Nonlinear propagation is important in many diagnostic and therapeutic applications of medical ultrasound. The design of equipment and protocols for nonlinear modalities is facilitated by the simulation of the nonlinear ultrasound field. However, many existing simulation tools have difficulties of dealing with realistic features like tissue inhomogeneity, power law losses, or steered beams. Recently, two full-wave simulation methods for nonlinear ultrasound have been developed that are able to deal with these features. Those methods are known as the Iterative Nonlinear Contrast Source method (INCS; an integral equation method) and k-Wave (a pseudospectral time domain method). This paper assesses the accuracy of both methods by comparing thei...
The intensities associated with the propagation of diagnostic and therapeutic ultrasound pulses are ...
Nonlinear numerical modeling of finite amplitude acoustic beams has a key role in understanding the ...
The linear propagation of ultrasound in tissue is a simplification of reality because harmonics are ...
Nonlinear propagation is important in many diagnostic and therapeutic applications of medical ultras...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
Numerical methods capable of modeling nonlinear pressure wave fields propagating through inhomogeneo...
In this PhD Thesis, a numerical method is described that accurately predicts the pulsed acoustic pre...
Nonlinear ultrasound is important in medical diagnostics because imaging of the higher harmonics imp...
The advantages of nonlinear ultrasound propagation are exploited in an ever increasing number of app...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
Abstract. The Iterative Nonlinear Contrast Source (INCS) method is a full-wave method for the accura...
Experimental data reveals that attenuation is an important phenomenon in medical ultrasound. Attenua...
For the optimization and development of medical ultrasound transducers and imaging modalities, the I...
Nonlinear wave propagation has, for the last couple of decades, become an increasingly more importan...
The intensities associated with the propagation of diagnostic and therapeutic ultrasound pulses are ...
Nonlinear numerical modeling of finite amplitude acoustic beams has a key role in understanding the ...
The linear propagation of ultrasound in tissue is a simplification of reality because harmonics are ...
Nonlinear propagation is important in many diagnostic and therapeutic applications of medical ultras...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
Numerical methods capable of modeling nonlinear pressure wave fields propagating through inhomogeneo...
In this PhD Thesis, a numerical method is described that accurately predicts the pulsed acoustic pre...
Nonlinear ultrasound is important in medical diagnostics because imaging of the higher harmonics imp...
The advantages of nonlinear ultrasound propagation are exploited in an ever increasing number of app...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
Abstract. The Iterative Nonlinear Contrast Source (INCS) method is a full-wave method for the accura...
Experimental data reveals that attenuation is an important phenomenon in medical ultrasound. Attenua...
For the optimization and development of medical ultrasound transducers and imaging modalities, the I...
Nonlinear wave propagation has, for the last couple of decades, become an increasingly more importan...
The intensities associated with the propagation of diagnostic and therapeutic ultrasound pulses are ...
Nonlinear numerical modeling of finite amplitude acoustic beams has a key role in understanding the ...
The linear propagation of ultrasound in tissue is a simplification of reality because harmonics are ...