The work describes a method to quantitatively evaluate spatial resolution in B-mode quality control images as radial modulation transfer function (MTF). The method is easy to use in in-field quality assurance programs in clinical institutions, as it is fast and can be performed with the help of phantoms that are already used for routine quality control. It uses a round insert with different echogenic characteristics compared with the phantom background. The method was automated with a MATLAB (R) routine, which can be run in full automatic mode or with a grade of interaction by the user, as is sometimes necessary with low-quality images. Radial MTF was evaluated for several ultrasound (US) images produced with different clinical US scanners ...
Ultrasound image uniformity is a parameter often used in medical ultrasound system testing, as an ob...
grantor: University of TorontoThe primary objective of this thesis is to study the factors...
The ability of pulse-echo ultrasound transit time spectroscopy (PE-UTTS) to improve the axial and la...
The work describes a method to quantitatively evaluate spatial resolution in B-mode quality control ...
The Quality assurance of ultrasound clinical imaging systems is essential for maintaining their perf...
Objective evaluation of the image quality on ultrasound images is a comprehensive task due to the re...
Contains fulltext : 53224.pdf (publisher's version ) (Closed access)There is an ur...
Although ultrasound image uniformity is a very important parameter for quality assurance in diagnost...
The quality of images produced by imaging devices of all types can be analyzed and quantified by a v...
Ultrasound (US) has become increasingly important in imaging and image-guided interventional procedu...
Recently, several authors and institutions proposed quality control procedures for 2-D B-mode sonogr...
Image quality control tests on medical ultrasound systems are often performed by technicians using u...
Spatial compound imaging via beam-steering aims to improve image quality through signal averaging. H...
In medical sonography, sonograph image quality is an essential aspect for the safety of both patient...
PhD ThesisThe poor lateral resolution and qualitative nature of conventional real-time B-scanning ha...
Ultrasound image uniformity is a parameter often used in medical ultrasound system testing, as an ob...
grantor: University of TorontoThe primary objective of this thesis is to study the factors...
The ability of pulse-echo ultrasound transit time spectroscopy (PE-UTTS) to improve the axial and la...
The work describes a method to quantitatively evaluate spatial resolution in B-mode quality control ...
The Quality assurance of ultrasound clinical imaging systems is essential for maintaining their perf...
Objective evaluation of the image quality on ultrasound images is a comprehensive task due to the re...
Contains fulltext : 53224.pdf (publisher's version ) (Closed access)There is an ur...
Although ultrasound image uniformity is a very important parameter for quality assurance in diagnost...
The quality of images produced by imaging devices of all types can be analyzed and quantified by a v...
Ultrasound (US) has become increasingly important in imaging and image-guided interventional procedu...
Recently, several authors and institutions proposed quality control procedures for 2-D B-mode sonogr...
Image quality control tests on medical ultrasound systems are often performed by technicians using u...
Spatial compound imaging via beam-steering aims to improve image quality through signal averaging. H...
In medical sonography, sonograph image quality is an essential aspect for the safety of both patient...
PhD ThesisThe poor lateral resolution and qualitative nature of conventional real-time B-scanning ha...
Ultrasound image uniformity is a parameter often used in medical ultrasound system testing, as an ob...
grantor: University of TorontoThe primary objective of this thesis is to study the factors...
The ability of pulse-echo ultrasound transit time spectroscopy (PE-UTTS) to improve the axial and la...