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This page lists various small projects that can benefit from community contributions. If you are interested in any of these projects, please send an e-mail to Ahmet Erdemir, erdemira@ccf.org, to discuss potential collaboration. Claimed projects are listed in italics accompanied by the lead team member associated with it.

<<TableOfContents>>

== Utilities ==

The following projects involve Python scripting (and some analysis) to streamline the workflow to move from collected imaging and mechanics data to modeling input:

 * --(Tibiofemoral joint robotics data extraction for modeling)--
 * --(Tibiofemoral joint reproducibility analysis)--
 * --(Patellofemoral joint robotics data extraction for modeling)--
 * --(Patellofemoral joint contact pressure extraction for modeling (including reproducibility))--
 * --(Compression tissue testing data extraction)--
 * --(Tensile tissue testing data extraction--)
 * Constitutive modeling (ligament)
 * Constitutive modeling (cartilage)
 * Constitutive modeling (menisci)
 * --(Bone & cartilage segmentation & geometry generation--)
 * --(Meniscus segmentation & geometry generation)--
 * --(Ligament segmentation & geometry generation (cruciate))--
 * --(Ligament segmentation & geometry generation (collateral))--
 * --(Extensor mechanism segmentation & geometry generation)--
 * Cartilage grading for osteoarthritis
 * Meniscus grading
 * Ligament grading
 * Registration data extraction and workflow
 * Preparation of dissemination template documents and package organization

== Cloud Computing ==

== Simulation Software ==

== Open Knee(s) - Generation 1 ==

 * Release with in situ strains 

== Open Knee(s) - Generation 2 - Specimen 1 ==

 * Segmentation
 * Geometry generation

== Open Knee(s) - Generation 2 - Specimen 2 ==

 * Segmentation
 * Geometry generation

== Open Knee(s) - Generation 2 - Specimen 3 ==

 * Segmentation
 * Geometry generation

== Open Knee(s) - Generation 2 - Specimen 4 ==

 * Segmentation
 * Geometry generation

== Open Knee(s) - Generation 2 - Specimen 6 ==

 * Segmentation
 * Geometry generation

== Open Knee(s) - Generation 2 - Specimen 7 ==

 * Segmentation
 * Geometry generation

== Open Knee(s) - Generation 2 - Specimen 8 ==

 * Segmentation
 * Geometry generation

== Open Knee(s) - Generation 2 - Specimen 9 ==

 * Segmentation
 * Geometry generation