Uses of Class
de.unihalle.informatik.MiToBo.core.datatypes.images.MTBImageDouble

Packages that use MTBImageDouble
de.unihalle.informatik.MiToBo.core.datatypes.images Contains MiToBo image data types. 
de.unihalle.informatik.MiToBo.fields Provides classes for calculating gradient vector flow fields, image gradient fields, potential fields and other possible fields from different data sources. 
de.unihalle.informatik.MiToBo.filters.linear.anisotropic   
de.unihalle.informatik.MiToBo.filters.vesselness Provides various operators for enhancing vessel-like structures in images. 
 

Uses of MTBImageDouble in de.unihalle.informatik.MiToBo.core.datatypes.images
 

Methods in de.unihalle.informatik.MiToBo.core.datatypes.images that return MTBImageDouble
 MTBImageDouble MTBImage.scaleValues(int c, int t, double curMin, double curMax, double scaleMin, double scaleMax)
          Method to scale the intensity values (range [curMin, curMax]) of the image to a given range [scaleMin, scaleMax].
 

Uses of MTBImageDouble in de.unihalle.informatik.MiToBo.fields
 

Methods in de.unihalle.informatik.MiToBo.fields that return MTBImageDouble
 MTBImageDouble FieldOperations2D.getVectorFieldImage()
          Get the operation based 2D vector field image.
 

Methods in de.unihalle.informatik.MiToBo.fields with parameters of type MTBImageDouble
 void FieldOperations2D.setVectorFieldImage(MTBImageDouble inFieldImage)
          Set the operation based 2D vector field image.
 

Constructors in de.unihalle.informatik.MiToBo.fields with parameters of type MTBImageDouble
FieldOperations2D(MTBVectorField2D inField, MTBImageDouble inFieldImage, FieldOperations2D.FieldOperation op)
          Constructor to create a new field operation operator.
 

Uses of MTBImageDouble in de.unihalle.informatik.MiToBo.filters.linear.anisotropic
 

Fields in de.unihalle.informatik.MiToBo.filters.linear.anisotropic declared as MTBImageDouble
protected  MTBImageDouble OrientedFilter2DBatchAnalyzer.responseStack
          Stack with filter responses of all orientations.
protected  MTBImageDouble OrientedFilter2DBatchAnalyzer.resultImg
          Result image.
protected  MTBImageDouble OrientedFilter2D.resultImg
          Filtered image.
 

Methods in de.unihalle.informatik.MiToBo.filters.linear.anisotropic that return MTBImageDouble
protected  MTBImageDouble GaborFilter2D.getComplexKernel(double _angle)
          Generates the sinus filter mask of the complex part of the Gabor filter.
 MTBImageDouble OrientedFilter2DBatchAnalyzer.getFilterResponseStack()
          Get individual filter responses.
protected  MTBImageDouble GaborFilter2D.getGaussianKernel(double _angle)
          Generates the Gaussian part of the Gabor kernel for a given orientation.
abstract  MTBImageDouble OrientedFilter2D.getKernel(double _angle)
          Calculates kernel for the given orientation.
 MTBImageDouble GaussPDxxFilter2D.getKernel(double _angle)
          Calculates Gaussian derivative kernel for given parameters.
 MTBImageDouble GaussPDxFilter2D.getKernel(double _angle)
          Calculates Gaussian derivative kernel for given parameters.
 MTBImageDouble GaborFilter2D.getKernel(double _angle)
          Calculates kernel for given angle and pre-defined sigmas.
 MTBImageDouble ChaudhuriMatchedFilter2D.getKernel(double _angle)
          Calculates kernel for given angle and pre-defined sigma and length.
protected  MTBImageDouble GaborFilter2D.getRealKernel(double _angle)
          Generates the cosine filter mask of the complex part of the Gabor filter.
 MTBImageDouble OrientedFilter2DBatchAnalyzer.getResultImage()
          Get result image.
 MTBImageDouble OrientedFilter2D.getResultImage()
          Get result image.
 

Uses of MTBImageDouble in de.unihalle.informatik.MiToBo.filters.vesselness
 

Methods in de.unihalle.informatik.MiToBo.filters.vesselness that return MTBImageDouble
 MTBImageDouble MedialnessMultiScaleFilter2D.getOutputImage()
          Get medialness filter image.
 MTBImageDouble MPMFFilter2D.getResponseStack()
          Returns stack with intermediate (non-binary) results.
 



Copyright © 2010–2015 Martin Luther University Halle-Wittenberg. All rights reserved.