Exploring Animal Behavior Through Sound : : Methods.

Exploring Animal Behavior Through Sound : : Methods.

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Erbe, Christine.
TeilnehmendeR:
Thomas, Jeanette A.
Place / Publishing House:Cham : : Springer International Publishing AG,, 2022.
©2022.
Year of Publication:2022
Edition:1st ed.
Language:English
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Physical Description:1 online resource (524 pages)
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spelling Erbe, Christine.
Exploring Animal Behavior Through Sound : Methods.
1st ed.
Cham : Springer International Publishing AG, 2022.
©2022.
1 online resource (524 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Intro -- Preface -- Contents -- About the Editor -- 1: History of Sound Recording and Analysis Equipment -- 1.1 Introduction -- 1.2 Advances in Recorders -- 1.2.1 Analog Recorders -- 1.2.2 Digital Recorders -- 1.2.3 Recording to a Computer -- 1.2.4 Autonomous Programmable Recorders -- 1.2.5 Multi-Channel Recorders -- 1.3 Advances in Microphones -- 1.3.1 Microphones Used in Bioacoustics Research -- 1.3.2 Measurement Microphones -- 1.3.3 Accelerometers -- 1.3.4 Laser and Optical Microphones -- 1.3.5 Bat Detectors -- 1.4 Advances in Hydrophones -- 1.4.1 Single Hydrophones -- 1.4.2 Sonobuoys -- 1.4.3 Autonomous Underwater Acoustic Recorders -- 1.4.4 Towed Hydrophone Arrays -- 1.4.5 Seafloor Hydrophone Arrays -- 1.4.6 Small Arrays -- 1.5 Autonomous Mobile Systems -- 1.5.1 Aerial Mobile Systems -- 1.5.2 Underwater Mobile Systems -- 1.5.3 Animal Acoustic Tags -- 1.6 Advances in Sound Analysis Hard- and Software -- 1.7 Summary -- References -- 2: Choosing Equipment for Animal Bioacoustic Research -- 2.1 Introduction -- 2.2 Basic Concepts of Sound Recording -- 2.2.1 Sampling Rate and Bandwidth -- 2.2.2 Aliasing -- 2.2.3 Amplitude Sensitivity -- 2.2.4 Bit-Resolution and Dynamic Range -- 2.2.5 Self-Noise -- 2.3 Instrumentation of Signal Chain Components -- 2.3.1 Sensors -- 2.3.1.1 Microphones -- Ultrasonic and Infrasonic Microphones -- Measurement and Specialty Microphones -- Microphone Directionality -- Monophonic and Stereophonic Recording -- Microphone Arrays -- Do-it-Yourself (DIY) Microphones -- Deployment Considerations -- 2.3.1.2 Hydrophones -- Hydrophone Directionality -- Sonobuoys -- Stationary Hydrophone Arrays -- Towed Hydrophone Arrays -- Deployment Considerations -- 2.3.2 Filters -- 2.3.2.1 Low- and High-Pass Filters -- 2.3.2.2 Anti-Aliasing Filters -- 2.3.3 Amplifiers -- 2.3.4 Analog-to-Digital Converters and Digital Recorders.
2.3.4.1 Recording Ultrasounds and Infrasounds -- 2.3.4.2 Special Features of Digital Recorders -- 2.3.5 Equipment for Monitoring Bats -- 2.3.6 Projectors -- 2.4 Autonomous Recorders -- 2.4.1 Terrestrial Recorders -- 2.4.2 Underwater Recorders -- 2.5 Recording Directly to a Computer -- 2.6 Calibration -- 2.6.1 Microphone -- 2.6.2 Hydrophone -- 2.6.3 AD-Converter -- 2.6.4 Autonomous Recorder -- 2.6.5 Measuring Self-Noise -- 2.7 Other Gear -- 2.7.1 Sound Pressure Level Meter -- 2.7.2 Vibration Measurement -- 2.7.2.1 In Terrestrial Studies -- Sensor Types Based on the Quantity Measured -- 2.7.2.2 In Underwater Studies -- 2.7.3 Smartphone Applications -- 2.8 Summary -- 2.9 Additional Resources -- References -- 3: Collecting, Documenting, and Archiving Bioacoustical Data and Metadata -- 3.1 Introduction -- 3.2 Ethical Research -- 3.3 Good Practices in Bioacoustical Studies -- 3.3.1 Recording Sounds -- 3.3.2 Environmental Conditions -- 3.3.3 Animal Considerations -- 3.3.4 Documentation and Data Sheets -- 3.3.5 Trouble-shooting Equipment Problems -- 3.4 Playback Methods and Controls -- 3.5 Considerations for Terrestrial Field Studies -- 3.6 Considerations for Aquatic Field Studies -- 3.7 Considerations for Studies on Captive Animals -- 3.8 Digital File Format -- 3.9 Data Storage -- 3.10 Archiving Recordings -- 3.11 Repositories of Bioacoustical Data -- 3.12 Summary -- 3.13 Additional Resources -- References -- 4: Introduction to Acoustic Terminology and Signal Processing -- 4.1 What Is Sound? -- 4.2 Terms and Definitions -- 4.2.1 Units -- 4.2.2 Sound -- 4.2.3 Frequency -- 4.2.4 Pressure -- 4.2.5 Sound Exposure -- 4.2.6 When to Use SPL and SEL? -- 4.2.7 Acoustic Energy, Intensity, and Power -- 4.2.8 Particle Velocity -- 4.2.9 Speed of Sound -- 4.2.10 Acoustic Impedance -- 4.2.11 The Decibel -- 4.2.11.1 Conversion from Decibel to Field or Power Quantities.
4.2.11.2 Differences between Levels of like Quantities -- 4.2.11.3 Amplification of Signals -- 4.2.11.4 Superposition of Field and Power Quantities -- 4.2.11.5 Levels in Air Versus Water -- 4.2.12 Source Level -- 4.2.13 What Field? Free-Field, Far-Field, Near-Field -- 4.2.14 Frequency Weighting -- 4.2.14.1 A, C, and Z Frequency Weightings -- 4.2.14.2 Frequency Weightings for Non-human Animals -- 4.2.14.3 M-Weighting -- 4.2.15 Frequency Bands -- 4.2.16 Power Spectral Density -- 4.2.17 Band Levels -- 4.3 Acoustic Signal Processing -- 4.3.1 Displays of Sounds -- 4.3.2 Fourier Transform -- 4.3.3 Recording and FFT Settings -- 4.3.3.1 Sampling Rate -- 4.3.3.2 Aliasing -- 4.3.3.3 Bit Depth -- 4.3.3.4 Audio Coding -- 4.3.3.5 FFT Window Size (NFFT) -- 4.3.3.6 FFT Window Function -- 4.3.4 Power Spectral Density Percentiles and Probability Density -- 4.4 Localization and Tracking -- 4.4.1 Time Difference of Arrival -- 4.4.1.1 Generalized Cross-Correlation -- 4.4.1.2 TDOA Hyperbolas -- 4.4.1.3 TDOA Localization in 2 Dimensions -- 4.4.1.4 TDOA Localization in 3 Dimensions -- 4.4.2 Beamforming -- 4.4.3 Parametric Array Processing -- 4.4.4 Examples of Sound Localization in Air and Water -- 4.4.5 Passive Acoustic Tracking -- 4.5 Symbols and Abbreviations (Table 4.10) -- 4.6 Summary -- References -- 5: Source-Path-Receiver Model for Airborne Sounds -- 5.1 Introduction -- 5.2 Sound Propagation in Terrestrial Environments -- 5.2.1 Ray Traces -- 5.2.2 Geometrical Sound Spreading -- 5.2.3 Sound Absorption in Air -- 5.2.4 Reflection, Scattering, and Diffraction -- 5.2.5 Ground Effect -- 5.2.6 Attenuation by Vegetative Cover -- 5.2.7 Speed of Sound in Still Air -- 5.2.8 Refraction by Air Temperature Gradients in Still Air -- 5.2.9 Refraction by Gradients of Wind Velocity -- 5.2.10 Attenuation from Air Turbulence.
5.3 The Source-Path-Receiver Model for Animal Acoustic Communication -- 5.3.1 The Sender -- 5.3.2 The Path and the Acoustic Environment -- 5.3.3 The Receiver -- 5.4 Summary -- 5.5 Additional Resources -- References -- 6: Introduction to Sound Propagation Under Water -- 6.1 Introduction -- 6.2 The Sonar Equation -- 6.2.1 Propagation Loss Form -- 6.2.2 Signal-to-Noise Ratio Form -- 6.2.3 Forms to Assess Communication Masking -- 6.2.4 Form for Biomass Surveying -- 6.3 The Layered Ocean -- 6.3.1 Temperature and Salinity Profiles -- 6.3.2 Sound Speed Profiles -- 6.4 Propagation Loss -- 6.4.1 Geometric Spreading Loss -- 6.4.2 Absorption Loss -- 6.4.3 Additional Losses -- 6.4.3.1 The Air-Water Interface -- Reflection and Transmission Coefficients -- Lloydś Mirror -- Scattering at the Sea Surface -- 6.4.3.2 The Seafloor Interface -- 6.4.3.3 Scattering Within the Water Column -- 6.4.4 Numerical Propagation Models -- 6.4.4.1 The Wave Equation and Solution Approaches -- 6.4.4.2 Ray and Beam Tracing -- 6.4.4.3 Normal Modes -- 6.4.4.4 Wavenumber Integration -- 6.4.4.5 Parabolic Equation -- 6.4.5 Choosing the Most Appropriate Model -- 6.4.6 Accessing Acoustic Propagation Models -- 6.5 Practical Acoustic Modeling Examples -- 6.5.1 Received Level Versus Range and Depth from a Tonal Source -- 6.5.2 Received Level Versus Range and Depth from a Broadband Source -- 6.5.3 Received Level as a Function of Geographical Position and Depth -- 6.5.4 Received Level as a Function of Geographical Position and Depth for a Directional Source -- 6.5.5 Modeling Limitations and Practicalities -- 6.6 Summary -- 6.7 Additional Resources -- References -- 7: Analysis of Soundscapes as an Ecological Tool -- 7.1 Introduction -- 7.2 Terrestrial Soundscapes -- 7.2.1 Biophony -- 7.2.2 Geophony -- 7.2.3 Anthropophony -- 7.2.4 Sound Propagation in Terrestrial Environments.
7.3 Aquatic Soundscapes -- 7.3.1 Biophony -- 7.3.2 Geophony -- 7.3.3 Anthropophony -- 7.3.4 Sound Propagation in Aquatic Environments -- 7.4 Soundscape Changes Over Space and Time -- 7.4.1 Spatial Patterns -- 7.4.2 Natural Cycles -- 7.4.3 Human Activities -- 7.4.3.1 Anthropophony -- 7.4.3.2 Land Use -- 7.4.3.3 Direct Takes -- 7.4.3.4 Climate Change -- 7.5 How to Analyze Soundscapes -- 7.5.1 Standard Soundscape Measurements -- 7.5.2 Identification of Sound Sources -- 7.5.3 Visual Displays of Soundscapes -- 7.5.3.1 Spectrograms -- 7.5.3.2 Power Spectral Density Percentile Plots -- 7.5.3.3 Soundscape Maps -- 7.5.4 Acoustic Indices -- 7.6 Applications of Soundscape Studies -- 7.6.1 Conservation of Natural Soundscapes -- 7.6.1.1 Management -- 7.6.1.2 Education -- 7.6.2 Monitoring the Health of Agroecosystems -- 7.6.3 Improving Captive Animal Welfare -- 7.7 Conclusion -- 7.8 Additional Resources -- 7.8.1 Sound Libraries -- 7.8.2 Ocean Acoustic Observatories -- 7.8.3 Software for Soundscape Analysis -- 7.8.4 Software for Sound Propagation Modeling -- 7.8.5 Software for Automatic Signal Detection -- References -- 8: Detection and Classification Methods for Animal Sounds -- 8.1 Introduction -- 8.2 Qualitative Naming and Classification of Animal Sounds -- 8.2.1 Onomatopoeic Names -- 8.2.2 Naming Sounds Based on Animal Behavior -- 8.2.3 Naming Sounds Based on Mechanism of Sound Production -- 8.2.4 Naming Sounds Based on Spectro-Temporal Features -- 8.2.5 Naming Sounds Based on Human Communication Patterns -- 8.3 Detection of Animal Sounds -- 8.3.1 Energy Threshold Detector -- 8.3.2 Spectrogram Cross-Correlation -- 8.3.3 Matched Filter -- 8.3.4 Spectral Entropy Detector -- 8.3.5 Teager-Kaiser Energy Operator -- 8.3.6 Evaluating the Performance of Automated Detectors -- 8.3.6.1 Confusion Matrices -- 8.3.6.2 Receiver Operating Characteristic (ROC) Curve.
8.3.6.3 Precision and Recall.
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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
Electronic books.
Thomas, Jeanette A.
Print version: Erbe, Christine Exploring Animal Behavior Through Sound: Volume 1 Cham : Springer International Publishing AG,c2022 9783030975388
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language English
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author Erbe, Christine.
spellingShingle Erbe, Christine.
Exploring Animal Behavior Through Sound : Methods.
Intro -- Preface -- Contents -- About the Editor -- 1: History of Sound Recording and Analysis Equipment -- 1.1 Introduction -- 1.2 Advances in Recorders -- 1.2.1 Analog Recorders -- 1.2.2 Digital Recorders -- 1.2.3 Recording to a Computer -- 1.2.4 Autonomous Programmable Recorders -- 1.2.5 Multi-Channel Recorders -- 1.3 Advances in Microphones -- 1.3.1 Microphones Used in Bioacoustics Research -- 1.3.2 Measurement Microphones -- 1.3.3 Accelerometers -- 1.3.4 Laser and Optical Microphones -- 1.3.5 Bat Detectors -- 1.4 Advances in Hydrophones -- 1.4.1 Single Hydrophones -- 1.4.2 Sonobuoys -- 1.4.3 Autonomous Underwater Acoustic Recorders -- 1.4.4 Towed Hydrophone Arrays -- 1.4.5 Seafloor Hydrophone Arrays -- 1.4.6 Small Arrays -- 1.5 Autonomous Mobile Systems -- 1.5.1 Aerial Mobile Systems -- 1.5.2 Underwater Mobile Systems -- 1.5.3 Animal Acoustic Tags -- 1.6 Advances in Sound Analysis Hard- and Software -- 1.7 Summary -- References -- 2: Choosing Equipment for Animal Bioacoustic Research -- 2.1 Introduction -- 2.2 Basic Concepts of Sound Recording -- 2.2.1 Sampling Rate and Bandwidth -- 2.2.2 Aliasing -- 2.2.3 Amplitude Sensitivity -- 2.2.4 Bit-Resolution and Dynamic Range -- 2.2.5 Self-Noise -- 2.3 Instrumentation of Signal Chain Components -- 2.3.1 Sensors -- 2.3.1.1 Microphones -- Ultrasonic and Infrasonic Microphones -- Measurement and Specialty Microphones -- Microphone Directionality -- Monophonic and Stereophonic Recording -- Microphone Arrays -- Do-it-Yourself (DIY) Microphones -- Deployment Considerations -- 2.3.1.2 Hydrophones -- Hydrophone Directionality -- Sonobuoys -- Stationary Hydrophone Arrays -- Towed Hydrophone Arrays -- Deployment Considerations -- 2.3.2 Filters -- 2.3.2.1 Low- and High-Pass Filters -- 2.3.2.2 Anti-Aliasing Filters -- 2.3.3 Amplifiers -- 2.3.4 Analog-to-Digital Converters and Digital Recorders.
2.3.4.1 Recording Ultrasounds and Infrasounds -- 2.3.4.2 Special Features of Digital Recorders -- 2.3.5 Equipment for Monitoring Bats -- 2.3.6 Projectors -- 2.4 Autonomous Recorders -- 2.4.1 Terrestrial Recorders -- 2.4.2 Underwater Recorders -- 2.5 Recording Directly to a Computer -- 2.6 Calibration -- 2.6.1 Microphone -- 2.6.2 Hydrophone -- 2.6.3 AD-Converter -- 2.6.4 Autonomous Recorder -- 2.6.5 Measuring Self-Noise -- 2.7 Other Gear -- 2.7.1 Sound Pressure Level Meter -- 2.7.2 Vibration Measurement -- 2.7.2.1 In Terrestrial Studies -- Sensor Types Based on the Quantity Measured -- 2.7.2.2 In Underwater Studies -- 2.7.3 Smartphone Applications -- 2.8 Summary -- 2.9 Additional Resources -- References -- 3: Collecting, Documenting, and Archiving Bioacoustical Data and Metadata -- 3.1 Introduction -- 3.2 Ethical Research -- 3.3 Good Practices in Bioacoustical Studies -- 3.3.1 Recording Sounds -- 3.3.2 Environmental Conditions -- 3.3.3 Animal Considerations -- 3.3.4 Documentation and Data Sheets -- 3.3.5 Trouble-shooting Equipment Problems -- 3.4 Playback Methods and Controls -- 3.5 Considerations for Terrestrial Field Studies -- 3.6 Considerations for Aquatic Field Studies -- 3.7 Considerations for Studies on Captive Animals -- 3.8 Digital File Format -- 3.9 Data Storage -- 3.10 Archiving Recordings -- 3.11 Repositories of Bioacoustical Data -- 3.12 Summary -- 3.13 Additional Resources -- References -- 4: Introduction to Acoustic Terminology and Signal Processing -- 4.1 What Is Sound? -- 4.2 Terms and Definitions -- 4.2.1 Units -- 4.2.2 Sound -- 4.2.3 Frequency -- 4.2.4 Pressure -- 4.2.5 Sound Exposure -- 4.2.6 When to Use SPL and SEL? -- 4.2.7 Acoustic Energy, Intensity, and Power -- 4.2.8 Particle Velocity -- 4.2.9 Speed of Sound -- 4.2.10 Acoustic Impedance -- 4.2.11 The Decibel -- 4.2.11.1 Conversion from Decibel to Field or Power Quantities.
4.2.11.2 Differences between Levels of like Quantities -- 4.2.11.3 Amplification of Signals -- 4.2.11.4 Superposition of Field and Power Quantities -- 4.2.11.5 Levels in Air Versus Water -- 4.2.12 Source Level -- 4.2.13 What Field? Free-Field, Far-Field, Near-Field -- 4.2.14 Frequency Weighting -- 4.2.14.1 A, C, and Z Frequency Weightings -- 4.2.14.2 Frequency Weightings for Non-human Animals -- 4.2.14.3 M-Weighting -- 4.2.15 Frequency Bands -- 4.2.16 Power Spectral Density -- 4.2.17 Band Levels -- 4.3 Acoustic Signal Processing -- 4.3.1 Displays of Sounds -- 4.3.2 Fourier Transform -- 4.3.3 Recording and FFT Settings -- 4.3.3.1 Sampling Rate -- 4.3.3.2 Aliasing -- 4.3.3.3 Bit Depth -- 4.3.3.4 Audio Coding -- 4.3.3.5 FFT Window Size (NFFT) -- 4.3.3.6 FFT Window Function -- 4.3.4 Power Spectral Density Percentiles and Probability Density -- 4.4 Localization and Tracking -- 4.4.1 Time Difference of Arrival -- 4.4.1.1 Generalized Cross-Correlation -- 4.4.1.2 TDOA Hyperbolas -- 4.4.1.3 TDOA Localization in 2 Dimensions -- 4.4.1.4 TDOA Localization in 3 Dimensions -- 4.4.2 Beamforming -- 4.4.3 Parametric Array Processing -- 4.4.4 Examples of Sound Localization in Air and Water -- 4.4.5 Passive Acoustic Tracking -- 4.5 Symbols and Abbreviations (Table 4.10) -- 4.6 Summary -- References -- 5: Source-Path-Receiver Model for Airborne Sounds -- 5.1 Introduction -- 5.2 Sound Propagation in Terrestrial Environments -- 5.2.1 Ray Traces -- 5.2.2 Geometrical Sound Spreading -- 5.2.3 Sound Absorption in Air -- 5.2.4 Reflection, Scattering, and Diffraction -- 5.2.5 Ground Effect -- 5.2.6 Attenuation by Vegetative Cover -- 5.2.7 Speed of Sound in Still Air -- 5.2.8 Refraction by Air Temperature Gradients in Still Air -- 5.2.9 Refraction by Gradients of Wind Velocity -- 5.2.10 Attenuation from Air Turbulence.
5.3 The Source-Path-Receiver Model for Animal Acoustic Communication -- 5.3.1 The Sender -- 5.3.2 The Path and the Acoustic Environment -- 5.3.3 The Receiver -- 5.4 Summary -- 5.5 Additional Resources -- References -- 6: Introduction to Sound Propagation Under Water -- 6.1 Introduction -- 6.2 The Sonar Equation -- 6.2.1 Propagation Loss Form -- 6.2.2 Signal-to-Noise Ratio Form -- 6.2.3 Forms to Assess Communication Masking -- 6.2.4 Form for Biomass Surveying -- 6.3 The Layered Ocean -- 6.3.1 Temperature and Salinity Profiles -- 6.3.2 Sound Speed Profiles -- 6.4 Propagation Loss -- 6.4.1 Geometric Spreading Loss -- 6.4.2 Absorption Loss -- 6.4.3 Additional Losses -- 6.4.3.1 The Air-Water Interface -- Reflection and Transmission Coefficients -- Lloydś Mirror -- Scattering at the Sea Surface -- 6.4.3.2 The Seafloor Interface -- 6.4.3.3 Scattering Within the Water Column -- 6.4.4 Numerical Propagation Models -- 6.4.4.1 The Wave Equation and Solution Approaches -- 6.4.4.2 Ray and Beam Tracing -- 6.4.4.3 Normal Modes -- 6.4.4.4 Wavenumber Integration -- 6.4.4.5 Parabolic Equation -- 6.4.5 Choosing the Most Appropriate Model -- 6.4.6 Accessing Acoustic Propagation Models -- 6.5 Practical Acoustic Modeling Examples -- 6.5.1 Received Level Versus Range and Depth from a Tonal Source -- 6.5.2 Received Level Versus Range and Depth from a Broadband Source -- 6.5.3 Received Level as a Function of Geographical Position and Depth -- 6.5.4 Received Level as a Function of Geographical Position and Depth for a Directional Source -- 6.5.5 Modeling Limitations and Practicalities -- 6.6 Summary -- 6.7 Additional Resources -- References -- 7: Analysis of Soundscapes as an Ecological Tool -- 7.1 Introduction -- 7.2 Terrestrial Soundscapes -- 7.2.1 Biophony -- 7.2.2 Geophony -- 7.2.3 Anthropophony -- 7.2.4 Sound Propagation in Terrestrial Environments.
7.3 Aquatic Soundscapes -- 7.3.1 Biophony -- 7.3.2 Geophony -- 7.3.3 Anthropophony -- 7.3.4 Sound Propagation in Aquatic Environments -- 7.4 Soundscape Changes Over Space and Time -- 7.4.1 Spatial Patterns -- 7.4.2 Natural Cycles -- 7.4.3 Human Activities -- 7.4.3.1 Anthropophony -- 7.4.3.2 Land Use -- 7.4.3.3 Direct Takes -- 7.4.3.4 Climate Change -- 7.5 How to Analyze Soundscapes -- 7.5.1 Standard Soundscape Measurements -- 7.5.2 Identification of Sound Sources -- 7.5.3 Visual Displays of Soundscapes -- 7.5.3.1 Spectrograms -- 7.5.3.2 Power Spectral Density Percentile Plots -- 7.5.3.3 Soundscape Maps -- 7.5.4 Acoustic Indices -- 7.6 Applications of Soundscape Studies -- 7.6.1 Conservation of Natural Soundscapes -- 7.6.1.1 Management -- 7.6.1.2 Education -- 7.6.2 Monitoring the Health of Agroecosystems -- 7.6.3 Improving Captive Animal Welfare -- 7.7 Conclusion -- 7.8 Additional Resources -- 7.8.1 Sound Libraries -- 7.8.2 Ocean Acoustic Observatories -- 7.8.3 Software for Soundscape Analysis -- 7.8.4 Software for Sound Propagation Modeling -- 7.8.5 Software for Automatic Signal Detection -- References -- 8: Detection and Classification Methods for Animal Sounds -- 8.1 Introduction -- 8.2 Qualitative Naming and Classification of Animal Sounds -- 8.2.1 Onomatopoeic Names -- 8.2.2 Naming Sounds Based on Animal Behavior -- 8.2.3 Naming Sounds Based on Mechanism of Sound Production -- 8.2.4 Naming Sounds Based on Spectro-Temporal Features -- 8.2.5 Naming Sounds Based on Human Communication Patterns -- 8.3 Detection of Animal Sounds -- 8.3.1 Energy Threshold Detector -- 8.3.2 Spectrogram Cross-Correlation -- 8.3.3 Matched Filter -- 8.3.4 Spectral Entropy Detector -- 8.3.5 Teager-Kaiser Energy Operator -- 8.3.6 Evaluating the Performance of Automated Detectors -- 8.3.6.1 Confusion Matrices -- 8.3.6.2 Receiver Operating Characteristic (ROC) Curve.
8.3.6.3 Precision and Recall.
author_facet Erbe, Christine.
Thomas, Jeanette A.
author_variant c e ce
author2 Thomas, Jeanette A.
author2_variant j a t ja jat
author2_role TeilnehmendeR
author_sort Erbe, Christine.
title Exploring Animal Behavior Through Sound : Methods.
title_sub Methods.
title_full Exploring Animal Behavior Through Sound : Methods.
title_fullStr Exploring Animal Behavior Through Sound : Methods.
title_full_unstemmed Exploring Animal Behavior Through Sound : Methods.
title_auth Exploring Animal Behavior Through Sound : Methods.
title_new Exploring Animal Behavior Through Sound :
title_sort exploring animal behavior through sound : methods.
publisher Springer International Publishing AG,
publishDate 2022
physical 1 online resource (524 pages)
edition 1st ed.
contents Intro -- Preface -- Contents -- About the Editor -- 1: History of Sound Recording and Analysis Equipment -- 1.1 Introduction -- 1.2 Advances in Recorders -- 1.2.1 Analog Recorders -- 1.2.2 Digital Recorders -- 1.2.3 Recording to a Computer -- 1.2.4 Autonomous Programmable Recorders -- 1.2.5 Multi-Channel Recorders -- 1.3 Advances in Microphones -- 1.3.1 Microphones Used in Bioacoustics Research -- 1.3.2 Measurement Microphones -- 1.3.3 Accelerometers -- 1.3.4 Laser and Optical Microphones -- 1.3.5 Bat Detectors -- 1.4 Advances in Hydrophones -- 1.4.1 Single Hydrophones -- 1.4.2 Sonobuoys -- 1.4.3 Autonomous Underwater Acoustic Recorders -- 1.4.4 Towed Hydrophone Arrays -- 1.4.5 Seafloor Hydrophone Arrays -- 1.4.6 Small Arrays -- 1.5 Autonomous Mobile Systems -- 1.5.1 Aerial Mobile Systems -- 1.5.2 Underwater Mobile Systems -- 1.5.3 Animal Acoustic Tags -- 1.6 Advances in Sound Analysis Hard- and Software -- 1.7 Summary -- References -- 2: Choosing Equipment for Animal Bioacoustic Research -- 2.1 Introduction -- 2.2 Basic Concepts of Sound Recording -- 2.2.1 Sampling Rate and Bandwidth -- 2.2.2 Aliasing -- 2.2.3 Amplitude Sensitivity -- 2.2.4 Bit-Resolution and Dynamic Range -- 2.2.5 Self-Noise -- 2.3 Instrumentation of Signal Chain Components -- 2.3.1 Sensors -- 2.3.1.1 Microphones -- Ultrasonic and Infrasonic Microphones -- Measurement and Specialty Microphones -- Microphone Directionality -- Monophonic and Stereophonic Recording -- Microphone Arrays -- Do-it-Yourself (DIY) Microphones -- Deployment Considerations -- 2.3.1.2 Hydrophones -- Hydrophone Directionality -- Sonobuoys -- Stationary Hydrophone Arrays -- Towed Hydrophone Arrays -- Deployment Considerations -- 2.3.2 Filters -- 2.3.2.1 Low- and High-Pass Filters -- 2.3.2.2 Anti-Aliasing Filters -- 2.3.3 Amplifiers -- 2.3.4 Analog-to-Digital Converters and Digital Recorders.
2.3.4.1 Recording Ultrasounds and Infrasounds -- 2.3.4.2 Special Features of Digital Recorders -- 2.3.5 Equipment for Monitoring Bats -- 2.3.6 Projectors -- 2.4 Autonomous Recorders -- 2.4.1 Terrestrial Recorders -- 2.4.2 Underwater Recorders -- 2.5 Recording Directly to a Computer -- 2.6 Calibration -- 2.6.1 Microphone -- 2.6.2 Hydrophone -- 2.6.3 AD-Converter -- 2.6.4 Autonomous Recorder -- 2.6.5 Measuring Self-Noise -- 2.7 Other Gear -- 2.7.1 Sound Pressure Level Meter -- 2.7.2 Vibration Measurement -- 2.7.2.1 In Terrestrial Studies -- Sensor Types Based on the Quantity Measured -- 2.7.2.2 In Underwater Studies -- 2.7.3 Smartphone Applications -- 2.8 Summary -- 2.9 Additional Resources -- References -- 3: Collecting, Documenting, and Archiving Bioacoustical Data and Metadata -- 3.1 Introduction -- 3.2 Ethical Research -- 3.3 Good Practices in Bioacoustical Studies -- 3.3.1 Recording Sounds -- 3.3.2 Environmental Conditions -- 3.3.3 Animal Considerations -- 3.3.4 Documentation and Data Sheets -- 3.3.5 Trouble-shooting Equipment Problems -- 3.4 Playback Methods and Controls -- 3.5 Considerations for Terrestrial Field Studies -- 3.6 Considerations for Aquatic Field Studies -- 3.7 Considerations for Studies on Captive Animals -- 3.8 Digital File Format -- 3.9 Data Storage -- 3.10 Archiving Recordings -- 3.11 Repositories of Bioacoustical Data -- 3.12 Summary -- 3.13 Additional Resources -- References -- 4: Introduction to Acoustic Terminology and Signal Processing -- 4.1 What Is Sound? -- 4.2 Terms and Definitions -- 4.2.1 Units -- 4.2.2 Sound -- 4.2.3 Frequency -- 4.2.4 Pressure -- 4.2.5 Sound Exposure -- 4.2.6 When to Use SPL and SEL? -- 4.2.7 Acoustic Energy, Intensity, and Power -- 4.2.8 Particle Velocity -- 4.2.9 Speed of Sound -- 4.2.10 Acoustic Impedance -- 4.2.11 The Decibel -- 4.2.11.1 Conversion from Decibel to Field or Power Quantities.
4.2.11.2 Differences between Levels of like Quantities -- 4.2.11.3 Amplification of Signals -- 4.2.11.4 Superposition of Field and Power Quantities -- 4.2.11.5 Levels in Air Versus Water -- 4.2.12 Source Level -- 4.2.13 What Field? Free-Field, Far-Field, Near-Field -- 4.2.14 Frequency Weighting -- 4.2.14.1 A, C, and Z Frequency Weightings -- 4.2.14.2 Frequency Weightings for Non-human Animals -- 4.2.14.3 M-Weighting -- 4.2.15 Frequency Bands -- 4.2.16 Power Spectral Density -- 4.2.17 Band Levels -- 4.3 Acoustic Signal Processing -- 4.3.1 Displays of Sounds -- 4.3.2 Fourier Transform -- 4.3.3 Recording and FFT Settings -- 4.3.3.1 Sampling Rate -- 4.3.3.2 Aliasing -- 4.3.3.3 Bit Depth -- 4.3.3.4 Audio Coding -- 4.3.3.5 FFT Window Size (NFFT) -- 4.3.3.6 FFT Window Function -- 4.3.4 Power Spectral Density Percentiles and Probability Density -- 4.4 Localization and Tracking -- 4.4.1 Time Difference of Arrival -- 4.4.1.1 Generalized Cross-Correlation -- 4.4.1.2 TDOA Hyperbolas -- 4.4.1.3 TDOA Localization in 2 Dimensions -- 4.4.1.4 TDOA Localization in 3 Dimensions -- 4.4.2 Beamforming -- 4.4.3 Parametric Array Processing -- 4.4.4 Examples of Sound Localization in Air and Water -- 4.4.5 Passive Acoustic Tracking -- 4.5 Symbols and Abbreviations (Table 4.10) -- 4.6 Summary -- References -- 5: Source-Path-Receiver Model for Airborne Sounds -- 5.1 Introduction -- 5.2 Sound Propagation in Terrestrial Environments -- 5.2.1 Ray Traces -- 5.2.2 Geometrical Sound Spreading -- 5.2.3 Sound Absorption in Air -- 5.2.4 Reflection, Scattering, and Diffraction -- 5.2.5 Ground Effect -- 5.2.6 Attenuation by Vegetative Cover -- 5.2.7 Speed of Sound in Still Air -- 5.2.8 Refraction by Air Temperature Gradients in Still Air -- 5.2.9 Refraction by Gradients of Wind Velocity -- 5.2.10 Attenuation from Air Turbulence.
5.3 The Source-Path-Receiver Model for Animal Acoustic Communication -- 5.3.1 The Sender -- 5.3.2 The Path and the Acoustic Environment -- 5.3.3 The Receiver -- 5.4 Summary -- 5.5 Additional Resources -- References -- 6: Introduction to Sound Propagation Under Water -- 6.1 Introduction -- 6.2 The Sonar Equation -- 6.2.1 Propagation Loss Form -- 6.2.2 Signal-to-Noise Ratio Form -- 6.2.3 Forms to Assess Communication Masking -- 6.2.4 Form for Biomass Surveying -- 6.3 The Layered Ocean -- 6.3.1 Temperature and Salinity Profiles -- 6.3.2 Sound Speed Profiles -- 6.4 Propagation Loss -- 6.4.1 Geometric Spreading Loss -- 6.4.2 Absorption Loss -- 6.4.3 Additional Losses -- 6.4.3.1 The Air-Water Interface -- Reflection and Transmission Coefficients -- Lloydś Mirror -- Scattering at the Sea Surface -- 6.4.3.2 The Seafloor Interface -- 6.4.3.3 Scattering Within the Water Column -- 6.4.4 Numerical Propagation Models -- 6.4.4.1 The Wave Equation and Solution Approaches -- 6.4.4.2 Ray and Beam Tracing -- 6.4.4.3 Normal Modes -- 6.4.4.4 Wavenumber Integration -- 6.4.4.5 Parabolic Equation -- 6.4.5 Choosing the Most Appropriate Model -- 6.4.6 Accessing Acoustic Propagation Models -- 6.5 Practical Acoustic Modeling Examples -- 6.5.1 Received Level Versus Range and Depth from a Tonal Source -- 6.5.2 Received Level Versus Range and Depth from a Broadband Source -- 6.5.3 Received Level as a Function of Geographical Position and Depth -- 6.5.4 Received Level as a Function of Geographical Position and Depth for a Directional Source -- 6.5.5 Modeling Limitations and Practicalities -- 6.6 Summary -- 6.7 Additional Resources -- References -- 7: Analysis of Soundscapes as an Ecological Tool -- 7.1 Introduction -- 7.2 Terrestrial Soundscapes -- 7.2.1 Biophony -- 7.2.2 Geophony -- 7.2.3 Anthropophony -- 7.2.4 Sound Propagation in Terrestrial Environments.
7.3 Aquatic Soundscapes -- 7.3.1 Biophony -- 7.3.2 Geophony -- 7.3.3 Anthropophony -- 7.3.4 Sound Propagation in Aquatic Environments -- 7.4 Soundscape Changes Over Space and Time -- 7.4.1 Spatial Patterns -- 7.4.2 Natural Cycles -- 7.4.3 Human Activities -- 7.4.3.1 Anthropophony -- 7.4.3.2 Land Use -- 7.4.3.3 Direct Takes -- 7.4.3.4 Climate Change -- 7.5 How to Analyze Soundscapes -- 7.5.1 Standard Soundscape Measurements -- 7.5.2 Identification of Sound Sources -- 7.5.3 Visual Displays of Soundscapes -- 7.5.3.1 Spectrograms -- 7.5.3.2 Power Spectral Density Percentile Plots -- 7.5.3.3 Soundscape Maps -- 7.5.4 Acoustic Indices -- 7.6 Applications of Soundscape Studies -- 7.6.1 Conservation of Natural Soundscapes -- 7.6.1.1 Management -- 7.6.1.2 Education -- 7.6.2 Monitoring the Health of Agroecosystems -- 7.6.3 Improving Captive Animal Welfare -- 7.7 Conclusion -- 7.8 Additional Resources -- 7.8.1 Sound Libraries -- 7.8.2 Ocean Acoustic Observatories -- 7.8.3 Software for Soundscape Analysis -- 7.8.4 Software for Sound Propagation Modeling -- 7.8.5 Software for Automatic Signal Detection -- References -- 8: Detection and Classification Methods for Animal Sounds -- 8.1 Introduction -- 8.2 Qualitative Naming and Classification of Animal Sounds -- 8.2.1 Onomatopoeic Names -- 8.2.2 Naming Sounds Based on Animal Behavior -- 8.2.3 Naming Sounds Based on Mechanism of Sound Production -- 8.2.4 Naming Sounds Based on Spectro-Temporal Features -- 8.2.5 Naming Sounds Based on Human Communication Patterns -- 8.3 Detection of Animal Sounds -- 8.3.1 Energy Threshold Detector -- 8.3.2 Spectrogram Cross-Correlation -- 8.3.3 Matched Filter -- 8.3.4 Spectral Entropy Detector -- 8.3.5 Teager-Kaiser Energy Operator -- 8.3.6 Evaluating the Performance of Automated Detectors -- 8.3.6.1 Confusion Matrices -- 8.3.6.2 Receiver Operating Characteristic (ROC) Curve.
8.3.6.3 Precision and Recall.
isbn 9783030975401
9783030975388
callnumber-first Q - Science
callnumber-subject QL - Zoology
callnumber-label QL1-991
callnumber-sort QL 11 3991
genre Electronic books.
genre_facet Electronic books.
url https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=7105589
illustrated Not Illustrated
oclc_num 1350690443
work_keys_str_mv AT erbechristine exploringanimalbehaviorthroughsoundmethods
AT thomasjeanettea exploringanimalbehaviorthroughsoundmethods
status_str n
ids_txt_mv (MiAaPQ)5007105589
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(OCoLC)1350690443
carrierType_str_mv cr
is_hierarchy_title Exploring Animal Behavior Through Sound : Methods.
author2_original_writing_str_mv noLinkedField
marc_error Info : MARC8 translation shorter than ISO-8859-1, choosing MARC8. --- [ 856 : z ]
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fullrecord <?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>10928nam a22004453i 4500</leader><controlfield tag="001">5007105589</controlfield><controlfield tag="003">MiAaPQ</controlfield><controlfield tag="005">20240229073847.0</controlfield><controlfield tag="006">m o d | </controlfield><controlfield tag="007">cr cnu||||||||</controlfield><controlfield tag="008">240229s2022 xx o ||||0 eng d</controlfield><datafield tag="020" ind1=" " ind2=" "><subfield code="a">9783030975401</subfield><subfield code="q">(electronic bk.)</subfield></datafield><datafield tag="020" ind1=" " ind2=" "><subfield code="z">9783030975388</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(MiAaPQ)5007105589</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(Au-PeEL)EBL7105589</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)1350690443</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">MiAaPQ</subfield><subfield code="b">eng</subfield><subfield code="e">rda</subfield><subfield code="e">pn</subfield><subfield code="c">MiAaPQ</subfield><subfield code="d">MiAaPQ</subfield></datafield><datafield tag="050" ind1=" " ind2="4"><subfield code="a">QL1-991</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Erbe, Christine.</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">Exploring Animal Behavior Through Sound :</subfield><subfield code="b">Methods.</subfield></datafield><datafield tag="250" ind1=" " ind2=" "><subfield code="a">1st ed.</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="a">Cham :</subfield><subfield code="b">Springer International Publishing AG,</subfield><subfield code="c">2022.</subfield></datafield><datafield tag="264" ind1=" " ind2="4"><subfield code="c">©2022.</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 online resource (524 pages)</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">computer</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">online resource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">Intro -- Preface -- Contents -- About the Editor -- 1: History of Sound Recording and Analysis Equipment -- 1.1 Introduction -- 1.2 Advances in Recorders -- 1.2.1 Analog Recorders -- 1.2.2 Digital Recorders -- 1.2.3 Recording to a Computer -- 1.2.4 Autonomous Programmable Recorders -- 1.2.5 Multi-Channel Recorders -- 1.3 Advances in Microphones -- 1.3.1 Microphones Used in Bioacoustics Research -- 1.3.2 Measurement Microphones -- 1.3.3 Accelerometers -- 1.3.4 Laser and Optical Microphones -- 1.3.5 Bat Detectors -- 1.4 Advances in Hydrophones -- 1.4.1 Single Hydrophones -- 1.4.2 Sonobuoys -- 1.4.3 Autonomous Underwater Acoustic Recorders -- 1.4.4 Towed Hydrophone Arrays -- 1.4.5 Seafloor Hydrophone Arrays -- 1.4.6 Small Arrays -- 1.5 Autonomous Mobile Systems -- 1.5.1 Aerial Mobile Systems -- 1.5.2 Underwater Mobile Systems -- 1.5.3 Animal Acoustic Tags -- 1.6 Advances in Sound Analysis Hard- and Software -- 1.7 Summary -- References -- 2: Choosing Equipment for Animal Bioacoustic Research -- 2.1 Introduction -- 2.2 Basic Concepts of Sound Recording -- 2.2.1 Sampling Rate and Bandwidth -- 2.2.2 Aliasing -- 2.2.3 Amplitude Sensitivity -- 2.2.4 Bit-Resolution and Dynamic Range -- 2.2.5 Self-Noise -- 2.3 Instrumentation of Signal Chain Components -- 2.3.1 Sensors -- 2.3.1.1 Microphones -- Ultrasonic and Infrasonic Microphones -- Measurement and Specialty Microphones -- Microphone Directionality -- Monophonic and Stereophonic Recording -- Microphone Arrays -- Do-it-Yourself (DIY) Microphones -- Deployment Considerations -- 2.3.1.2 Hydrophones -- Hydrophone Directionality -- Sonobuoys -- Stationary Hydrophone Arrays -- Towed Hydrophone Arrays -- Deployment Considerations -- 2.3.2 Filters -- 2.3.2.1 Low- and High-Pass Filters -- 2.3.2.2 Anti-Aliasing Filters -- 2.3.3 Amplifiers -- 2.3.4 Analog-to-Digital Converters and Digital Recorders.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">2.3.4.1 Recording Ultrasounds and Infrasounds -- 2.3.4.2 Special Features of Digital Recorders -- 2.3.5 Equipment for Monitoring Bats -- 2.3.6 Projectors -- 2.4 Autonomous Recorders -- 2.4.1 Terrestrial Recorders -- 2.4.2 Underwater Recorders -- 2.5 Recording Directly to a Computer -- 2.6 Calibration -- 2.6.1 Microphone -- 2.6.2 Hydrophone -- 2.6.3 AD-Converter -- 2.6.4 Autonomous Recorder -- 2.6.5 Measuring Self-Noise -- 2.7 Other Gear -- 2.7.1 Sound Pressure Level Meter -- 2.7.2 Vibration Measurement -- 2.7.2.1 In Terrestrial Studies -- Sensor Types Based on the Quantity Measured -- 2.7.2.2 In Underwater Studies -- 2.7.3 Smartphone Applications -- 2.8 Summary -- 2.9 Additional Resources -- References -- 3: Collecting, Documenting, and Archiving Bioacoustical Data and Metadata -- 3.1 Introduction -- 3.2 Ethical Research -- 3.3 Good Practices in Bioacoustical Studies -- 3.3.1 Recording Sounds -- 3.3.2 Environmental Conditions -- 3.3.3 Animal Considerations -- 3.3.4 Documentation and Data Sheets -- 3.3.5 Trouble-shooting Equipment Problems -- 3.4 Playback Methods and Controls -- 3.5 Considerations for Terrestrial Field Studies -- 3.6 Considerations for Aquatic Field Studies -- 3.7 Considerations for Studies on Captive Animals -- 3.8 Digital File Format -- 3.9 Data Storage -- 3.10 Archiving Recordings -- 3.11 Repositories of Bioacoustical Data -- 3.12 Summary -- 3.13 Additional Resources -- References -- 4: Introduction to Acoustic Terminology and Signal Processing -- 4.1 What Is Sound? -- 4.2 Terms and Definitions -- 4.2.1 Units -- 4.2.2 Sound -- 4.2.3 Frequency -- 4.2.4 Pressure -- 4.2.5 Sound Exposure -- 4.2.6 When to Use SPL and SEL? -- 4.2.7 Acoustic Energy, Intensity, and Power -- 4.2.8 Particle Velocity -- 4.2.9 Speed of Sound -- 4.2.10 Acoustic Impedance -- 4.2.11 The Decibel -- 4.2.11.1 Conversion from Decibel to Field or Power Quantities.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">4.2.11.2 Differences between Levels of like Quantities -- 4.2.11.3 Amplification of Signals -- 4.2.11.4 Superposition of Field and Power Quantities -- 4.2.11.5 Levels in Air Versus Water -- 4.2.12 Source Level -- 4.2.13 What Field? Free-Field, Far-Field, Near-Field -- 4.2.14 Frequency Weighting -- 4.2.14.1 A, C, and Z Frequency Weightings -- 4.2.14.2 Frequency Weightings for Non-human Animals -- 4.2.14.3 M-Weighting -- 4.2.15 Frequency Bands -- 4.2.16 Power Spectral Density -- 4.2.17 Band Levels -- 4.3 Acoustic Signal Processing -- 4.3.1 Displays of Sounds -- 4.3.2 Fourier Transform -- 4.3.3 Recording and FFT Settings -- 4.3.3.1 Sampling Rate -- 4.3.3.2 Aliasing -- 4.3.3.3 Bit Depth -- 4.3.3.4 Audio Coding -- 4.3.3.5 FFT Window Size (NFFT) -- 4.3.3.6 FFT Window Function -- 4.3.4 Power Spectral Density Percentiles and Probability Density -- 4.4 Localization and Tracking -- 4.4.1 Time Difference of Arrival -- 4.4.1.1 Generalized Cross-Correlation -- 4.4.1.2 TDOA Hyperbolas -- 4.4.1.3 TDOA Localization in 2 Dimensions -- 4.4.1.4 TDOA Localization in 3 Dimensions -- 4.4.2 Beamforming -- 4.4.3 Parametric Array Processing -- 4.4.4 Examples of Sound Localization in Air and Water -- 4.4.5 Passive Acoustic Tracking -- 4.5 Symbols and Abbreviations (Table 4.10) -- 4.6 Summary -- References -- 5: Source-Path-Receiver Model for Airborne Sounds -- 5.1 Introduction -- 5.2 Sound Propagation in Terrestrial Environments -- 5.2.1 Ray Traces -- 5.2.2 Geometrical Sound Spreading -- 5.2.3 Sound Absorption in Air -- 5.2.4 Reflection, Scattering, and Diffraction -- 5.2.5 Ground Effect -- 5.2.6 Attenuation by Vegetative Cover -- 5.2.7 Speed of Sound in Still Air -- 5.2.8 Refraction by Air Temperature Gradients in Still Air -- 5.2.9 Refraction by Gradients of Wind Velocity -- 5.2.10 Attenuation from Air Turbulence.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">5.3 The Source-Path-Receiver Model for Animal Acoustic Communication -- 5.3.1 The Sender -- 5.3.2 The Path and the Acoustic Environment -- 5.3.3 The Receiver -- 5.4 Summary -- 5.5 Additional Resources -- References -- 6: Introduction to Sound Propagation Under Water -- 6.1 Introduction -- 6.2 The Sonar Equation -- 6.2.1 Propagation Loss Form -- 6.2.2 Signal-to-Noise Ratio Form -- 6.2.3 Forms to Assess Communication Masking -- 6.2.4 Form for Biomass Surveying -- 6.3 The Layered Ocean -- 6.3.1 Temperature and Salinity Profiles -- 6.3.2 Sound Speed Profiles -- 6.4 Propagation Loss -- 6.4.1 Geometric Spreading Loss -- 6.4.2 Absorption Loss -- 6.4.3 Additional Losses -- 6.4.3.1 The Air-Water Interface -- Reflection and Transmission Coefficients -- Lloydś Mirror -- Scattering at the Sea Surface -- 6.4.3.2 The Seafloor Interface -- 6.4.3.3 Scattering Within the Water Column -- 6.4.4 Numerical Propagation Models -- 6.4.4.1 The Wave Equation and Solution Approaches -- 6.4.4.2 Ray and Beam Tracing -- 6.4.4.3 Normal Modes -- 6.4.4.4 Wavenumber Integration -- 6.4.4.5 Parabolic Equation -- 6.4.5 Choosing the Most Appropriate Model -- 6.4.6 Accessing Acoustic Propagation Models -- 6.5 Practical Acoustic Modeling Examples -- 6.5.1 Received Level Versus Range and Depth from a Tonal Source -- 6.5.2 Received Level Versus Range and Depth from a Broadband Source -- 6.5.3 Received Level as a Function of Geographical Position and Depth -- 6.5.4 Received Level as a Function of Geographical Position and Depth for a Directional Source -- 6.5.5 Modeling Limitations and Practicalities -- 6.6 Summary -- 6.7 Additional Resources -- References -- 7: Analysis of Soundscapes as an Ecological Tool -- 7.1 Introduction -- 7.2 Terrestrial Soundscapes -- 7.2.1 Biophony -- 7.2.2 Geophony -- 7.2.3 Anthropophony -- 7.2.4 Sound Propagation in Terrestrial Environments.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">7.3 Aquatic Soundscapes -- 7.3.1 Biophony -- 7.3.2 Geophony -- 7.3.3 Anthropophony -- 7.3.4 Sound Propagation in Aquatic Environments -- 7.4 Soundscape Changes Over Space and Time -- 7.4.1 Spatial Patterns -- 7.4.2 Natural Cycles -- 7.4.3 Human Activities -- 7.4.3.1 Anthropophony -- 7.4.3.2 Land Use -- 7.4.3.3 Direct Takes -- 7.4.3.4 Climate Change -- 7.5 How to Analyze Soundscapes -- 7.5.1 Standard Soundscape Measurements -- 7.5.2 Identification of Sound Sources -- 7.5.3 Visual Displays of Soundscapes -- 7.5.3.1 Spectrograms -- 7.5.3.2 Power Spectral Density Percentile Plots -- 7.5.3.3 Soundscape Maps -- 7.5.4 Acoustic Indices -- 7.6 Applications of Soundscape Studies -- 7.6.1 Conservation of Natural Soundscapes -- 7.6.1.1 Management -- 7.6.1.2 Education -- 7.6.2 Monitoring the Health of Agroecosystems -- 7.6.3 Improving Captive Animal Welfare -- 7.7 Conclusion -- 7.8 Additional Resources -- 7.8.1 Sound Libraries -- 7.8.2 Ocean Acoustic Observatories -- 7.8.3 Software for Soundscape Analysis -- 7.8.4 Software for Sound Propagation Modeling -- 7.8.5 Software for Automatic Signal Detection -- References -- 8: Detection and Classification Methods for Animal Sounds -- 8.1 Introduction -- 8.2 Qualitative Naming and Classification of Animal Sounds -- 8.2.1 Onomatopoeic Names -- 8.2.2 Naming Sounds Based on Animal Behavior -- 8.2.3 Naming Sounds Based on Mechanism of Sound Production -- 8.2.4 Naming Sounds Based on Spectro-Temporal Features -- 8.2.5 Naming Sounds Based on Human Communication Patterns -- 8.3 Detection of Animal Sounds -- 8.3.1 Energy Threshold Detector -- 8.3.2 Spectrogram Cross-Correlation -- 8.3.3 Matched Filter -- 8.3.4 Spectral Entropy Detector -- 8.3.5 Teager-Kaiser Energy Operator -- 8.3.6 Evaluating the Performance of Automated Detectors -- 8.3.6.1 Confusion Matrices -- 8.3.6.2 Receiver Operating Characteristic (ROC) Curve.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">8.3.6.3 Precision and Recall.</subfield></datafield><datafield tag="588" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources.</subfield></datafield><datafield tag="590" ind1=" " ind2=" "><subfield code="a">Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. </subfield></datafield><datafield tag="655" ind1=" " ind2="4"><subfield code="a">Electronic books.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Thomas, Jeanette A.</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Print version:</subfield><subfield code="a">Erbe, Christine</subfield><subfield code="t">Exploring Animal Behavior Through Sound: Volume 1</subfield><subfield code="d">Cham : Springer International Publishing AG,c2022</subfield><subfield code="z">9783030975388</subfield></datafield><datafield tag="797" ind1="2" ind2=" "><subfield code="a">ProQuest (Firm)</subfield></datafield><datafield tag="856" ind1="4" ind2="0"><subfield code="u">https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=7105589</subfield><subfield code="z">Click to View</subfield></datafield></record></collection>

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