ITK  5.0.0
Insight Segmentation and Registration Toolkit
Examples/RegistrationITKv3/DeformableRegistration16.cxx
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/*******************************************************************************
Abstract: - Multiresolution demons registration - 4 multiresolution levels
Created: June 25 2008
Last Revision 7/9/2008
by Vidya Rajagopalan on 7/9/2008
Copyright (c) 2008, Bioimaging Systems Lab, Virginia Tech
All rights reserved.
Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:
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// Software Guide : BeginLatex
//
// This example illustrates the use of the
// \doxygen{MultiResolutionPDEDeformableRegistration} class for performing
// deformable registration of two $2D$ images using multiple resolution levels.
//
// The MultiResolution filter drives a DemonsRegistrationFilter
// at every level of resolution in the pyramid.
//
// \index{itk::MultiResolutionPDEDeformableRegistration}
// \index{itk::DemonsRegistrationFilter}
//
// Software Guide : EndLatex
//
// CREDITS:
//
// This example was contributed to ITK by
//
// Vidya Rajagopalan, Bioimaging Systems Lab, Virginia Tech
//
// The example was improved during the NAMIC programming week on July 2008
// http://wiki.na-mic.org/Wiki/index.php/2008_Summer_Project_Week
//
// National Alliance for Medical Image Computing (NAMIC),
// funded by the National Institutes of Health
// through the NIH Roadmap for Medical Research,
// Grant U54 EB005149.
//
// Data for these examples have been contributed by
//
// Paul Laurienti, Wake Forest University School of Medicine,
// Data acquired under NIH grant number NS042568
//
//
#include <iostream>
#include <cstdlib>
// ITK IO includes
// ITK Registration includes
unsigned int RmsCounter = 0;
double MaxRmsE[4] = {0.8, 0.75, 0.4, 0.2};
//
// The following section of code implements a Command observer
// that will monitor the evolution of the registration process.
// This observer has a layer of intelligence, for deciding what
// MaximumRMS convergence criteria to use at every resolution level.
//
class CommandIterationUpdate : public itk::Command
{
public:
using Self = CommandIterationUpdate;
using Superclass = itk::Command;
using Pointer = itk::SmartPointer<Self>;
itkNewMacro( Self );
protected:
CommandIterationUpdate() {};
// define ITK short-hand types
using PixelType = short;
using InternalPixelType = float;
using ImageType = itk::Image< PixelType, 2 >;
using InternalImageType = itk::Image< InternalPixelType, 2 >;
using VectorPixelType = itk::Vector< float, 2 >;
using DisplacementFieldType = itk::Image< VectorPixelType, 2 >;
using RegistrationFilterType = itk::DemonsRegistrationFilter< InternalImageType,
InternalImageType, DisplacementFieldType>;
public:
void Execute(const itk::Object *, const itk::EventObject & ) override
{
std::cout << "Warning: The const Execute method shouldn't be called" << std::endl;
}
void Execute(itk::Object *caller, const itk::EventObject & event) override
{
RegistrationFilterType * filter = static_cast< RegistrationFilterType * >( caller );
if( !(itk::IterationEvent().CheckEvent( &event )) )
{
return;
}
if(filter)
{
filter->SetMaximumRMSError(MaxRmsE[RmsCounter]);
std::cout << filter->GetMetric() << " RMS Change: " << filter->GetRMSChange() << std::endl;
std::cout << "Level Tolerance= "<<filter->GetMaximumRMSError ()<<std::endl;
}
}
};
//
// The following command observer reports the progress of the registration
// inside a given resolution level.
//
class CommandResolutionLevelUpdate : public itk::Command
{
public:
using Self = CommandResolutionLevelUpdate;
using Superclass = itk::Command;
using Pointer = itk::SmartPointer<Self>;
itkNewMacro( Self );
protected:
CommandResolutionLevelUpdate() {};
public:
void Execute(itk::Object *caller, const itk::EventObject & event) override
{
Execute( (const itk::Object *)caller, event);
}
void Execute(const itk::Object *, const itk::EventObject & ) override
{
std::cout << "----------------------------------" << std::endl;
RmsCounter = RmsCounter + 1;
std::cout << "----------------------------------" << std::endl;
}
};
int main( int argc, char * argv [] )
{
// Verify the number of parameters in the command line
if( argc != 5 )
{
std::cerr << "usage: " << std::endl;
std::cerr << argv[0] << " fixedImage movingImage registeredImage deformationField" << std::endl;
return EXIT_FAILURE;
}
// define ITK short-hand types
constexpr unsigned int Dimension = 2;
using PixelType = short;
using InternalPixelType = float;
using InternalImageType = itk::Image< InternalPixelType, Dimension >;
// setup input file readers
ReaderType::Pointer targetReader = ReaderType::New();
targetReader->SetFileName( argv[1] );
targetReader->Update();
ReaderType::Pointer sourceReader = ReaderType::New();
sourceReader->SetFileName( argv[2] );
sourceReader->Update();
// cast target and source to float
ImageCasterType::Pointer targetImageCaster = ImageCasterType::New();
ImageCasterType::Pointer sourceImageCaster = ImageCasterType::New();
targetImageCaster->SetInput( targetReader->GetOutput() );
sourceImageCaster->SetInput( sourceReader->GetOutput() );
// match the histograms between source and target
using MatchingFilterType = itk::HistogramMatchingImageFilter<
InternalImageType, InternalImageType >;
MatchingFilterType::Pointer matcher = MatchingFilterType::New();
matcher->SetInput( sourceImageCaster->GetOutput() );
matcher->SetReferenceImage( targetImageCaster->GetOutput() );
matcher->SetNumberOfHistogramLevels( 1024 );
matcher->SetNumberOfMatchPoints( 7 );
matcher->ThresholdAtMeanIntensityOn();
// setup the deformation field and filter
using VectorPixelType = itk::Vector< float, Dimension >;
using DisplacementFieldType = itk::Image< VectorPixelType, Dimension >;
using RegistrationFilterType = itk::DemonsRegistrationFilter<
InternalImageType,
InternalImageType,
DisplacementFieldType>;
RegistrationFilterType::Pointer filter = RegistrationFilterType::New();
filter->SetStandardDeviations( 1.0 );
//
// Create the Command observer and register it with the registration filter.
//
CommandIterationUpdate::Pointer observer = CommandIterationUpdate::New();
filter->AddObserver( itk::IterationEvent(), observer );
// use multiresolution scheme
using MultiResRegistrationFilterType = itk::MultiResolutionPDEDeformableRegistration<
InternalImageType,
InternalImageType,
DisplacementFieldType >;
MultiResRegistrationFilterType::Pointer multires =
MultiResRegistrationFilterType::New();
multires->SetRegistrationFilter( filter );
multires->SetNumberOfLevels( 4 );
multires->SetFixedImage( targetImageCaster->GetOutput() );
multires->SetMovingImage( matcher->GetOutput() );
unsigned int nIterations[4] = {40, 40, 32, 32 };
multires->SetNumberOfIterations( nIterations );
//
// Create the Command observer and register it with the registration filter.
//
CommandResolutionLevelUpdate::Pointer levelobserver = CommandResolutionLevelUpdate::New();
multires->AddObserver( itk::IterationEvent(), levelobserver );
// apply the registration filter
try
{
multires->Update();
}
catch( itk::ExceptionObject & excp )
{
std::cerr << excp << std::endl;
return EXIT_FAILURE;
}
// compute the output (warped) image
WarperType::Pointer warper = WarperType::New();
InterpolatorType::Pointer interpolator = InterpolatorType::New();
ImageType::Pointer targetImage = targetReader->GetOutput();
warper->SetInput( sourceReader->GetOutput() );
warper->SetInterpolator( interpolator );
warper->SetOutputSpacing( targetImage->GetSpacing() );
warper->SetOutputOrigin( targetImage->GetOrigin() );
warper->SetOutputDirection( targetImage->GetDirection() );
warper->SetDisplacementField( multires->GetOutput() );
WriterType::Pointer writer = WriterType::New();
writer->SetFileName( argv[3] );
writer->SetInput( warper->GetOutput() );
try
{
writer->Update();
}
catch( itk::ExceptionObject & excp )
{
std::cerr << excp << std::endl;
return EXIT_FAILURE;
}
// write the deformation field
using DeformationWriterType = itk::ImageFileWriter< DisplacementFieldType >;
DeformationWriterType::Pointer defwriter = DeformationWriterType::New();
defwriter->SetFileName( argv[4] );
defwriter->SetInput( multires->GetOutput() );
try
{
defwriter->Update();
}
catch( itk::ExceptionObject & excp )
{
std::cerr << excp << std::endl;
return EXIT_FAILURE;
}
return EXIT_SUCCESS;
}