Add to ORKGThe accuracy of the spectral difference method for measuring ultrasonic attenuation has been investigated using tissue-mimicking phantoms. Attenuation coefficients of the phantom materials were measured using a narrow-band substitution technique and compared with the results of the spectral difference method. Agreement within 210 percent was typical for measurements in homogeneous materials. The best agreement between the spectral difference and substitution techniques was obtained when effects due to transducer beam diffraction were taken into account in the analysis. This was found for two types of homogeneous tissue-mimicking materials, both having speed of sound and attenuation properties similar to human liver but each with different b...
The attenuating properties of biological tissue are of great importance in ultrasonic medical imagin...
Accurate characterization of tissue pathologies using ultrasonic attenuation is strongly dependent o...
The attenuating properties of biological tissue are of great importance in ultra-sonic medical imagi...
The ultrasonic attenuation coefficient (ACE) can be used to classify tissue state. Pulse-echo spectr...
In this study, an algorithm previously developed for estimating the total ultrasonic attenuation alo...
The pathological states of biological tissue are often related in attenuation changes of itself. Thu...
Various means of characterizing ultrasonic attenuation in tissue are reviewed. A simple method for e...
New approaches in the field of ultrasound utilize the frequency content of the backscattered signal,...
New approaches in the field of ultrasound utilize the frequency content of the backscattered signal,...
Accurate estimation of the local acoustic attenuation based on the backscatter signal has several ap...
Abstract: Characterizing tissue by measuring its physical properties has potential for improving the...
The pathological states of biological tissue are often resulted in attenuation changes. Thus, inform...
The pathological states of biological tissue are often resulted in attenuation changes. Thus, inform...
Estimation of the attenuation is important in medical ultrasound not only for correct time-gain comp...
The attenuation coefficient (AC) has demonstrated the ability to classify tissue state. Linear acous...
The attenuating properties of biological tissue are of great importance in ultrasonic medical imagin...
Accurate characterization of tissue pathologies using ultrasonic attenuation is strongly dependent o...
The attenuating properties of biological tissue are of great importance in ultra-sonic medical imagi...
The ultrasonic attenuation coefficient (ACE) can be used to classify tissue state. Pulse-echo spectr...
In this study, an algorithm previously developed for estimating the total ultrasonic attenuation alo...
The pathological states of biological tissue are often related in attenuation changes of itself. Thu...
Various means of characterizing ultrasonic attenuation in tissue are reviewed. A simple method for e...
New approaches in the field of ultrasound utilize the frequency content of the backscattered signal,...
New approaches in the field of ultrasound utilize the frequency content of the backscattered signal,...
Accurate estimation of the local acoustic attenuation based on the backscatter signal has several ap...
Abstract: Characterizing tissue by measuring its physical properties has potential for improving the...
The pathological states of biological tissue are often resulted in attenuation changes. Thus, inform...
The pathological states of biological tissue are often resulted in attenuation changes. Thus, inform...
Estimation of the attenuation is important in medical ultrasound not only for correct time-gain comp...
The attenuation coefficient (AC) has demonstrated the ability to classify tissue state. Linear acous...
The attenuating properties of biological tissue are of great importance in ultrasonic medical imagin...
Accurate characterization of tissue pathologies using ultrasonic attenuation is strongly dependent o...
The attenuating properties of biological tissue are of great importance in ultra-sonic medical imagi...