International audienceThis paper concerns the ultrasonic characterization of human cancellous bone samples by solving the inverse problem using experimentally measured signals. The inverse problem is solved numerically by the least squares method. Five parameters are inverted: porosity, tortuosity, viscous characteristic length, Young modulus, and Poisson ratio of the skeletal frame. The minimization of the discrepancy between experiment and theory is made in the time domain. The ultrasonic propagation in cancellous bone is modelled using the Biot theory modified by the Johnson-Koplik-Dashen model for viscous exchange between fluid and structure. The sensitivity of the Young modulus and the Poisson ratio of the skeletal frame are studied sh...
Understanding the propagation of acoustic waves through a liquid-perfused porous solid framework suc...
The objective of this study is to make cross-sectional ultrasonic quantitative tomography of the dia...
Cancellous bone is a highly porous material filled with fluid. The mechanical properties of cancello...
International audienceThis paper concerns the ultrasonic characterization of human cancellous bone s...
This paper concerns the ultrasonic characterization of human cancellous bone samples by solving the ...
Abstract—This paper concerns the ultrasonic character-ization of human cancellous bone samples by so...
Ultrasonic wave propagation in human cancellous bone is considered using Biot's theory modified by t...
Ultrasonic wave propagation in human cancellous bone is considered. Reflection and transmission coef...
International audienceUltrasonic wave propagation in human cancellous bone is considered using Biot'...
The theoretical modelling of ultrasonic propagation in cancellous bone is pertinent to the improveme...
The modeling of ultrasonic propagation in cancellous bone is relevant to the study of clinical bone ...
International audienceFor a few years several authors have proposed the model of Biot to describe th...
The anisotropic pore structure and elasticity of cancellous bone cause wave speeds and attenuation i...
Pulse transmission ultrasound was used to determine the longitudinal wave speed along the direction ...
The use of Biot theory for modelling ultrasonic wave propagation in porous media involves the defini...
Understanding the propagation of acoustic waves through a liquid-perfused porous solid framework suc...
The objective of this study is to make cross-sectional ultrasonic quantitative tomography of the dia...
Cancellous bone is a highly porous material filled with fluid. The mechanical properties of cancello...
International audienceThis paper concerns the ultrasonic characterization of human cancellous bone s...
This paper concerns the ultrasonic characterization of human cancellous bone samples by solving the ...
Abstract—This paper concerns the ultrasonic character-ization of human cancellous bone samples by so...
Ultrasonic wave propagation in human cancellous bone is considered using Biot's theory modified by t...
Ultrasonic wave propagation in human cancellous bone is considered. Reflection and transmission coef...
International audienceUltrasonic wave propagation in human cancellous bone is considered using Biot'...
The theoretical modelling of ultrasonic propagation in cancellous bone is pertinent to the improveme...
The modeling of ultrasonic propagation in cancellous bone is relevant to the study of clinical bone ...
International audienceFor a few years several authors have proposed the model of Biot to describe th...
The anisotropic pore structure and elasticity of cancellous bone cause wave speeds and attenuation i...
Pulse transmission ultrasound was used to determine the longitudinal wave speed along the direction ...
The use of Biot theory for modelling ultrasonic wave propagation in porous media involves the defini...
Understanding the propagation of acoustic waves through a liquid-perfused porous solid framework suc...
The objective of this study is to make cross-sectional ultrasonic quantitative tomography of the dia...
Cancellous bone is a highly porous material filled with fluid. The mechanical properties of cancello...