Add to ORKGThe paper contains the wavelet approach to registered backscattered RF signals from two different cases. First, the wavelet analysis has been performed for RF signals registered from soft tissue phantoms. The second case is the wavelet analyses of RF scattered signals from regions of healthy and BCC changed human skin. The three phantoms made from tissuemimicking material with different structures have been measured. We claim that there are visible differences in the statistical parameters of wavelets coefficients of signals between healthy and BCC changed skin regions as well as between phantoms without scatterers and with different number of strong small scatterers
International audienceIn wavelet analysis, the signal reconstruction and statistical estimators are ...
A novel estimation of temperature changes inside soft tissues has been proposed in sub-ablation rang...
The authors model tissue as a collection of point scatterers embedded in a uniform media, and show t...
The paper contains the wavelet approach to registered backscattered RF signals from two different ca...
The paper contains the wavelet approach to registered backscattered RF signals from two different ca...
The paper contains the wavelet approach to registered backscattered RF signals from two different ca...
The aim of the paper is to find links between the dynamics of changes of statistical parameters and ...
The aim of the paper is to find links between the dynamics of changes of statistical parameters and ...
This paper presents a novel method for tissue characterization using wavelet transform of ultrasound...
This paper presents a novel method for tissue characterization using wavelet transform of ultrasound...
This paper presents a novel method for tissue characterization using wavelet transform of ultrasound...
The scattering of ultrasonic waves depends on the size, shape, acoustical properties and concentrati...
Utrasonic backscatter is useful for characterizing tissues and several groups have reported methods ...
<p>Different Nakagami parameters indicate varying envelope statistics caused by various properties o...
International audienceQuantitative ultrasound technique is based on a frequency-based analysis of th...
International audienceIn wavelet analysis, the signal reconstruction and statistical estimators are ...
A novel estimation of temperature changes inside soft tissues has been proposed in sub-ablation rang...
The authors model tissue as a collection of point scatterers embedded in a uniform media, and show t...
The paper contains the wavelet approach to registered backscattered RF signals from two different ca...
The paper contains the wavelet approach to registered backscattered RF signals from two different ca...
The paper contains the wavelet approach to registered backscattered RF signals from two different ca...
The aim of the paper is to find links between the dynamics of changes of statistical parameters and ...
The aim of the paper is to find links between the dynamics of changes of statistical parameters and ...
This paper presents a novel method for tissue characterization using wavelet transform of ultrasound...
This paper presents a novel method for tissue characterization using wavelet transform of ultrasound...
This paper presents a novel method for tissue characterization using wavelet transform of ultrasound...
The scattering of ultrasonic waves depends on the size, shape, acoustical properties and concentrati...
Utrasonic backscatter is useful for characterizing tissues and several groups have reported methods ...
<p>Different Nakagami parameters indicate varying envelope statistics caused by various properties o...
International audienceQuantitative ultrasound technique is based on a frequency-based analysis of th...
International audienceIn wavelet analysis, the signal reconstruction and statistical estimators are ...
A novel estimation of temperature changes inside soft tissues has been proposed in sub-ablation rang...
The authors model tissue as a collection of point scatterers embedded in a uniform media, and show t...