise Measurement Techniques and Instrumentation
References
Chapter 5 The Concept of Impedance
5.1 Mechanical Impedance
5.2 Acoustic Impedance
5.3 Specific Impedance, Wave Impedance and Characteristic Impedance
References
Chapter 6 Sound Energy, Sound Power, Sound Intensity and Sound Absorption
6.1 Introduction
6.2 Conservation of Sound Energy
6.3 Active and Reactive Intensity
6.4 Measurement of Sound Intensity
6.4.1 Errors Due to the Finite Difference Approximation
6.4.2 Errors Due to Scattering
6.4.3 Errors Due to Phase Mismatch
6.5 Applications of Sound Intensity
6.5.1 Sound Power Determination
6.5.2 Noise Source Identification and Visualisation of Sound Fields
6.5.3 Transmission Loss of Structures and Partitions
6.5.4 Measurement of the Emission Sound Pressure Level
6.6 Sound Absorption
References
Chapter 7 Duct Acoustics
7.1 Introduction
7.2 Plane Waves in Ducts with Rigid Walls
7.2.1 The Sound Field in a Tube Terminated by an Arbitrary Impedance
7.2.2 Radiation of Sound from an Open-ended Tube
7.3 Sound Transmission Through Coupled Pipes
7.3.1 The Transmission Matrix
7.3.2 System Performance
7.3.3 Dissipative Silencers
7.4 Sound Propagation in Ducts with Mean Flow
7.5 Three-dimensional Waves in Ducts with Rigid Walls
7.5.1 The Sound Field in a Duct with Rectangular Cross Section
7.5.2 The Sound Field in a Duct with Circular Cross Section
7.5.3 The Sound Field in a Duct with Arbitrary Cross-sectional Shape
7.6 The Green\'s Function in a Semi-infinite Duct
7.7 Sound Propagation in Ducts with Walls of Finite Impedance
7.7.1 Ducts with Nearly Hard Walls
7.7.2 Lined Ducts
References
Chapter 8 Sound in Enclosures
8.1 Introduction
8.2 The Modal Theory of Sound in Enclosures
8.2.1 Eigenfrequencies and Mode Shapes
8.2.2 The Modal Density
8.2.3 The Green\'s Function in an Enclosure
8.3 Statistical Room Acoustics
8.3.1 The Perfectly Diffuse Sound Field
8.3.2 The Sound Field in a Reverberation Room Driven with a Pure Tone
8.3.3 Frequency Averaging
8.3.4 The Sound Power Emitted by a Point Source in a Lightly Damped Room
8.4 The Decay of Sound in a Lightly Damped Room
8.4.1 The Modal Approach to Decay of Sound
8.4.2 The Statistical Approach to Decay of Sound
8.5 Applications of Reverberation Rooms
8.5.1 Sound Power Determination
8.5.2 Measurement of Sound Absorption
8.5.3 Measurement of Transmission Loss
References
Chapter 9 Sound Radiation and Scattering
9.1 Introduction
9.2 Point Sources
9.2.1 Reciprocity
9.2.2 Sound Power Interaction of Coherent Sources
9.2.3 Fundamentals of Beamforming
9.3 Cylindrical Waves
9.3.1 Radiation from Cylindrical Sources
9.3.2 Scattering by Cylinders
9.4 Spherical Waves
9.4.1 Radiation from Spherical Sources
9.4.2 Scattering by Spheres
9.4.3 Ambisonics
9.5 Plane Sources
9.5.1 The Rayleigh Integral
9.5.2 The Wavenumber Approach
9.5.3 Fundamentals of Near Field Acoustic Holography
9.6 The Kirchhoff-Helmholtz Integral Equation
References
Appendix A Complex Representation of Harmonic Functions of Time
Appendix B Signal Analysis and Processing
B.1 Introduction
B.2 Classification of Signals
B.3 Transient Signals
B.3.1 The Fourier Transform
B.3.2 Time Windows
B.4 Periodic Signals
B.4.1 Fourier Series
B.4.2 The Fourier Transform of a Periodic Signal
B.4.3 Estimation of the Spectrum of a Periodic Signal
B.5 Random Signals
B.5.1 Autocorrelation Functions and Power Spectra
B.5.2 Cross-correlation Functions and Cross-power Spectra
B.5.3 Estimation of Correlation Functions and Power Spectra
B.6 Linear Systems
B.6.1 Impulse Response and Frequency Response
B.6.2 Estimation of the Frequency Response of a Linear System
B.6.3 Estimation of the Frequency Response of a Weakly Nonlinear System
B.7 Digital Signal Processing
B.7.1 Sampling
B.7.2 The Discrete Fourier Transform
B.7.3 Signal Analysis with the `Fast Fourier Transform\' (FFT)
B.7.4 The Method Based on `Maximum Length Sequences\' (MLS)
References
Appendix C Cylindrical and Spherical Bessel Functions; Legendre Functions; and Expansion Coefficients
C.1 Cylindrical Bessel Functions
C.2 Legendre Functions
C.3 Spherical Bessel Functions
C.4 Expansion Coefficients
Reference
Appendix D Fundamentals of Probability and Random Variables
D.1 Random Variables
D.2 The Central Limit Theorem
D.3 Chi and Chi-Square Statistics
Reference
Bibliography
Index