Add to ORKGThree-dimensional (3D) Freehand ultrasound uses the acquisition of non parallel B-scans localized in 3D by a tracking system (optic, mechanical or magnetic). Using the positions of the irregularly spaced B-scans, a regular 3D lattice volume can be reconstructed, to which conventional 3D computer vision algorithms (registration and segmentation) can be applied. This paper presents a new 3D reconstruction method which explicitly accounts for the probe trajectory. Experiments were conducted on phantom and intra-operative datasets using various probe motion types and varied slice-to-slice B-scan distances. Results suggest that this technique improves on classical methods at the expense of computational time
Ultrasonography (US) devices are systems largely used to collect medical images useful for visualizi...
International audienceIn this paper, three different calibration methods for three-dimensional (3-D)...
This paper describes a new robust and fully automatic method for calibration of three-dimensional (3...
Three-dimensional (3D) Freehand ultrasound uses the acquisition of non parallel B-scans localized in...
3D freehand ultrasound imaging is a very attractive technique in medical examinations and intra-oper...
This paper examines a novel approach for temporal calibration of a 3D freehand ultrasound (US) syste...
Freehand 3D ultrasound can be acquired without a position sensor by finding the separations of pairs...
AbstractFreehand three-dimensional ultrasound imaging is a highly attractive research area because i...
3D freehand ultrasound is an imaging technique, which is gradually finding clinical applications. A ...
Real-time 3D ultrasound is a new generation ultrasound system that uses a dedicated hand-held probe...
Out-of-plane motion in freehand 3D ultrasound can be estimated using the correlation of correspondin...
The ultrasound (US) probe spatial calibration is a key prerequisite for enabling the use of the 3D f...
Ultrasonography (US) devices are systems largely used to collect medical images useful for visualizi...
International audienceIn this paper, three different calibration methods for three-dimensional (3-D)...
This paper describes a new robust and fully automatic method for calibration of three-dimensional (3...
Three-dimensional (3D) Freehand ultrasound uses the acquisition of non parallel B-scans localized in...
3D freehand ultrasound imaging is a very attractive technique in medical examinations and intra-oper...
This paper examines a novel approach for temporal calibration of a 3D freehand ultrasound (US) syste...
Freehand 3D ultrasound can be acquired without a position sensor by finding the separations of pairs...
AbstractFreehand three-dimensional ultrasound imaging is a highly attractive research area because i...
3D freehand ultrasound is an imaging technique, which is gradually finding clinical applications. A ...
Real-time 3D ultrasound is a new generation ultrasound system that uses a dedicated hand-held probe...
Out-of-plane motion in freehand 3D ultrasound can be estimated using the correlation of correspondin...
The ultrasound (US) probe spatial calibration is a key prerequisite for enabling the use of the 3D f...
Ultrasonography (US) devices are systems largely used to collect medical images useful for visualizi...
International audienceIn this paper, three different calibration methods for three-dimensional (3-D)...
This paper describes a new robust and fully automatic method for calibration of three-dimensional (3...