Add to ORKGInternational audienceThe aim of this paper is to propose a new Markov Random Field (MRF) model for the backscattered ultrasonic echo in order to retrieve information about backscatter characteristics, such as the density, the scatterer amplitude, the scatterer spacing and the direction of interaction. The model combines the Nakagami distribution that describes the envelope of backscattered echo with spatial interaction using MRF.We first construct the Nakagami-MRF model and illustrate the role of its parameters by some synthetic simulations. Then, to enhance the ability of this MRF model to retrieve information on the spatial backscatter distribution, we compare the parameter values estimated on simulated radio-frequency (RF) envelope imag...
International audienceA mixture of homodyned K-distributions corresponding to a mixture if tissue mi...
This article deals with the comparison of various estimators of the m parameter from the Nakagami di...
Abstract-The amplitude distribution of the envelope of backscattered ultrasound depends on tissue mi...
International audienceThis paper evaluates a K-Markov random field model for retrieving information ...
International audienceIn order to improve the tissue characterization, the probability density funct...
<p>Different Nakagami parameters indicate different envelope statistics caused by different properti...
<p>Different Nakagami parameters indicate varying envelope statistics caused by various properties o...
The envelope of the backscattered signal from tissues can exhibit non‐Rayleigh statistics if the num...
The ultrasound is a medical imaging tool that imposes itself for the diagnosis of numerous pathologi...
The ultrasound is a medical imaging tool that imposes itself for the diagnosis of numerous pathologi...
Ultrasound RF signal, backscattered from an inhomogeneous parenchymal tissue has the character of a ...
Biomedical ultrasound is a prominent imaging modality for diagnostics. Conventional ultrasonic imagi...
AbstractThe ultrasonic B-mode imaging is an important clinical tool used to examine internal structu...
Ultrasound RF signal, backscattered from an inhomogeneous parenchymal tissue has the character of a ...
The ultrasonic echo backscattered from tissues is modeled using non-Rayleigh statistics, namely the ...
International audienceA mixture of homodyned K-distributions corresponding to a mixture if tissue mi...
This article deals with the comparison of various estimators of the m parameter from the Nakagami di...
Abstract-The amplitude distribution of the envelope of backscattered ultrasound depends on tissue mi...
International audienceThis paper evaluates a K-Markov random field model for retrieving information ...
International audienceIn order to improve the tissue characterization, the probability density funct...
<p>Different Nakagami parameters indicate different envelope statistics caused by different properti...
<p>Different Nakagami parameters indicate varying envelope statistics caused by various properties o...
The envelope of the backscattered signal from tissues can exhibit non‐Rayleigh statistics if the num...
The ultrasound is a medical imaging tool that imposes itself for the diagnosis of numerous pathologi...
The ultrasound is a medical imaging tool that imposes itself for the diagnosis of numerous pathologi...
Ultrasound RF signal, backscattered from an inhomogeneous parenchymal tissue has the character of a ...
Biomedical ultrasound is a prominent imaging modality for diagnostics. Conventional ultrasonic imagi...
AbstractThe ultrasonic B-mode imaging is an important clinical tool used to examine internal structu...
Ultrasound RF signal, backscattered from an inhomogeneous parenchymal tissue has the character of a ...
The ultrasonic echo backscattered from tissues is modeled using non-Rayleigh statistics, namely the ...
International audienceA mixture of homodyned K-distributions corresponding to a mixture if tissue mi...
This article deals with the comparison of various estimators of the m parameter from the Nakagami di...
Abstract-The amplitude distribution of the envelope of backscattered ultrasound depends on tissue mi...