Model-based phase velocity and attenuation estimation in wideband ultrasonic measurement systems

Model-based phase velocity and attenuation estimation in wideband ultrasonic measurement systems

A parametric method to estimate frequency-dependent phase velocity and attenuation is presented in this paper. The parametric method is compared with standard nonparametric Fourier analysis techniques using numerical simulations as well as real pulse-echo experiments. Approximate standard deviations...

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Veröffentlicht in:IEEE transactions on ultrasonics, ferroelectrics, and frequency control ferroelectrics, and frequency control, 2007-01, Vol.54 (1), p.138-146
Hauptverfasser: Martinsson, J., Carlson, J.E., Niemi, J.
Format: Artikel
Sprache:eng
Schlagworte:
Acoustical measurements and instrumentation
Acoustics
Algorithms
Analysis of variance
Approximation
Attenuation
Attenuation measurement
Computer Simulation
Exact sciences and technology
Fourier analysis
Frequency estimation
Fundamental areas of phenomenology (including applications)
General equipment and techniques
Image Enhancement - methods
Image Interpretation, Computer-Assisted - methods
Imaging, Three-Dimensional - methods
Industrial Electronics
Industriell elektronik
Information Storage and Retrieval - methods
Instruments, apparatus, components and techniques common to several branches of physics and astronomy
Mathematical models
Models, Biological
Numerical simulation
Parametric statistics
Phase estimation
Phase measurement
Phase velocity
Physics
Reproducibility of Results
Scattering, Radiation
Sensitivity and Specificity
Signal Processing
Signalbehandling
Standard deviation
Transducers
Ultra wideband technology
Ultrasonic variables measurement
Ultrasonics, quantum acoustics, and physical effects of sound
Ultrasonography - methods
Velocity measurement
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Beschreibung
Zusammenfassung:A parametric method to estimate frequency-dependent phase velocity and attenuation is presented in this paper. The parametric method is compared with standard nonparametric Fourier analysis techniques using numerical simulations as well as real pulse-echo experiments. Approximate standard deviations are derived for both methods and validated with numerical simulations. Compared to standard Fourier analysis, the parametric model gives considerably lower variance when estimating attenuation and phase velocity. In contrast to nonparametric techniques, the proposed estimator avoids the phase unwrapping problem because analytical expressions for the continuous phase velocity and attenuation can be derived
ISSN:0885-3010
1525-8955
1525-8955
DOI:10.1109/TUFFC.2007.219