Add to ORKGThe scattering of ultrasonic waves depends on the size, shape, acoustical properties and concentration of scatterers in tissue. In these study K distribution of the ultrasound backscatter envelope was used to assess the structural properties of the skin tissue. The custom-designed high frequency ultrasonic scanner was applied to obtain RF B-scans of the skin in vivo at the frequency of 20 ÷ 30MHz. The results are encouraging. The K distribution models the envelope statistics very well. The parameters of the K-distribution, namely, the effective number of scatterers may be useful for the skin characterization
The paper contains the wavelet approach to registered backscattered RF signals from two different ca...
International audienceQuantitative ultrasound technique is based on a frequency-based analysis of th...
The paper considers the application of statistical properties of backscattered ultrasonic signal for...
The paper presents a classification of the healthy skin and the skin lesions (basal cell carcinoma) ...
Biomedical ultrasound is a prominent imaging modality for diagnostics. Conventional ultrasonic imagi...
The ultrasonic echo backscattered from tissues is modeled using non-Rayleigh statistics, namely the ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The skin is the largest organ of the body that protects it from the external environment. High- freq...
The authors model tissue as a collection of point scatterers embedded in a uniform media, and show t...
From recent research, it appears the K-distribution is much more appropriate when used to model the ...
International audienceQuantitative ultrasound (QUS) techniques using radiofrequency (RF) backscatter...
International audienceQuantitative ultrasound (QUS) techniques using radiofrequency (RF) backscatter...
Abstract—Quantitative ultrasonic methods were studied for characterizing skin lesions in vivo using ...
The envelope of the backscattered signal from tissues can exhibit non‐Rayleigh statistics if the num...
The paper considers the application of statistical properties of backscattered ultrasonic signal for...
The paper contains the wavelet approach to registered backscattered RF signals from two different ca...
International audienceQuantitative ultrasound technique is based on a frequency-based analysis of th...
The paper considers the application of statistical properties of backscattered ultrasonic signal for...
The paper presents a classification of the healthy skin and the skin lesions (basal cell carcinoma) ...
Biomedical ultrasound is a prominent imaging modality for diagnostics. Conventional ultrasonic imagi...
The ultrasonic echo backscattered from tissues is modeled using non-Rayleigh statistics, namely the ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The skin is the largest organ of the body that protects it from the external environment. High- freq...
The authors model tissue as a collection of point scatterers embedded in a uniform media, and show t...
From recent research, it appears the K-distribution is much more appropriate when used to model the ...
International audienceQuantitative ultrasound (QUS) techniques using radiofrequency (RF) backscatter...
International audienceQuantitative ultrasound (QUS) techniques using radiofrequency (RF) backscatter...
Abstract—Quantitative ultrasonic methods were studied for characterizing skin lesions in vivo using ...
The envelope of the backscattered signal from tissues can exhibit non‐Rayleigh statistics if the num...
The paper considers the application of statistical properties of backscattered ultrasonic signal for...
The paper contains the wavelet approach to registered backscattered RF signals from two different ca...
International audienceQuantitative ultrasound technique is based on a frequency-based analysis of th...
The paper considers the application of statistical properties of backscattered ultrasonic signal for...