Objective This work is concerned with the creation of three-dimensional (3D) extended-field-of-view ultrasound from a set of volumes acquired using a mechanically swept 3D probe. 3D volumes of ultrasound data can be registered by attaching a position sensor to the probe; this can be an inconvenience in a clinical setting. A position sensor can also cause some misalignment due to patient movement and respiratory motion. We propose a combination of three-degrees-of-freedom image registration and an unobtrusively integrated inertial sensor for measuring orientation. The aim of this research is to produce a reliable and portable ultrasound system that is able to register 3D volumes quickly, making it suitable for clinical use.<p></p&g...
Three-dimensional ultrasound (US) technology is supposed to help combat some of the orientation diff...
<p>Robotic ultrasound systems have turned into clinical use over the past few decades, increasing pr...
Three-dimensional (3D) or four-dimensional (4D) ultrasound (US) has been developed and researched in...
Objective This work is concerned with the creation of three-dimensional (3D) extended-field-of-view...
OBJECTIVE: This work is concerned with the creation of three-dimensional (3D) extended-field-of-view...
Most of the conventional ultrasound machines in hospitals work in two dimensions. However, there are...
This paper considers registration of 3D ultrasound volumes acquired in multiple views for display in...
Real-time 3D ultrasound is a new generation ultrasound system that uses a dedicated hand-held probe...
A number of groups around the world are working in the field of three dimensional(3D) ultrasound (US...
Objective: To describe Three-Dimensional eXtended Imaging (3DXI)™ as a new display modality for thre...
Volumetric 3D ultrasound captures a region of interest more completely than cross-sectional 2D imagi...
Registration of three-dimensional ultrasound (3DUS) volumes is necessary in several applications, su...
A system is described for calculating volume from a sequence of multiplanar 2D ultrasound images. Ul...
Abstract: Moving forward from the first approach of three dimensional ultrasound, as a new gadget fo...
International audienceWe propose a novel solution for volumetric ultrasound imaging using single-sid...
Three-dimensional ultrasound (US) technology is supposed to help combat some of the orientation diff...
<p>Robotic ultrasound systems have turned into clinical use over the past few decades, increasing pr...
Three-dimensional (3D) or four-dimensional (4D) ultrasound (US) has been developed and researched in...
Objective This work is concerned with the creation of three-dimensional (3D) extended-field-of-view...
OBJECTIVE: This work is concerned with the creation of three-dimensional (3D) extended-field-of-view...
Most of the conventional ultrasound machines in hospitals work in two dimensions. However, there are...
This paper considers registration of 3D ultrasound volumes acquired in multiple views for display in...
Real-time 3D ultrasound is a new generation ultrasound system that uses a dedicated hand-held probe...
A number of groups around the world are working in the field of three dimensional(3D) ultrasound (US...
Objective: To describe Three-Dimensional eXtended Imaging (3DXI)™ as a new display modality for thre...
Volumetric 3D ultrasound captures a region of interest more completely than cross-sectional 2D imagi...
Registration of three-dimensional ultrasound (3DUS) volumes is necessary in several applications, su...
A system is described for calculating volume from a sequence of multiplanar 2D ultrasound images. Ul...
Abstract: Moving forward from the first approach of three dimensional ultrasound, as a new gadget fo...
International audienceWe propose a novel solution for volumetric ultrasound imaging using single-sid...
Three-dimensional ultrasound (US) technology is supposed to help combat some of the orientation diff...
<p>Robotic ultrasound systems have turned into clinical use over the past few decades, increasing pr...
Three-dimensional (3D) or four-dimensional (4D) ultrasound (US) has been developed and researched in...