International audienceThere are several simulators for medical ultrasound (US) applications that can fully compute the nonlinear propagation on the transmitted pulse and the corresponding radio-frequency (RF) images. Creanuis is one recent model used to generate nonlinear RF images; however, the time requirements are long compared with linear models using a convolution strategy. In this paper, we describe an approach using convolution coupled with nonlinear information to create a pseudoacoustic tool that is able to quickly generate realistic US images. Several point-spread functions (PSFs) are computed with Creanuis. These PSFs are extracted at different depths in order to take into account variation in the resolution and apparition of har...
Abstract. A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear...
The aim of this work is to derive new algorithms for improving the spatial resolution of medical ult...
International audienceUltrasound image deconvolution has been extensively explored in the literature...
International audienceThere are several simulators for medical ultrasound (US) applications that can...
International audienceThe simulation of ultrasound image is usually based on two main strategies: ei...
International audienceNonlinear ultrasound methods are widely used in clinical applications for tiss...
The advantages of nonlinear ultrasound propagation are exploited in an ever increasing number of app...
Nonlinear wave propagation has, for the last couple of decades, become an increasingly more importan...
International audienceUltrasound (US) image restoration from radio frequency (RF) signals is general...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
Finite amplitude sound propagation undergoes nonlinear distortion due to continuous path interaction...
The propagation of high amplitude ultrasonic fields, such as those generated by some medical ultraso...
A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear ultrasoun...
In ultrasound research, the simulation of ultrasound (US) images has become a standard tool. An easy...
This paper describes a fast convolution-based methodology for simulating ultrasound images in a 2-D/...
Abstract. A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear...
The aim of this work is to derive new algorithms for improving the spatial resolution of medical ult...
International audienceUltrasound image deconvolution has been extensively explored in the literature...
International audienceThere are several simulators for medical ultrasound (US) applications that can...
International audienceThe simulation of ultrasound image is usually based on two main strategies: ei...
International audienceNonlinear ultrasound methods are widely used in clinical applications for tiss...
The advantages of nonlinear ultrasound propagation are exploited in an ever increasing number of app...
Nonlinear wave propagation has, for the last couple of decades, become an increasingly more importan...
International audienceUltrasound (US) image restoration from radio frequency (RF) signals is general...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
Finite amplitude sound propagation undergoes nonlinear distortion due to continuous path interaction...
The propagation of high amplitude ultrasonic fields, such as those generated by some medical ultraso...
A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear ultrasoun...
In ultrasound research, the simulation of ultrasound (US) images has become a standard tool. An easy...
This paper describes a fast convolution-based methodology for simulating ultrasound images in a 2-D/...
Abstract. A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear...
The aim of this work is to derive new algorithms for improving the spatial resolution of medical ult...
International audienceUltrasound image deconvolution has been extensively explored in the literature...