Abstract—The simulation of ultrasound propagation through biological tissue has a wide range of applications in medicine. However, ultrasound simulation presents a computationally dif-ficult problem, as simulation domains are very large compared with the acoustic wavelengths of interest. This becomes a greater problem when simulating high intensity focussed ultrasound since nonlinear effects increase the required resolution of com-putational grids. Two common methods for dealing with this difficulty include using spectral methods for solving the acoustic model equations and using an axisymmetric assumption for the system. In this paper, a full-wave nonlinear model similar to the Westervelt equation is solved using pseudospectral methods bas...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
Finite amplitude sound propagation undergoes nonlinear distortion due to continuous path interaction...
A time-domain numerical code based on the constitutive relations of nonlinear acoustics for simulati...
grantor: University of TorontoA new, computationally efficient approach for modelling fini...
Nonlinear numerical modeling of finite amplitude acoustic beams has a key role in understanding the ...
International audienceThe nonlinear ultrasound field distortion occurs in all biological media and r...
The simulation of nonlinear ultrasound propagation through tissue realistic media has a wide range o...
This chapter addresses the simulation of ultrasound fields that form the basis of various medical di...
Nonlinear propagation is important in many diagnostic and therapeutic applications of medical ultras...
A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear ultrasoun...
Abstract. A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear...
International audienceThe simulation of nonlinear propagation of ultra-sound waves is typically base...
ii Harmonic imaging is from now on clinical routine because it increases the resolution of ultrasoun...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
Finite amplitude sound propagation undergoes nonlinear distortion due to continuous path interaction...
A time-domain numerical code based on the constitutive relations of nonlinear acoustics for simulati...
grantor: University of TorontoA new, computationally efficient approach for modelling fini...
Nonlinear numerical modeling of finite amplitude acoustic beams has a key role in understanding the ...
International audienceThe nonlinear ultrasound field distortion occurs in all biological media and r...
The simulation of nonlinear ultrasound propagation through tissue realistic media has a wide range o...
This chapter addresses the simulation of ultrasound fields that form the basis of various medical di...
Nonlinear propagation is important in many diagnostic and therapeutic applications of medical ultras...
A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear ultrasoun...
Abstract. A k-space pseudospectral model is developed for the fast full-wave simulation of nonlinear...
International audienceThe simulation of nonlinear propagation of ultra-sound waves is typically base...
ii Harmonic imaging is from now on clinical routine because it increases the resolution of ultrasoun...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
Finite amplitude sound propagation undergoes nonlinear distortion due to continuous path interaction...
A time-domain numerical code based on the constitutive relations of nonlinear acoustics for simulati...