Difference between revisions of "2008 Winter Project Week GroupwiseReg"

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The registration algorithms are already available as C++ sourcecode.  We plan to integrate them into the NAMIC community by:
 
The registration algorithms are already available as C++ sourcecode.  We plan to integrate them into the NAMIC community by:
  
*Adapt sourcecode to utilize the command-line parsing mechanism that was designed for Slicer3 ex-
+
*Adapt sourcecode to utilize the command-line parsing mechanism that was designed for Slicer3 external modules.  
ternal modules. This will simplify the process of incorporating the algorithm into a Slicer3 module,
+
*Create a simple Slicer3 graphical user interface (external module) that allows a user to generate an atlas from their data.  
provide a standardized look-and-feel to the command-line executable, and simplify the process of
+
*User Feedback. During the January 2008 NAMIC all-hands meeting we will solicit feedback on this project from potential collaborators.
adding or removing parameters in the future.
 
 
 
*Adapt sourcecode to utilize the command-line parsing mechanism that was designed for Slicer3 ex-
 
ternal modules. This will simplify the process of incorporating the algorithm into a Slicer3 module,
 
provide a standardized look-and-feel to the command-line executable, and simplify the process of
 
adding or removing parameters in the future.
 
 
 
*User Feedback. During the January 2008 NAMIC all-hands meeting we will solicit feedback on this
 
project from potential clinical collaborators. This data will be recorded on the project wiki page and
 
should steer future development efforts for this project.
 
 
 
  
 
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<h1>Progress</h1>
 
<h1>Progress</h1>
 
====Lead Up Work====
 
  
  

Latest revision as of 15:17, 11 January 2008

Home < 2008 Winter Project Week GroupwiseReg
Figure 1: On the left is shown a stack of images and a sample pixel stack around a cortical region. On the left is shown the Gaussian(blue) fittet to a real sample from the dataset we used along with the non-parametric density estimate(red). Note that the distribution is bi-modal because of white matter-gray matter transaction.


Key Investigators

  • MIT: Serdar Balci, Polina Golland
  • Kitware: Brad Davis
  • SCI: Casey Goodlett

Objective

The goal of this project is to expand the NAMIC Software Kit with the addition of an image-based atlas building algorithm that was developed by Polina Golland’s lab at MIT. The basic functionality of this software will be demonstrated to the NAMIC community at the January 2008 NAMIC all-hands meeting. A secondary goal is to begin the process of gathering usability and interface requests from targeted clinical collaborators. It is intended that users’ requests will be incorporated in to a future project aimed at tailoring this software for widespread NAMIC use.

See our Algorithm Project Page for more details.

Approach, Plan

The registration algorithms are already available as C++ sourcecode. We plan to integrate them into the NAMIC community by:

  • Adapt sourcecode to utilize the command-line parsing mechanism that was designed for Slicer3 external modules.
  • Create a simple Slicer3 graphical user interface (external module) that allows a user to generate an atlas from their data.
  • User Feedback. During the January 2008 NAMIC all-hands meeting we will solicit feedback on this project from potential collaborators.

Progress


Jan 2008 Project Week



References

  • S.K. Balci, P. Golland, M.E. Shenton, W.M. Wells III. Free-Form B-spline Deformation Model for Groupwise Registration. In Proceedings of MICCAI 2007 Statistical Registration Workshop: Pair-wise and Group-wise Alignment and Atlas Formation, 23-30, 2007.