In this paper we present a model-based group velocity estimator, that can be used to measure speed of sound in ultrasonic pulse-echo systems as a function of ultrasound frequency. The estimation of group velocities involves numerical differentiation of the phase difference. In the presence of noise, this becomes numerically unstable. The model-based approach presented herein, shows better tolerance to experimental noise. The performance of the estimator is evaluated with simulations as function of pulse bandwidth and SNR. Finally, the estimator applied to real data and compared with other methods for measuring speed of sound in Ethane and Oxygen.<p>Godkänd; 2003; 20061005 (ysko)</p
The objective of the present study is to develop a high-time resolution ultrasonic velocity profiler...
This paper demonstrates the robustness of group delay based features to additive noise. First, we an...
International audienceAs a part of complex works aiming at the evaluation of the pump’s dynamic tran...
In this paper we present a model-based group velocity estimator, that can be used to measure speed o...
In ultrasonic characterization of liquids, gases, and solids, accurate estimation of frequency depen...
A method of signal waveform estimation from an ensemble of jittered noisy measurements is presented....
This paper concerns speed of sound measurements performed in three different gas mixtures at constan...
We use discrete kinetic models to study the dispersion relations of the one-dimensional plane-ultras...
International audienceIt is well known that classical time delay estimation gives an inexact estimat...
This work is concerned with measuring the velocity of liquids loaded with particles using pulsed ult...
International audienceThis paper considers the problem of estimating time delay and Doppler shift ba...
We study the robustness of a group-delay-based method for determining the instants of significant ex...
In this paper a model for the measuring process of sonic anemometers (ultrasound pulse based) is pre...
A parametric method to estimate frequencydependent phase velocity and attenuation is presented in th...
This thesis describes the development and performance of a level measurement system based on estimat...
The objective of the present study is to develop a high-time resolution ultrasonic velocity profiler...
This paper demonstrates the robustness of group delay based features to additive noise. First, we an...
International audienceAs a part of complex works aiming at the evaluation of the pump’s dynamic tran...
In this paper we present a model-based group velocity estimator, that can be used to measure speed o...
In ultrasonic characterization of liquids, gases, and solids, accurate estimation of frequency depen...
A method of signal waveform estimation from an ensemble of jittered noisy measurements is presented....
This paper concerns speed of sound measurements performed in three different gas mixtures at constan...
We use discrete kinetic models to study the dispersion relations of the one-dimensional plane-ultras...
International audienceIt is well known that classical time delay estimation gives an inexact estimat...
This work is concerned with measuring the velocity of liquids loaded with particles using pulsed ult...
International audienceThis paper considers the problem of estimating time delay and Doppler shift ba...
We study the robustness of a group-delay-based method for determining the instants of significant ex...
In this paper a model for the measuring process of sonic anemometers (ultrasound pulse based) is pre...
A parametric method to estimate frequencydependent phase velocity and attenuation is presented in th...
This thesis describes the development and performance of a level measurement system based on estimat...
The objective of the present study is to develop a high-time resolution ultrasonic velocity profiler...
This paper demonstrates the robustness of group delay based features to additive noise. First, we an...
International audienceAs a part of complex works aiming at the evaluation of the pump’s dynamic tran...