/usr/include/ITK-4.5/itkCurvatureNDAnisotropicDiffusionFunction.h is in libinsighttoolkit4-dev 4.5.0-3.
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*
* Copyright Insight Software Consortium
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0.txt
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*=========================================================================*/
#ifndef __itkCurvatureNDAnisotropicDiffusionFunction_h
#define __itkCurvatureNDAnisotropicDiffusionFunction_h
#include "itkScalarAnisotropicDiffusionFunction.h"
#include "itkNeighborhoodAlgorithm.h"
#include "itkNeighborhoodInnerProduct.h"
#include "itkDerivativeOperator.h"
namespace itk
{
/**
* \class CurvatureNDAnisotropicDiffusionFunction
*
* This class implements a variation on the classic, Perona-Malik anisotropic
* image diffusion equation as described in
* itkGradientNDAnisotropicDiffusionFunction. This object is a level-set
* analog of that equation and will be referred to below as the \em modified
* \em curvature \em diffusion \em equation (MCDE). MCDE does not exhibit
* the edge enhancing properties of classic anisotropic diffusion, which can under
* certain conditions undergo a ``negative'' diffusion,which enhances the
* contrast of edges. Equations of the form of MCDE always undergo positive
* diffusion, with the conductance term only varying the strength of that
* diffusion.
*
* \par
* Qualitatively, MCDE compares well with other non-linear diffusion
* techniques. It is less sensitive to contrast than classic Perona-Malik
* style diffusion, and preserves finer detailed structures in images.
* There is a potential speed trade-off for using this function in place of
* itkGradientNDAnisotropicDiffusionFunction. Each iteration of the solution
* takes roughly twice as long. Fewer iterations, however, may be required to
* reach an acceptable solution.
*
* \par
* The MCDE equation is given as:
*
* \f[ f_t = \mid \nabla f \mid \nabla \cdot c( \mid \nabla f \mid ) \frac{
* \nabla f }{ \mid \nabla f \mid } \f] ,
*
* \par
* where the conductance modified curvature term is
*
* \f[ \nabla \cdot \frac{\nabla f}{\mid \nabla f \mid} \f] .
*
* \par References
* R. Whitaker and X. Xue. Variable-Conductance, Level-Set Curvature for
* Image Denoising, International Conference on Image Processing, 2001
* pp. 142-145, Vol.3.
*
*
* \sa AnisotropicDiffusionFunction
* \ingroup FiniteDifferenceFunctions
* \ingroup ImageEnhancement
* \todo References
* \ingroup ITKAnisotropicSmoothing
*/
template< typename TImage >
class CurvatureNDAnisotropicDiffusionFunction:
public ScalarAnisotropicDiffusionFunction< TImage >
{
public:
/** Standard class typedefs. */
typedef CurvatureNDAnisotropicDiffusionFunction Self;
typedef ScalarAnisotropicDiffusionFunction< TImage > Superclass;
typedef SmartPointer< Self > Pointer;
typedef SmartPointer< const Self > ConstPointer;
/** Method for creation through the object factory. */
itkNewMacro(Self);
/** Run-time type information (and related methods) */
itkTypeMacro(CurvatureNDAnisotropicDiffusionFunction,
ScalarAnisotropicDiffusionFunction);
/** Inherit some parameters from the superclass type. */
typedef typename Superclass::ImageType ImageType;
typedef typename Superclass::PixelType PixelType;
typedef typename Superclass::TimeStepType TimeStepType;
typedef typename Superclass::RadiusType RadiusType;
typedef typename Superclass::NeighborhoodType NeighborhoodType;
typedef typename Superclass::FloatOffsetType FloatOffsetType;
typedef typename NeighborhoodType::SizeValueType NeighborhoodSizeValueType;
/** Inherit some parameters from the superclass type. */
itkStaticConstMacro(ImageDimension, unsigned int, Superclass::ImageDimension);
/** Compute incremental update. */
virtual PixelType ComputeUpdate(const NeighborhoodType & neighborhood,
void *globalData,
const FloatOffsetType & offset = FloatOffsetType(0.0)
);
/** This method is called prior to each iteration of the solver. */
virtual void InitializeIteration()
{
m_K = static_cast< PixelType >( this->GetAverageGradientMagnitudeSquared()
* this->GetConductanceParameter()
* this->GetConductanceParameter() * -2.0f );
}
protected:
CurvatureNDAnisotropicDiffusionFunction();
~CurvatureNDAnisotropicDiffusionFunction() {}
private:
CurvatureNDAnisotropicDiffusionFunction(const Self &); //purposely not
// implemented
void operator=(const Self &); //purposely not
// implemented
/** Inner product function. */
NeighborhoodInnerProduct< ImageType > m_InnerProduct;
/** Slices for the ND neighborhood. */
std::slice x_slice[ImageDimension];
std::slice xa_slice[ImageDimension][ImageDimension];
std::slice xd_slice[ImageDimension][ImageDimension];
/** Derivative operator */
DerivativeOperator< PixelType, itkGetStaticConstMacro(ImageDimension) > dx_op;
/** Modified global average gradient magnitude term. */
PixelType m_K;
/** */
static double m_MIN_NORM;
NeighborhoodSizeValueType m_Center;
NeighborhoodSizeValueType m_Stride[ImageDimension];
};
} // end namespace itk
#ifndef ITK_MANUAL_INSTANTIATION
#include "itkCurvatureNDAnisotropicDiffusionFunction.hxx"
#endif
#endif
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