Difference between revisions of "2012 Winter Project Week:SlidingOrgans"
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| − | + | * Conventional deformable image registration enforces smooth motion, causing inaccurate displacement measurements near sliding motion. | |
| + | * Sliding motion is common in intra-subject 4D image registration problems, for example respiration-induced sliding of the lungs and abdominal organs against the chest wall. | ||
| + | * We have developed an image registration algorithm based on anisotropic diffusion that handles sliding motion. | ||
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| − | * | + | * Continue algorithm validation experiments in 4D chest CT. |
| − | + | * Improve CLI documentation and user interface. | |
| + | * Fix user experience issues of integration of TubeTK CLIs into Slicer 4. | ||
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Revision as of 07:21, 9 January 2012
Home < 2012 Winter Project Week:SlidingOrgans
Registration in the presence of sliding between organs
Key Investigators
- Kitware: Danielle Pace, Stephen Aylward
- UNC: Marc Niethammer
Objective
- Conventional deformable image registration enforces smooth motion, causing inaccurate displacement measurements near sliding motion.
- Sliding motion is common in intra-subject 4D image registration problems, for example respiration-induced sliding of the lungs and abdominal organs against the chest wall.
- We have developed an image registration algorithm based on anisotropic diffusion that handles sliding motion.
Approach, Plan
- Continue algorithm validation experiments in 4D chest CT.
- Improve CLI documentation and user interface.
- Fix user experience issues of integration of TubeTK CLIs into Slicer 4.
Progress
Delivery Mechanism
This work will be delivered to the NA-MIC Kit as a Slicer extension as a CLI distributed in TubeTK (http://public.kitware.com/Wiki/TubeTK)
