Difference between revisions of "2011 Summer Project Week Breakout Session EMRegistration"

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====Attendees (tentative): ====
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==== Attendees ====
  
 
*Kilian Pohl
 
*Kilian Pohl
 
*Dominik Meier
 
*Dominik Meier
*Stephen Aylward
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*Dominique Belhachemi
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*Greg Sharp
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*Danielle Pace
 
*Hans Johnson
 
*Hans Johnson
*Bill Lorensen
 
 
*Jim Miller
 
*Jim Miller
*Allen Tannenbaum
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*Daniel Haehn
  
 
==== Reference Material: ====
 
==== Reference Material: ====
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===Meeting Notes:===
 
===Meeting Notes:===
 +
*Hans pointed out that an upcoming fix, soon to be in ITK4, will incorporate an improved placement of control points, which reduces the need for masking
 +
*the multiresolution approach and fine & adaptive grid are likely the reason for the good performance of CMTK on inter-subject registration
 +
*CMTK takes ~1hr and does not have a BSD license, bootstrapping of transforms for saving time require transform concatenation
 +
*skull stripped masks are not necessarily avail. for all use cases and should not be expected as avail. input
 +
*emulation of CMTK behavior would require concatenation of multiple nonrigid transforms, which is also forthcoming in ITK4
 +
*Alternatives:
 +
**Plastimatch was not designed for brain MRI, but it does have multiresolution
 +
**2 track approach, using multiple versions that use different registration methods
 +
**NA-MIC sandbox options: Andryi
 +
**[http://www.picsl.upenn.edu/ANTS Nonrigid registration within the ANTS package]

Latest revision as of 02:22, 23 June 2011

Home < 2011 Summer Project Week Breakout Session EMRegistration

Summer Project Week Breakout Session: Registration for EM Segmenter

Wednesday, June 22, 2011, 3-4pm, Star room.

Synopsis:

The EM segmenter includes as a vital step the co-registration of a multiple subject atlas to obtain spatial priors for small region detection. The success of these priors depends heavily on the quality of the registration obtained. Because the registration includes a large-DOF nonrigid inter-subject registration, benchmarks for a good solution are largely absent. We seek an implementation of a registration using Slicer registration tools that will provide best possible robustness and if possible an estimate of reliability. Because this registration will be integrated into a slicer module, tools with a BSD license are strongly preferred.


Attendees

  • Kilian Pohl
  • Dominik Meier
  • Dominique Belhachemi
  • Greg Sharp
  • Danielle Pace
  • Hans Johnson
  • Jim Miller
  • Daniel Haehn

Reference Material:

Preliminary Agenda:

  • Description of the registration task for the EM segmenter
  • Review of example case
  • Comparison of BRAINSfit and CMTK strategies
  • Discussion of design/implementation options/strategies


Meeting Notes:

  • Hans pointed out that an upcoming fix, soon to be in ITK4, will incorporate an improved placement of control points, which reduces the need for masking
  • the multiresolution approach and fine & adaptive grid are likely the reason for the good performance of CMTK on inter-subject registration
  • CMTK takes ~1hr and does not have a BSD license, bootstrapping of transforms for saving time require transform concatenation
  • skull stripped masks are not necessarily avail. for all use cases and should not be expected as avail. input
  • emulation of CMTK behavior would require concatenation of multiple nonrigid transforms, which is also forthcoming in ITK4
  • Alternatives:
    • Plastimatch was not designed for brain MRI, but it does have multiresolution
    • 2 track approach, using multiple versions that use different registration methods
    • NA-MIC sandbox options: Andryi
    • Nonrigid registration within the ANTS package