Difference between revisions of "Documentation/4.0/Modules/CropVolume"

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You can use this module to crop a DTI or DWI volume.
 
You can use this module to crop a DTI or DWI volume.
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The cropping functionality of this module is enabled by [[Documentation/4.0/Modules/ResampleScalarVectorDWIVolume | Resample Scalar/Vector/DWI Volume]] module, which is called internally.
  
 
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|[[Image:Slicer4_ExtractSubvolumeROI_before.jpg|thumb|400px|Input image and ROI]]
[[Image:Slicer4_ExtractSubvolumeROI_before.jpg|thumb|200px|Input image]]
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|-
 
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|[[Image:Slicer4_ExtractSubvolumeROI_after.jpg|thumb|400px|Cropped subvolume]]
|[[Image:Slicer4_ExtractSubvolumeROI_after.jpg|thumb|200px|Cropped subvolume]]
 
 
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* '''Input/initialization parameters panel:'''
 
* '''Input/initialization parameters panel:'''
** '''Input volume''' defines the input image from which you need to crop a subvolume
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** '''Input volume''' defines the input image from which you need to crop a subvolume. Output volume will be created automatically.
** '''ROI''' is a Region of Interest (see [[Modules:ROIModule-Documentation-3.6|the ROI module documentation]]), which can be defined outside CropVolume, or by creating new MRMLROINode from the selector menu. The ROI can be adjusted using the widget handles in 3D view panel.
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** '''ROI''' is a Region of Interest (see [[Modules:ROIModule-Documentation-3.6|the ROI module documentation]]), which can be defined outside CropVolume, or by creating new MRMLROINode from the selector menu. The ROI can be adjusted using the widget handles in 3D view panel and/or in the 2D slice view panels.
 
** '''ROI visibility''' allows to turn the visibility of the 3D widget on or off in the 3D view panel.
 
** '''ROI visibility''' allows to turn the visibility of the 3D widget on or off in the 3D view panel.
** '''Output volume''' is the volume node where the result of ROI extraction will be stored. Note, that the output volume cannot be identical to the input volume. The module will give you an error if this is the case.
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** '''Interpolation options'''
** '''Input spacing scaling constant''' is the coefficient used to determine the spacing of the output volume. The output spacing is defined by multiplying the input spacing in each dimension by the user-specified coefficient. For example, if the input spacing is 1x1x1.4, and the scaling coefficient is 0.5, the output volume will have spacing 0.5x0.5x0.7, effectively doubling the resolution of the output image.
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*** '''Isotropic output voxel''' if this checkbox is selected, the output image will have isotropic spacing, with the voxel size of the output image in each dimension equal to the ''smallest'' voxel dimension of the input image multiplied by the scaling constant.
** '''Isotropic voxel size''' if this checkbox is selected, the output image will have isotropic spacing, with the voxel size of the output image in each dimension equal to the ''smallest'' voxel dimension of the input image multiplied by the scaling constant.
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*** '''Input spacing scaling constant''' is the coefficient used to determine the spacing of the output volume. The output spacing is defined by multiplying the input spacing in each dimension by the user-specified coefficient. For example, if the input spacing is 1x1x1.4, and the scaling coefficient is 0.5, the output volume will have spacing 0.5x0.5x0.7, effectively doubling the resolution of the output image.
** '''Interpolation type''' allows to select between Nearest Neighbor, Linear or Cubic interpolators. For subvolumes being extracted from a label volume, you should use Nearest Neighbor interpolator. Otherwise Cubic is the preferred choice. Linear interpolator requires less computation, which may be important for very large ROIs.
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*** '''Interpolator''' allows to select between Nearest Neighbor, Linear, Windowed Sinc or B-spline interpolators (see [[Documentation/4.0/Modules/ResampleScalarVectorDWIVolume | Resample Scalar/Vector/DWI Volume]] for details). For subvolumes being extracted from a label volume, you should use Nearest Neighbor interpolator. Otherwise B-spline is the preferred choice. Linear interpolator requires less computation, which may be important for very large ROIs.
** '''Do ROI resample''' initiates the subvolume extraction based on the inputs and parameters.
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** '''Crop!''' button initiates the subvolume extraction based on the inputs and parameters.
 
 
* '''Viewing panel:''' Size and location of the ROI can be modified using one of the two methods. First, this can be done in 3D View by moving the colored handles of the ROI widget. Second, the ROI can be adjusted in the slice views. ''Right mouse button click'' adjusts the bounds of the ROI. ''Left mouse button click'' moves the center of ROI to be the point where the click was made.
 
  
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{|
 
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|[[Image:Slicer4_ExtractSubvolumeROI_controls.jpg|thumb|400px|CropVolume control panel]]
[[Image:ExtractSubvolumeROI_input_spacing.jpg|thumb|200px|Input image]]
 
  
|[[Image:ExtractSubvolumeROI_output_spacing.jpg|thumb|200px|Cropped subvolume with scaling constant 0.5 -- note the difference in the image spacing]]
 
 
|}
 
|}
  
{|
 
|[[Image:ExtractSubvolumeROI_controls.jpg|thumb|250px|CropVolume control panel]]
 
 
|[[Image:ExtractSubvolumeROI_resize.jpg|thumb|200px|Intersection of the ROI with the slice is shown in semi-transparent blue]]
 
 
|}
 
|}
  
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'''Cropping of oblique sub-volumes''' can be done by placing either or both of input volume and ROI under transform(s). These transforms will be taken into account while preparing the output.
  
 
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* Point to other modules that have similar functionality
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* [[Documentation/4.0/Modules/ResampleScalarVectorDWIVolume | Resample Scalar/Vector/DWI Volume]]
  
 
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Publications related to this module go here. Links to pdfs would be useful.
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N/A
For extensions: link to the source code repository and additional documentation
 
  
 
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Latest revision as of 07:36, 14 June 2013

Home < Documentation < 4.0 < Modules < CropVolume


For the latest Slicer documentation, visit the read-the-docs.



Introduction and Acknowledgements

This work is part of the National Alliance for Medical Image Computing (NA-MIC), funded by the National Institutes of Health through the NIH Roadmap for Medical Research, Grant U54 EB005149. Information on NA-MIC can be obtained from the NA-MIC website. The development of this module was supported in part by NIH CA111288 and CA151261.
Author: Andrey Fedorov, Ron Kikinis, SPL
Contact: Andrey Fedorov, <email>fedorov@bwh.harvard.edu</email>

NA-MIC  
NCIGT  
SPL  

Module Description

This module allows to extract rectangular subvolume from a scalar image, with the subvolume defined by Slicer ROI widget.

You can use this module to crop a DTI or DWI volume.

The cropping functionality of this module is enabled by Resample Scalar/Vector/DWI Volume module, which is called internally.

Use Cases

Most frequently used for these scenarios:

  • You are trying to segment an object that occupies small portion of the image. Cropping the ROI with that object can simplify your segmentation task and reduce both the memory requirements and processing time.
  • You are trying to register two objects that occupy smaller portions of the image. In this scenario, cropping will allow you to focus the processing at the region of interest, and simplify registration initialization.
Input image and ROI
Cropped subvolume


Tutorials

Not available at this time, but see the list of Slicer 3.6 tutorials that use CropVolume here: Modules:CropVolume-Documentation-3.6.

Panels and their use

  • Input/initialization parameters panel:
    • Input volume defines the input image from which you need to crop a subvolume. Output volume will be created automatically.
    • ROI is a Region of Interest (see the ROI module documentation), which can be defined outside CropVolume, or by creating new MRMLROINode from the selector menu. The ROI can be adjusted using the widget handles in 3D view panel and/or in the 2D slice view panels.
    • ROI visibility allows to turn the visibility of the 3D widget on or off in the 3D view panel.
    • Interpolation options
      • Isotropic output voxel if this checkbox is selected, the output image will have isotropic spacing, with the voxel size of the output image in each dimension equal to the smallest voxel dimension of the input image multiplied by the scaling constant.
      • Input spacing scaling constant is the coefficient used to determine the spacing of the output volume. The output spacing is defined by multiplying the input spacing in each dimension by the user-specified coefficient. For example, if the input spacing is 1x1x1.4, and the scaling coefficient is 0.5, the output volume will have spacing 0.5x0.5x0.7, effectively doubling the resolution of the output image.
      • Interpolator allows to select between Nearest Neighbor, Linear, Windowed Sinc or B-spline interpolators (see Resample Scalar/Vector/DWI Volume for details). For subvolumes being extracted from a label volume, you should use Nearest Neighbor interpolator. Otherwise B-spline is the preferred choice. Linear interpolator requires less computation, which may be important for very large ROIs.
    • Crop! button initiates the subvolume extraction based on the inputs and parameters.
CropVolume control panel

Cropping of oblique sub-volumes can be done by placing either or both of input volume and ROI under transform(s). These transforms will be taken into account while preparing the output.

Similar Modules

References

N/A

Information for Developers

Work in progress
 Section under construction.


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