Difference between revisions of "Multimodality Image Registration for TBI"
From NAMIC Wiki
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==Key Investigators== | ==Key Investigators== | ||
* Georgia Tech: Yifei Lou and Allen Tannenbaum | * Georgia Tech: Yifei Lou and Allen Tannenbaum | ||
| + | * Micah Chambers: UCLA | ||
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<h3>Objective</h3> | <h3>Objective</h3> | ||
| − | Understanding brain injury using (multimodal) image registration | + | * Understanding brain injury using (multimodal) deformable image registration |
| + | * Robust registrations inspirit of topological changes (enforcing zero flow?) | ||
| + | * CUDA-based implementation, which takes 1 min for 256x256x60 | ||
| + | |||
</div> | </div> | ||
Revision as of 16:42, 20 June 2011
Home < Multimodality Image Registration for TBI
Multimodality Image Registration for Traumatic Brain Injury (TBI)
Key Investigators
- Georgia Tech: Yifei Lou and Allen Tannenbaum
- Micah Chambers: UCLA
Objective
- Understanding brain injury using (multimodal) deformable image registration
- Robust registrations inspirit of topological changes (enforcing zero flow?)
- CUDA-based implementation, which takes 1 min for 256x256x60
Approach, Plan
- Integration into Slicer3 Module
- Consolidate and streamline workflow
- Validate algorithm on various datasets
Progress
References
1 Yifei Lou and Allen Tannenbaum. Multimodal Deformable Image Registration via the Bhattacharyya Distance. Submitted to IEEE Trans. Image Process. 2011
2 Yifei Lou, Xun Jia, Xuejun Gu and Allen Tannenbaum. A GPU-based Implementation of Multimodal Deformable Image Registration Based on Mutual Information or Bhattacharyya Distance. Insight Journal, 2011. [[1]]
Delivery Mechanism
This work will be delivered to the NAMIC Kit as a
- NITRIC distribution
- Slicer Module
- Built-in: NO
- Extension -- commandline: NO
- Extension -- loadable: NO
