Difference between revisions of "Tasks"

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(adaptivity and Smoothness to CBC3D [In Progress])
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== CBC3D Docker [<span style="color:blue">In Progress</span>] ==
+
== Paraview plugin [<span style="color:blue">In Progress</span>] ==
# Exploring the option of creating a docker with CBC3D
+
# CNF project:visualize the meshes in 3d
# Comparing with PODM which has a different set of parameters
+
# Take weight of tetrahedral and plot
# Using PODM as a template - making necessary changes to CBC3D
+
# User should have the ability to choose the axis to collect weight
# Utilizing paraview to visualize meshes
 
  
 
== Adaptivity and Smoothness to CBC3D [<span style="color:blue">In Progress</span>] ==
 
== Adaptivity and Smoothness to CBC3D [<span style="color:blue">In Progress</span>] ==
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# Study the NYU papers and code to understand how to augment Fotis' code
 
# Study the NYU papers and code to understand how to augment Fotis' code
  
== Paraview plugin ==
+
== CBC3D Docker [<span style="color:blue">In Progress</span>] ==
# CNF project
+
# Exploring the option of creating a docker with CBC3D
# take weight of tetrahedral and plot
+
# Comparing with PODM which has a different set of parameters
# user should have the ability to choose axis to collect weight
+
# Using PODM as a template - making necessary changes to CBC3D
 +
# Utilizing paraview to visualize meshes
  
 
== Slicer Extension -- [<span style="color:green">DONE</span>] ==  
 
== Slicer Extension -- [<span style="color:green">DONE</span>] ==  

Revision as of 18:41, 28 October 2019

Paraview plugin [In Progress]

  1. CNF project:visualize the meshes in 3d
  2. Take weight of tetrahedral and plot
  3. User should have the ability to choose the axis to collect weight

Adaptivity and Smoothness to CBC3D [In Progress]

  • CGAL
  • NYU method

CGAL

  1. For smooth
  2. Researching CGAL's approach for smoothing

NYU Method

  1. Read Fotis' thesis
  2. Read NYU papers: https://arxiv.org/pdf/1908.03581.pdf
  3. Review the NYU code on github
  4. Study the NYU papers and code to understand how to augment Fotis' code

CBC3D Docker [In Progress]

  1. Exploring the option of creating a docker with CBC3D
  2. Comparing with PODM which has a different set of parameters
  3. Using PODM as a template - making necessary changes to CBC3D
  4. Utilizing paraview to visualize meshes

Slicer Extension -- [DONE]

  1. Get stand alone slicer code from github
  2. Test the CBC3D Slicer extension with old code
  3. Test the CBC3D Slicer extension with new code
  4. Place the new code on Box