Difference between revisions of "Projects:GenusZeroSlicer3Module"
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+ | Back to [[NA-MIC_Collaborations|NA-MIC_Collaborations]] | ||
+ | __TOC__ | ||
= Genus Zero Slicer 3 Module = | = Genus Zero Slicer 3 Module = | ||
− | + | Here write a brief overview of your project. | |
[[Image:GenusZeroGUI.png|thumb|300px|Automatically generated GUI of the thickness Slicer 3 module.]] | [[Image:GenusZeroGUI.png|thumb|300px|Automatically generated GUI of the thickness Slicer 3 module.]] | ||
− | + | = Description = | |
− | + | Our Objective is to implement a Slicer 3 module to perform topology correction of voxel data to ensure a genus zero surface when extracting an iso-surface from the voxel data using marching cubes. This is useful for rendering purposes as well as an initial step for shape analysis methods relying on surfaces with spherical topology (i.e., genus 0, one connected component). | |
− | + | ''Progress'' | |
Finished the Slicer 3 module based on previous work by Steve Haker and Michael Rabes. A full ITK implementation is currently in progress (Michael Rabes). | Finished the Slicer 3 module based on previous work by Steve Haker and Michael Rabes. A full ITK implementation is currently in progress (Michael Rabes). | ||
− | + | = Key Investigators = | |
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* Harvard: Steve Haker, Michael Rabes, Marc Niethammer, Sylvain Bouix, Steve Pieper | * Harvard: Steve Haker, Michael Rabes, Marc Niethammer, Sylvain Bouix, Steve Pieper | ||
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Project Week Results: [[Media:2007_Project_Half_Week_GenusZeroImageFilter.ppt|Jan 2007]] | Project Week Results: [[Media:2007_Project_Half_Week_GenusZeroImageFilter.ppt|Jan 2007]] |
Latest revision as of 16:23, 28 November 2007
Home < Projects:GenusZeroSlicer3ModuleBack to NA-MIC_Collaborations
Genus Zero Slicer 3 Module
Here write a brief overview of your project.
Description
Our Objective is to implement a Slicer 3 module to perform topology correction of voxel data to ensure a genus zero surface when extracting an iso-surface from the voxel data using marching cubes. This is useful for rendering purposes as well as an initial step for shape analysis methods relying on surfaces with spherical topology (i.e., genus 0, one connected component).
Progress
Finished the Slicer 3 module based on previous work by Steve Haker and Michael Rabes. A full ITK implementation is currently in progress (Michael Rabes).
Key Investigators
- Harvard: Steve Haker, Michael Rabes, Marc Niethammer, Sylvain Bouix, Steve Pieper
Project Week Results: Jan 2007