Difference between revisions of "Documentation/Nightly/Modules/ShapeVariationAnalyzer"
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The possible features are: Curvedness, Normals, Maximum Curvature, Minimum Curvature, Mean Curvature, Gaussian Curvature, Shape Index, Distances to average shapes.<br><br> | The possible features are: Curvedness, Normals, Maximum Curvature, Minimum Curvature, Mean Curvature, Gaussian Curvature, Shape Index, Distances to average shapes.<br><br> | ||
− | The training time of the classifier depends on the number of shapes, their size, the number of groups and the advanced parameters. This can take a while. Be patient! ;) | + | '''Training the network''' |
+ | The training time of the classifier depends on the number of shapes, their size, the number of groups and the advanced parameters. This can take a while. Be patient! ;) <br> | ||
+ | At the end of the training, the estimated accuracy is displayed. If you are satisfied, you can export the Classifier, if not, you can try to re-train the network using different parameters or features.<br> | ||
+ | When you click on '''Export Network''', this will create a zip file in the chosen directory, containing everything necessary for later classification. | ||
+ | Please do not modify it, at risk that it no longer functions afterward. | ||
TODO: Choice of more advanced network parameters | TODO: Choice of more advanced network parameters |
Revision as of 16:20, 5 May 2017
Home < Documentation < Nightly < Modules < ShapeVariationAnalyzer
For the latest Slicer documentation, visit the read-the-docs. |
Introduction and Acknowledgements
This work was supported by the National Institutes of Dental and Craniofacial Research and Biomedical Imaging and Bioengineering of the National Institutes of Health under Award Number R01DE024450. Author: Priscille de Dumast (University of Michigan) License: Apache License, Version 2.0 |
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Module Description
Shape Variation Analyzer allows the classification of 3D models, according to their morphological variation.
This tool is based on a deep learning neural network.
The module is composed of multiple panels to perform the different steps of the process: create the classification groups, compute their average shapes, train the classifier and classify shapes.
What is an artificial neural network?
A neural network is a computing system, inspired by our own human brain. It learns from a large dataset (training dataset) containing both the input and the expected output (in our case, the 3D model and its morphology classification). During the training, the network’s settings are adjusted until we achieve automatic classification that matches the expert classification.
The network can then be tested with any input, preferably not from the training dataset. This allows to evaluate the performance of the network.
Use Cases
Tutorials
Prerequisities
The classification can be performed with as many groups as desired.
Please note that the amount of data is very important. The more data you have, the more accurate the classification will be. Moreover, it is better to have a dataset equally divided into the classes.
Both the 3D models into the training dataset and those to classify must have the same number of points. The most correspondent the shapes are, the best it is for the computation.
Those 2 steps can be performed thanks to ShapeAnalysisModule and RigidAlignment/Groups.
Creation of CSV File
Add Group
Add one by one the directories containing the VTK files for each group. |
Modify Group
Each group can be edited, with a modification of its corresponding repository. |
Remove Group
Only the last group added can be removed. |
Preview/Update of the classification groups
This tab allows the visualization of the 3D models in ShapePopulationViewer, and update the group assigned to the shapes if needed. |
- Preview with ShapePopulationViewer
Computation of mean groups
- Perform the computation
- Preview of Group's mean
Morphological classification
This tab is divided into 2 panels:
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- Create Network
- Classify shape(s)
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Results/Analysis
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Similar Modules
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References
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Information for Developers
This extension has been designed to work with this website and should not work with other architectures.
If you want to use this plugin on another server, you need to make sure your documents are stored by CouchDB and your documents contains a field "type" set to "morphologicalData".
Your user would need to connect using JWT and have a "scope" field.
For more information, you can take a look at the website source code here.
The source code is available on github