Package org.itk.simple
Class CurvatureFlowImageFilter
java.lang.Object
org.itk.simple.ProcessObject
org.itk.simple.ImageFilter
org.itk.simple.CurvatureFlowImageFilter
Denoise an image using curvature driven flow.
CurvatureFlowImageFilter implements a curvature driven image denoising algorithm. Iso-
brightness contours in the grayscale input image are viewed as a level
set. The level set is then evolved using a curvature-based speed
function:
\\[ I_t = \\kappa |\\nabla I| \\] where $ \\kappa $ is the curvature.
The advantage of this approach is that sharp boundaries are preserved
with smoothing occurring only within a region. However, it should be
noted that continuous application of this scheme will result in the
eventual removal of all information as each contour shrinks to zero
and disappear.
Note that unlike level set segmentation algorithms, the image to be
denoised is already the level set and can be set directly as the input
using the SetInput() method.
This filter has two parameters: the number of update iterations to be
performed and the timestep between each update.
The timestep should be "small enough" to ensure numerical stability.
Stability is guarantee when the timestep meets the CFL (Courant-
Friedrichs-Levy) condition. Broadly speaking, this condition ensures
that each contour does not move more than one grid position at each
timestep. In the literature, the timestep is typically user specified
and have to manually tuned to the application.
This filter make use of the multi-threaded finite difference solver
hierarchy. Updates are computed using a CurvatureFlowFunction object. A zero flux Neumann boundary condition when computing
derivatives near the data boundary.
This filter may be streamed. To support streaming this filter produces
a padded output which takes into account edge effects. The size of the
padding is m_NumberOfIterations on each edge. Users of this filter
should only make use of the center valid central region.
WARNING:
This filter assumes that the input and output types have the same
dimensions. This filter also requires that the output image pixels are
of a floating point type. This filter works for any dimensional
images.
Reference: "Level Set Methods and Fast Marching Methods", J.A.
Sethian, Cambridge Press, Chapter 16, Second edition, 1999.
See:
DenseFiniteDifferenceImageFilter
CurvatureFlowFunction
MinMaxCurvatureFlowImageFilter
BinaryMinMaxCurvatureFlowImageFilter
itk::simple::CurvatureFlow for the procedural interface
itk::CurvatureFlowImageFilter for the Doxygen on the original ITK class.
C++ includes: sitkCurvatureFlowImageFilter.h
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Field Summary
Fields inherited from class org.itk.simple.ProcessObject
swigCMemOwn
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Constructor Summary
ConstructorsModifierConstructorDescriptionitk::simple::CurvatureFlowImageFilter::CurvatureFlowImageFilter() Default Constructor that takes no arguments and initializes default parametersprotected
CurvatureFlowImageFilter
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Method Summary
Modifier and TypeMethodDescriptionvoid
delete()
virtual itk::simple::CurvatureFlowImageFilter::~CurvatureFlowImageFilter() DestructorImage itk::simple::CurvatureFlowImageFilter::Execute(Image &&image1) Execute the filter on the input imageprotected void
finalize()
protected static long
getName()
std::string itk::simple::CurvatureFlowImageFilter::GetName() const Name of this classlong
uint32_t itk::simple::CurvatureFlowImageFilter::GetNumberOfIterations() constdouble
double itk::simple::CurvatureFlowImageFilter::GetTimeStep() const Get the timestep parameter.void
setNumberOfIterations
(long NumberOfIterations) Self& itk::simple::CurvatureFlowImageFilter::SetNumberOfIterations(uint32_t NumberOfIterations)void
setTimeStep
(double TimeStep) Self& itk::simple::CurvatureFlowImageFilter::SetTimeStep(double TimeStep) Set the timestep parameter.protected static long
toString()
std::string itk::simple::CurvatureFlowImageFilter::ToString() const Print ourselves outMethods inherited from class org.itk.simple.ImageFilter
getCPtr, swigRelease
Methods inherited from class org.itk.simple.ProcessObject
abort, addCommand, debugOff, debugOn, getCPtr, getDebug, getGlobalDefaultCoordinateTolerance, getGlobalDefaultDebug, getGlobalDefaultDirectionTolerance, getGlobalDefaultNumberOfThreads, getGlobalDefaultThreader, getGlobalWarningDisplay, getNumberOfThreads, getNumberOfWorkUnits, getProgress, globalDefaultDebugOff, globalDefaultDebugOn, globalWarningDisplayOff, globalWarningDisplayOn, hasCommand, removeAllCommands, setDebug, setGlobalDefaultCoordinateTolerance, setGlobalDefaultDebug, setGlobalDefaultDirectionTolerance, setGlobalDefaultNumberOfThreads, setGlobalDefaultThreader, setGlobalWarningDisplay, setNumberOfThreads, setNumberOfWorkUnits, swigRelease
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Constructor Details
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CurvatureFlowImageFilter
protected CurvatureFlowImageFilter(long cPtr, boolean cMemoryOwn) -
CurvatureFlowImageFilter
public CurvatureFlowImageFilter()itk::simple::CurvatureFlowImageFilter::CurvatureFlowImageFilter() Default Constructor that takes no arguments and initializes default parameters
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Method Details
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getCPtr
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swigRelease
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finalize
protected void finalize()- Overrides:
finalize
in classImageFilter
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delete
public void delete()virtual itk::simple::CurvatureFlowImageFilter::~CurvatureFlowImageFilter() Destructor- Overrides:
delete
in classImageFilter
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setTimeStep
public void setTimeStep(double TimeStep) Self& itk::simple::CurvatureFlowImageFilter::SetTimeStep(double TimeStep) Set the timestep parameter. -
getTimeStep
public double getTimeStep()double itk::simple::CurvatureFlowImageFilter::GetTimeStep() const Get the timestep parameter. -
setNumberOfIterations
public void setNumberOfIterations(long NumberOfIterations) Self& itk::simple::CurvatureFlowImageFilter::SetNumberOfIterations(uint32_t NumberOfIterations) -
getNumberOfIterations
public long getNumberOfIterations()uint32_t itk::simple::CurvatureFlowImageFilter::GetNumberOfIterations() const -
getName
std::string itk::simple::CurvatureFlowImageFilter::GetName() const Name of this class- Overrides:
getName
in classProcessObject
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toString
std::string itk::simple::CurvatureFlowImageFilter::ToString() const Print ourselves out- Overrides:
toString
in classProcessObject
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execute
Image itk::simple::CurvatureFlowImageFilter::Execute(Image &&image1) Execute the filter on the input image
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