A software tool is presented for interactive segmentation of volumetric medical data sets. To allow interactive processing of large data sets, segmentation operations, and rendering are GPU-accelerated. Special adjustments are provided to overcome GPU-imposed constraints such as limited memory and host-device bandwidth. A general and efficient undo/redo mechanism is implemented using GPU-accelerated compression of the multiclass segmentation state. A broadly applicable set of interactive segmentation operations is provided which can be combined to solve the quantification task of many types of imaging studies. A fully GPU-accelerated ray casting method for multiclass segmentation rendering is implemented which is well-balanced with respect ...
Objective. We have created an open-source application and framework for rapid GPU-accelerated protot...
The segmentation of tomographic image data is an important prerequisite for a meaningful visualizati...
Medical imaging techniques such as CT, MRI and x-ray imaging are a crucial component of modern diagn...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
Title: Interactive Processing of Volumetric Data Author: Jan Kolomazník Department: Department of So...
The immense progress of imaging technologies has radically changed the prac-tice of medicine both in...
The rapid development of digital technology has enabled the real-time volume rendering of scientific...
A two-stage methodology for interactive segmentation of volume data sets is presented in this paper....
Modern graphics processing units (GPUs) have evolved into high-performance processors with fully pro...
While level sets have demonstrated a great potential for 3D medical image segmentation, their useful...
Segmentation of meaningful objects from intensity volume data and shaded surface display of the extr...
The increasing size and number of data sets of large four dimensional (three spatial, one temporal) ...
The role of computers in medical image display and analysis continues to be one of the most computat...
We present a segmentation software package primarily targeting medical and biological applications, ...
While level sets have demonstrated a great potential for 3D medical image segmentation, their useful...
Objective. We have created an open-source application and framework for rapid GPU-accelerated protot...
The segmentation of tomographic image data is an important prerequisite for a meaningful visualizati...
Medical imaging techniques such as CT, MRI and x-ray imaging are a crucial component of modern diagn...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
Title: Interactive Processing of Volumetric Data Author: Jan Kolomazník Department: Department of So...
The immense progress of imaging technologies has radically changed the prac-tice of medicine both in...
The rapid development of digital technology has enabled the real-time volume rendering of scientific...
A two-stage methodology for interactive segmentation of volume data sets is presented in this paper....
Modern graphics processing units (GPUs) have evolved into high-performance processors with fully pro...
While level sets have demonstrated a great potential for 3D medical image segmentation, their useful...
Segmentation of meaningful objects from intensity volume data and shaded surface display of the extr...
The increasing size and number of data sets of large four dimensional (three spatial, one temporal) ...
The role of computers in medical image display and analysis continues to be one of the most computat...
We present a segmentation software package primarily targeting medical and biological applications, ...
While level sets have demonstrated a great potential for 3D medical image segmentation, their useful...
Objective. We have created an open-source application and framework for rapid GPU-accelerated protot...
The segmentation of tomographic image data is an important prerequisite for a meaningful visualizati...
Medical imaging techniques such as CT, MRI and x-ray imaging are a crucial component of modern diagn...