Difference between revisions of "Projects:ARRA:SlicerReg"

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=Progress=
 
=Progress=
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* 2011/04/01:  [[Projects:RegistrationLibrary:RegLib_C39|new case 39: in vitro thoracic vertebrae CT]],[[Projects:RegistrationLibrary:RegLib_C40|new case 40: micro CT structural analysis]],
 
* 2011/03/25:  [[Projects:RegistrationLibrary:RegLib_C28|new case 28: in vitro spine CT]], [http://www.slicer.org/slicerWiki/index.php/Slicer-3-6-FAQ FAQ updates]
 
* 2011/03/25:  [[Projects:RegistrationLibrary:RegLib_C28|new case 28: in vitro spine CT]], [http://www.slicer.org/slicerWiki/index.php/Slicer-3-6-FAQ FAQ updates]
 
* 2011/03/18:  user support & updates/fixes to tutorial for [[Projects:RegistrationLibrary:RegLib_C11|atlas merging]], spine CT registration , CMTK module
 
* 2011/03/18:  user support & updates/fixes to tutorial for [[Projects:RegistrationLibrary:RegLib_C11|atlas merging]], spine CT registration , CMTK module

Revision as of 22:31, 31 March 2011

Home < Projects:ARRA:SlicerReg

Back to Slicer ARRA home page

Aim

3D Slicer provides access to powerful registration tools. Based on our experience with clinician scientist through the Harvard Catalyst, the current interface and documentation are not suitable for that audience. We propose to address this critical shortcoming through a number of measures listed below. If successful, this will open access to powerful technologies for data fusion and analysis of progression of disease to a new class of clinical users.

Research Plan

The registration modules in 3Dslicer are built in ITK and are controlled by complex sets of command-line parameters that are not easily accessible to non-experts. How the parameters interact and how they should be adjusted based on image characteristics, such as tissue contrast, field of view, voxel anisotropy, initial misalignment, differential bias etc. are poorly explored and not documented. To make the tool-set accessible to the clinical end-user we propose to support/enhance the existing tool with:

  • introductory documentation to the principles and pitfalls of 3D registration, global guidelines for the choice of registration method and parameters.
  • tutorials for image registration (rigid, affine, non-rigid)
  • explain strategies to choose and vary parameters (DOF, cost function, search range, masking, choice of reference scan, scale space approaches)
  • explain methods to measure and visualize registration quality/success
  • develop parameter space exploration methods/tools
  • build and publish a library of use-case scenarios (same subject & contrast, different contrast, different subject, different modality)

Key Personnel

  • Dominik Meier, Ph.D., 81%, 9-17-2009 through 9-16-2011

Progress