Difference between revisions of "Slicer3:VisualBlog"

From Slicer Wiki
Jump to: navigation, search
Line 1: Line 1:
 
__NOTOC__
 
__NOTOC__
 
<gallery caption="2010" widths="200px" perrow="4">
 
<gallery caption="2010" widths="200px" perrow="4">
Image:deformable_registration_Screenshot1.png| Non-rigid registration technique can be used to fuse pre-procedural MR images and intra-procedural CT images during cryoablation of renal tumors. The non-rigid registrations are more accurate than rigid registrations.
+
Image:deformable_registration_Screenshot1.png| Non-rigid registration module in 3D Slicer can be used to fuse pre-procedural MR images and intra-procedural CT images during cryoablation of renal tumors. The non-rigid registrations are more accurate than rigid registrations.
 
Image:FourDImage_Screenshot1.png|[[Modules:FourDImage-Documentation-3.6|The 4D Image module]] allows handling a time-series of 3D volume images (4D image), e.g. fMRI, cardiac images, dynamic contrast-enhanced (DCE) images in 3D Slicer.  
 
Image:FourDImage_Screenshot1.png|[[Modules:FourDImage-Documentation-3.6|The 4D Image module]] allows handling a time-series of 3D volume images (4D image), e.g. fMRI, cardiac images, dynamic contrast-enhanced (DCE) images in 3D Slicer.  
 
Image:FourDAnalysisModuleScreenShot-3.5.png|Screenshot of [[Modules:FourDAnalysis-Documentation-3.6|4D Analysis Module]] for lung perfusion data. The module provides functionality to analyze time-intensity curves in specified regions.
 
Image:FourDAnalysisModuleScreenShot-3.5.png|Screenshot of [[Modules:FourDAnalysis-Documentation-3.6|4D Analysis Module]] for lung perfusion data. The module provides functionality to analyze time-intensity curves in specified regions.

Revision as of 14:52, 27 April 2010

Home < Slicer3:VisualBlog



About the VisualBlog

The VisualBlog is meant to be an easy place to upload screenshot so that both developers and outside observes can track the progress of the project.

Many thanks to developers and users for contributing their images here.