Handbook of signal processing in acoustics
著者
書誌事項
Handbook of signal processing in acoustics
Springer, c2008
- v. 1
- v. 2
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内容説明・目次
内容説明
The Handbook of Signal Processing in Acoustics brings together a wide range of perspectives from over 100 authors to reveal the interdisciplinary nature of the subject. It brings the key issues from both acoustics and signal processing into perspective and is a unique resource for experts and practitioners alike to find new ideas and techniques within the diversity of signal processing in acoustics.
目次
1. Acoustical oceanography
Models for Propagation
Codes
Transducer Arrays: structure, data acquisition, signal generation, calibration
Sonar
MFP
Tomography
Other Inverse Techniques
Signal and Noise Characteristics
2. Active Noise Control
Principles of adaptive techniques
Plant modeling
Sound/vibration field sensing
Actuator characteristics and requirements
Performance limitations
Multi-channel systems
Performance and complexity
3. Animal bioacoustics
Recording and monitoring systems
Models of echolocation
Hearing performance and modelling
Characteristics of calls
Stimuli generation
Locating and tracking
Archives and Databases of signals
4. Architectural acoustics
Room models
Measurement of transmissions, absorption, reverberation, etc.
Sound fields (definitions, criteria, measurement, typical values)
MLS and other coded signals
Auralization: Modelling techniques, listening modes, processing requirements, existing systems, performace
Artificial reverberation
Sound reinforcement
Acoustic privacy
5. Audio engineering
Transducer modeling
Loudspeaker performance characteristics
Audio recording and playback formats
Audio-visual interaction
ADC, DAC, and Codec technologies
Multi-channel sound and Virtual audio
Restoration
Digital audio editing
Effects generation
6. Auditory System, Hearing
Modeling of hearing
Thresholds and Masking
Frequency and level discrimination
Binaural hearing and spatialization
HRTF
HATS and other physical models
Hearing aids
Auditory illusions
7. Education in acoustics
8. Electroacoustics
Microphone types and their characteristics
Vibration sensors and their characteristics
Acoustic actuators and their characteristics
Smart sensors and actuators
9. Engineering acoustics
10. Infrasonics
Background noise and source signals
Sensors and their characteristics
Propagation models
Event detection
Data archiving
Source identification
11. Musical Acoustics
Computer music synthesis and composition
Computer music recognition and analysis
Singing voice analysis, synthesis, and processing
Instrument measurement, modeling and synthesis
Coding and compression of music
12. Noise
Noise source modeling
Acoustic holography
Atmospheric sound propagation
Source localization
Noise evaluation and Annoyance thresholds
13. Non-linear acoustics
Propagation equations and codes
Example non-linear systems
Parametric array
Measurement methods
Detection of non-linearities
14. Psychoacoustics
Perceptual models
Cochlear implants
Auditory alarms
15. Seismology
Seismic Coda
Acoustic Profiling
Propagation modes and properties for modeling
Seismo-acoustic coupling
16. Speech
Characteristics of speech as signals
Synthesis
Recognition
Intelligibility and quality metrics
Corpus for tests
Coding and compression
Display and analysis
17. Strutural acoustics and vibration
BEM, FEM, EA, etc.
Actuator design and deployment
Propagation and radiation
Machine diagnostics and prognosis
Modeling, measuring and analyzing shock
Materials testing
18. Telecomm
POTS
Wideband
Echo supression
Hearing aids
Handset, Headset, and Wireless standards
Systems for handicapped users
19. Ultrasonics
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