Difference between revisions of "Slicer3:Module:Target Preprocessing-Documentation"

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|[[Image:Target1.png|thumb|380px|]]
 
|[[Image:Target1.png|thumb|380px|]]
 
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== General Information ==
 
== General Information ==
 
The purpose of this filter is to create a feature image that is suitable  
 
The purpose of this filter is to create a feature image that is suitable  
for a level-set algorithm from an intensity image.
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for a level-set algorithm, from an intensity image.
  
 
It takes the original image and performs anisotropic gaussian diffusion  
 
It takes the original image and performs anisotropic gaussian diffusion  
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Then the magnitude of the gradient is computed. This magnitude is then  
 
Then the magnitude of the gradient is computed. This magnitude is then  
non-linearly remapped so as to get really small values  
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non-linearly remapped so as to get very small values  
in the image edges and really big values in homogeneous areas.
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in the image edges and very big values in homogeneous areas.
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===Module Type & Category===
 
===Module Type & Category===
  
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===Authors, Collaborators & Contact===
 
===Authors, Collaborators & Contact===
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* Author: Carlos S. Mendoza, Universidad de Sevilla
 
* Author: Carlos S. Mendoza, Universidad de Sevilla
 
* Contact: carlos.sanchez.mendoza@gmail.com
 
* Contact: carlos.sanchez.mendoza@gmail.com
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{|
|[[Image:Captura2.jpg|thumb|280px|Panel]]
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|[[Image:Target3.jpg|thumb|280px|Panel]]
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| The parameters have the following meaning:
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*Input Volume: The output of the [[Slicer3:Module:Region_Selector-Documentation|Region Selector]] module.
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*Output Volume: Resulting preprocessed image.
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*Degree of Blurring: Number of iterations for Gradient Anisotropic Diffusion filter. Greater smoothing produces more homogeneity in low gradient areas. Significant edges are protected.
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*Degree of Edge Loss: Controls the conductance term of the GAD filter. Greater conductance reduces the edge preserving property of the GAD filter.
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*Smoothness of the mapping slope: After the GAD is applied the gradient magnitude is taken. Then a non linear sigmoid function mapping is performed so that values end up being close to 1 for edges and close to 0 for homogeneous areas. The sigmoid will be centered on the mean value of the gradient magnitude. This parameter controls the steepness of the sigmoid. A bigger value in this parameter means that the the sigmoid will increase more smoothly and more different values of the gradient will be distinguishable in the resulting feature image.
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Latest revision as of 21:05, 11 August 2008

Home < Slicer3:Module:Target Preprocessing-Documentation

Return to Slicer Documentation

Module Name

Target Preprocessing

Target1.png
Target2.jpg

General Information

The purpose of this filter is to create a feature image that is suitable for a level-set algorithm, from an intensity image.

It takes the original image and performs anisotropic gaussian diffusion on it, reducing the noise while preserving the edges.

Then the magnitude of the gradient is computed. This magnitude is then non-linearly remapped so as to get very small values in the image edges and very big values in homogeneous areas.

Module Type & Category

Type: CLI Category: Level-Set Segmentation

Authors, Collaborators & Contact

  • Author: Carlos S. Mendoza, Universidad de Sevilla
  • Contact: carlos.sanchez.mendoza@gmail.com

Quick Tour of Features and Use

There is only one panel available in this module:

Panel
The parameters have the following meaning:
  • Output Volume: Resulting preprocessed image.
  • Degree of Blurring: Number of iterations for Gradient Anisotropic Diffusion filter. Greater smoothing produces more homogeneity in low gradient areas. Significant edges are protected.
  • Degree of Edge Loss: Controls the conductance term of the GAD filter. Greater conductance reduces the edge preserving property of the GAD filter.
  • Smoothness of the mapping slope: After the GAD is applied the gradient magnitude is taken. Then a non linear sigmoid function mapping is performed so that values end up being close to 1 for edges and close to 0 for homogeneous areas. The sigmoid will be centered on the mean value of the gradient magnitude. This parameter controls the steepness of the sigmoid. A bigger value in this parameter means that the the sigmoid will increase more smoothly and more different values of the gradient will be distinguishable in the resulting feature image.

Known bugs

Follow this link to the Slicer3 bug tracker.

Usability issues

Follow this link to the Slicer3 bug tracker. Please select the usability issue category when browsing or contributing.

Source code & documentation

Customize following links for your module.

Links to documentation generated by doxygen.

Acknowledgment

This work was developed on financial support from the University of Sevilla, Spain. Most of the development took place in the Surgical Planning Laboratory, Harvard Medical School and Brigham and Women's Hospital, under the supervision of Mr. Steve Pieper Ph.D.