Add to ORKGThis paper describes an implementation of 3D ultrasound data reconstruction, display and analysis within AutoCAD (R) 2000. In addition, a number of standard weld templates, scalable via dialog boxes, have been implemented. Currently, MIPS (Micropulse) formatted data can be imported, reconstructed and displayed. A series of dialog boxes allows specification of the scanning configuration. The reconstruction algorithm takes full account of reflection and mode conversion at the component surfaces. The resultant ultrasound image is presented in '3D', with tools for image manipulation and interrogation
Ultrasound imaging systems (UIS) are essential tools in nondestructive testing (NDT). In general, th...
This thesis addresses two problems in medical imaging, the development of a system for 3D imaging wi...
Ultrasonic methods for the evaluation of welding defects which are able to specify flaw position, fl...
This paper describes an implementation of 3D ultrasound data reconstruction, display and analysis wi...
Visualisation in 3-D can significantly improve the interpretation and understanding of imaged NDT da...
The use of 3-D visualisation can provide a significantly improved understanding of the content of ND...
To assist with the design and validation of testing procedures for NDT, add-on modules have been dev...
Classification and sizing of suspect indications within ultrasonic data can be a complex, time consu...
The "noisy and blurry" nature of biomedical ultrasonic data makes the rendering of 3D models difficu...
In this paper, we present approaches toward an interactive visualization of a real time input, appli...
Interpretation of ultrasonic NDT data can be a complex task. Interpreters must be highly skilled, an...
The demand for high-speed ultrasonic scanning of large and complex components is driven by a desire ...
3D Ultrasound represents one of the latest devel-opments in medical tomography. Its access to genera...
Three-dimensional reconstructions (3DR) of the heart and great vessels are conventionally formed by ...
This research deals with the problem of three dimensional reconstruction from medical ultrasound ima...
Ultrasound imaging systems (UIS) are essential tools in nondestructive testing (NDT). In general, th...
This thesis addresses two problems in medical imaging, the development of a system for 3D imaging wi...
Ultrasonic methods for the evaluation of welding defects which are able to specify flaw position, fl...
This paper describes an implementation of 3D ultrasound data reconstruction, display and analysis wi...
Visualisation in 3-D can significantly improve the interpretation and understanding of imaged NDT da...
The use of 3-D visualisation can provide a significantly improved understanding of the content of ND...
To assist with the design and validation of testing procedures for NDT, add-on modules have been dev...
Classification and sizing of suspect indications within ultrasonic data can be a complex, time consu...
The "noisy and blurry" nature of biomedical ultrasonic data makes the rendering of 3D models difficu...
In this paper, we present approaches toward an interactive visualization of a real time input, appli...
Interpretation of ultrasonic NDT data can be a complex task. Interpreters must be highly skilled, an...
The demand for high-speed ultrasonic scanning of large and complex components is driven by a desire ...
3D Ultrasound represents one of the latest devel-opments in medical tomography. Its access to genera...
Three-dimensional reconstructions (3DR) of the heart and great vessels are conventionally formed by ...
This research deals with the problem of three dimensional reconstruction from medical ultrasound ima...
Ultrasound imaging systems (UIS) are essential tools in nondestructive testing (NDT). In general, th...
This thesis addresses two problems in medical imaging, the development of a system for 3D imaging wi...
Ultrasonic methods for the evaluation of welding defects which are able to specify flaw position, fl...