This paper describes a fast convolution-based methodology for simulating ultrasound images in a 2-D/3-D sector format as typically used in cardiac ultrasound. The conventional convolution model is based on the assumption of a space-invariant point spread function (PSF) and typically results in linear images. These characteristics are not representative for cardiac data sets. The spatial impulse response method (IRM) has excellent accuracy in the linear domain; however, calculation time can become an issue when scatterer numbers become significant and when 3-D volumetric data sets need to be computed. As a solution to these problems, the current manuscript proposes a new convolution-based methodology in which the data sets are produced by re...
Ultrasound is currently widely used in clinical diagnosis because of its fast and safe imaging princ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
Recent developments in ultrafast ultrasound imaging allow accurate assessment of 3D cardiac deformat...
A study is presented in which a new convolution-based methodology has been developed to simulate ult...
In ultrasound research, the simulation of ultrasound (US) images has become a standard tool. An easy...
The commonly used simulation method Field II, which is based on the spatial impulse response approac...
Simulation of ultrasound data is often performed for developing new ultrasound data processing techn...
Medical ultrasound imaging is widely used to diagnose cardiacdiseases. The recent availability of re...
Cardiovascular diseases are the leading cause of death in the world. There is thus a need for advanc...
In this paper a study of 3D ultrasound cardiac segmentation using Active Shape Models (ASM) is prese...
© 2014 IEEE. Current 3D cardiac ultrasound systems suffer from relatively low spatiotemporal resolut...
Real-time three-dimensional (RT3D) ultrasound technique based on matrix phased array transducers is ...
Cardiac ultrasound is a key component in modern cardiology, and is widely used to assess and quantif...
International audienceThe goal of our work is to propose a fast ultrasound image simulation from CT ...
One of the main causes of death in the western countries are coronary heartdiseases. Presently, the ...
Ultrasound is currently widely used in clinical diagnosis because of its fast and safe imaging princ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
Recent developments in ultrafast ultrasound imaging allow accurate assessment of 3D cardiac deformat...
A study is presented in which a new convolution-based methodology has been developed to simulate ult...
In ultrasound research, the simulation of ultrasound (US) images has become a standard tool. An easy...
The commonly used simulation method Field II, which is based on the spatial impulse response approac...
Simulation of ultrasound data is often performed for developing new ultrasound data processing techn...
Medical ultrasound imaging is widely used to diagnose cardiacdiseases. The recent availability of re...
Cardiovascular diseases are the leading cause of death in the world. There is thus a need for advanc...
In this paper a study of 3D ultrasound cardiac segmentation using Active Shape Models (ASM) is prese...
© 2014 IEEE. Current 3D cardiac ultrasound systems suffer from relatively low spatiotemporal resolut...
Real-time three-dimensional (RT3D) ultrasound technique based on matrix phased array transducers is ...
Cardiac ultrasound is a key component in modern cardiology, and is widely used to assess and quantif...
International audienceThe goal of our work is to propose a fast ultrasound image simulation from CT ...
One of the main causes of death in the western countries are coronary heartdiseases. Presently, the ...
Ultrasound is currently widely used in clinical diagnosis because of its fast and safe imaging princ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
Recent developments in ultrafast ultrasound imaging allow accurate assessment of 3D cardiac deformat...