Difference between revisions of "2010 NAMIC Project week: Volume Rendering for Virtual Colonoscopy"
From NAMIC Wiki
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* MGH: June-Goo Lee | * MGH: June-Goo Lee | ||
* MGH: Hiro Yoshida | * MGH: Hiro Yoshida | ||
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* BWH/Isomic: Steve Pieper | * BWH/Isomic: Steve Pieper | ||
* BWH: Ron Kikinis | * BWH: Ron Kikinis | ||
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<h3>Approach, Plan</h3> | <h3>Approach, Plan</h3> | ||
+ | Several virtual colonoscopy datasets will be rendered by use of the below volume rendering routines. | ||
+ | * VTK GPU Raycasting in slicer 3.6 (GLSL) | ||
+ | * Microsoft research (MSR) volume rendering (CUDA, closed source) | ||
− | + | Their performance will be compared based on various metrics. | |
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</div> | </div> | ||
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<h3>Progress</h3> | <h3>Progress</h3> | ||
− | + | The two volume rendering routines are installed on a single computer (single CUDA-based GPU) for rendering the virtual colonoscopy datasets as well as for performance comparison purposes. | |
</div> | </div> |
Revision as of 01:54, 21 June 2010
Home < 2010 NAMIC Project week: Volume Rendering for Virtual ColonoscopyKey Investigators
- MGH: Yin Wu
- MGH: June-Goo Lee
- MGH: Hiro Yoshida
- BWH/Isomic: Steve Pieper
- BWH: Ron Kikinis
Objective
Pursure volume rendering that is suitable for real-time and interactive virtual colonoscopy display.
The objective of this project is to:
- Examine internal volume rendering (open source) availabel in Slicer
- Provide external volume rendering (closed source) for virtual colonoscopy
- Compare the performance of these volume rendering routines.
- Compare the advantages and disadbantages of these volume rendering routines
Approach, Plan
Several virtual colonoscopy datasets will be rendered by use of the below volume rendering routines.
- VTK GPU Raycasting in slicer 3.6 (GLSL)
- Microsoft research (MSR) volume rendering (CUDA, closed source)
Their performance will be compared based on various metrics.
Progress
The two volume rendering routines are installed on a single computer (single CUDA-based GPU) for rendering the virtual colonoscopy datasets as well as for performance comparison purposes.
Delivery Mechanism
Basic volume rendering codes for virtual colonoscopy
# Add codes here!