Difference between revisions of "Algorithm:Main"

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Back to [[Cores|NA-MIC Cores]]
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='''Welcome to the NA-MIC Algorithms!'''=
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The Algorithms Core (NA-MIC Core 1) investigates mathematical methods for medical image analysis.  Algorithm design is an essential step in attempting to answer clinical questions based on medical imagery.  The Algorithms Core collaborates with Core 2 to provide tools which Core 3 can leverage to enhance clinical studies. Our team members represent a broad cross-section of medical image groups. The links below showcase the work at each of the Core 1 sites and also showcase the collaborative work which we share with our Core 2 and 3 partners.
| rowspan="2" width="100px" align="center" valign="top" | [[Image:Pohl_reg_seg_mov.gif | [[Image:Pohl_reg_seg_mov.gif | Joint Registration and Segmentation Example ]]]]
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| style="background: #ebeced" colspan="2" align="center"| '''Volumetric Segmentation of the Arcuate Fasciculus'''<br>[[Image:UtahArcuateFasciculusFeb10.png|center|200px]]
| width="250pt" valign="top" | K. M. Pohl, J. Fisher, W.E.L. Grimson, R. Kikinis, and W.M. Wells.
 
[[Media:Pohl-NeuroImage-06.pdf|A Bayesian Model for Joint Segmentation and Registration]].
 
NeuroImage, 31(1):228-239, 2006. [[Algorithm:Past_Featured_Articles#pohl_ni_06|Abstract]]
 
 
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[[Algorithm:Past_Featured_Articles|Past featured articles]]
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| style="background: #ebeced"|Microstructural Connectivity of the Arcuate Fasciculus in Adolescents with High-functioning Autism [[Algorithm:Past_Featured_Articles|Read more...]]  
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= Overview of the Algorithms Core (NA-MIC Core 1) =
 
 
The Algorithms Core ... pull ideas from the grant.
 
  
 
= Algorithms Projects - Organized by Site =
 
= Algorithms Projects - Organized by Site =
  
* [[Algorithm:GATech|Georgia Tech]]
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* [[Algorithm:Stony Brook|Stony Brook]]
* [[Algorithm:MGH|MGH]]
 
 
* [[Algorithm:MIT|MIT]]
 
* [[Algorithm:MIT|MIT]]
 
* [[Algorithm:UNC|UNC]]
 
* [[Algorithm:UNC|UNC]]
* [[Algorithm:Utah|Utah]]
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* [[Algorithm:Utah|Utah 1]]
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* [[Algorithm:Utah2|Utah 2]]
  
 
= Algorithms Projects - Organized by Subject Matter =
 
= Algorithms Projects - Organized by Subject Matter =
  
* [[NA-MIC_Collaborations|NA-MIC Collaborations]]
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* [[NA-MIC_Collaborations:New|NA-MIC Collaborations]]
  
== Interesting Open Problems ==
 
  
* [[Algorithm:OpenProblems|Multiple comparisons correction:]] How do you adjust your statistical significance for massive numbers of hypothesis tests ?
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= Data =
* [[Algorithm:OpenProblems|EPI distortion correction:]] How can you correct images for the distortions created by echo planar encoding?
 
* [[Non_Rigid_Registration|Non Rigid registration:]] Do current non rigid registration techniques address our needs ?
 
  
== Useful Links ==
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* [[Algorithm:DataRT|Radiotherapy]]
  
* [[Algorithm:Future_Plans|Proposed plans for coordinating Core 1 activities with Core 2 and Core 3]]
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= [[Algorithm:SlicerModules|Slicer Modules]] =
* [[Algorithm:Core_Level_Activities|Teleconferences]] of Algorithms Core
 
* [[Algorithm:OpenProblems|Interesting Open Problems]]
 
* [[Media:AHMJan06_core1.ppt| AHM 2006:]] Draft Core 1 Presentation
 
* [[Algorithm:Highlights_for_SLC_AHM|AHM 2005:]] Core 1 Activities to be highlighted
 

Latest revision as of 16:58, 6 June 2014

Home < Algorithm:Main
Back to NA-MIC Cores

Welcome to the NA-MIC Algorithms!

The Algorithms Core (NA-MIC Core 1) investigates mathematical methods for medical image analysis. Algorithm design is an essential step in attempting to answer clinical questions based on medical imagery. The Algorithms Core collaborates with Core 2 to provide tools which Core 3 can leverage to enhance clinical studies. Our team members represent a broad cross-section of medical image groups. The links below showcase the work at each of the Core 1 sites and also showcase the collaborative work which we share with our Core 2 and 3 partners.

Volumetric Segmentation of the Arcuate Fasciculus
UtahArcuateFasciculusFeb10.png
Microstructural Connectivity of the Arcuate Fasciculus in Adolescents with High-functioning Autism Read more...

Algorithms Projects - Organized by Site

Algorithms Projects - Organized by Subject Matter


Data

Slicer Modules