ITK/Examples/SpectralAnalysis/CrossCorrelationInFourierDomain: Difference between revisions
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// Compute the FFT of the input | // Compute the FFT of the input | ||
typedef itk::VnlFFTRealToComplexConjugateImageFilter< | typedef itk::VnlFFTRealToComplexConjugateImageFilter< FloatImageType > FFTFilterType; | ||
FFTFilterType::Pointer fixedFFTFilter = FFTFilterType::New(); | FFTFilterType::Pointer fixedFFTFilter = FFTFilterType::New(); | ||
fixedFFTFilter->SetInput( fixedFFTShiftFilter->GetOutput() ); | fixedFFTFilter->SetInput( fixedFFTShiftFilter->GetOutput() ); | ||
Line 95: | Line 94: | ||
// IFFT | // IFFT | ||
typedef itk::VnlFFTComplexConjugateToRealImageFilter< | typedef itk::VnlFFTComplexConjugateToRealImageFilter< SpectralImageType > IFFTFilterType; | ||
IFFTFilterType::Pointer fftInverseFilter = IFFTFilterType::New(); | IFFTFilterType::Pointer fftInverseFilter = IFFTFilterType::New(); | ||
fftInverseFilter->SetInput( multiplyFilter->GetOutput() ); | fftInverseFilter->SetInput( multiplyFilter->GetOutput() ); |
Revision as of 14:36, 16 April 2011
CrossCorrelationInFourierDomain.cxx
<source lang="cpp">
- include "itkImage.h"
- include "itkImageFileReader.h"
- include "itkImageFileWriter.h"
- include "itkVnlFFTRealToComplexConjugateImageFilter.h"
- include "itkVnlFFTComplexConjugateToRealImageFilter.h"
- include "itkComplexToRealImageFilter.h"
- include "itkComplexToImaginaryImageFilter.h"
- include "itkRealAndImaginaryToComplexImageFilter.h"
- include "itkMultiplyByConstantImageFilter.h"
- include "itkMultiplyImageFilter.h"
- include "itkRescaleIntensityImageFilter.h"
- include "itkFFTShiftImageFilter.h"
- include "itkMinimumMaximumImageCalculator.h"
int main(int argc, char*argv[]) {
const unsigned int Dimension = 2; typedef float PixelType; typedef itk::Image< PixelType, Dimension > FloatImageType; typedef itk::Image< unsigned char, Dimension > UnsignedCharImageType;
if( argc < 3 ) { std::cerr << "Missing Parameters " << std::endl; std::cerr << "Usage: " << argv[0]; std::cerr << " FixedImage MovingImage"<< std::endl;; return EXIT_FAILURE; } std::string fixedImageFilename = argv[1]; std::string movingImageFilename = argv[2];
// Read the input images typedef itk::ImageFileReader< FloatImageType > ImageReaderType; ImageReaderType::Pointer fixedImageReader = ImageReaderType::New(); fixedImageReader->SetFileName( fixedImageFilename ); fixedImageReader->Update(); ImageReaderType::Pointer movingImageReader = ImageReaderType::New(); movingImageReader->SetFileName( movingImageFilename ); movingImageReader->Update();
// Shift the input images typedef itk::FFTShiftImageFilter< FloatImageType, FloatImageType > FFTShiftFilterType; FFTShiftFilterType::Pointer fixedFFTShiftFilter = FFTShiftFilterType::New(); fixedFFTShiftFilter->SetInput(fixedImageReader->GetOutput()); fixedFFTShiftFilter->Update();
FFTShiftFilterType::Pointer movingFFTShiftFilter = FFTShiftFilterType::New(); movingFFTShiftFilter->SetInput(movingImageReader->GetOutput()); movingFFTShiftFilter->Update(); // Compute the FFT of the input typedef itk::VnlFFTRealToComplexConjugateImageFilter< FloatImageType > FFTFilterType; FFTFilterType::Pointer fixedFFTFilter = FFTFilterType::New(); fixedFFTFilter->SetInput( fixedFFTShiftFilter->GetOutput() ); fixedFFTFilter->Update(); FFTFilterType::Pointer movingFFTFilter = FFTFilterType::New(); movingFFTFilter->SetInput( movingFFTShiftFilter->GetOutput() ); typedef FFTFilterType::OutputImageType SpectralImageType;
// Take the conjugate of the fftFilterMoving // Extract the real part typedef itk::ComplexToRealImageFilter<SpectralImageType, FloatImageType> RealFilterType; RealFilterType::Pointer realFilter = RealFilterType::New(); realFilter->SetInput(movingFFTFilter->GetOutput());
// Extract the imaginary part typedef itk::ComplexToImaginaryImageFilter<SpectralImageType, FloatImageType> ImaginaryFilterType; ImaginaryFilterType::Pointer imaginaryFilter = ImaginaryFilterType::New(); imaginaryFilter->SetInput(movingFFTFilter->GetOutput());
// Flip the sign of the imaginary and combine with the real part again typedef itk::MultiplyByConstantImageFilter<FloatImageType,PixelType,FloatImageType> MultiplyConstantFilterType; MultiplyConstantFilterType::Pointer flipSignFilter = MultiplyConstantFilterType::New(); flipSignFilter->SetConstant(-1); flipSignFilter->SetInput(imaginaryFilter->GetOutput()); typedef itk::RealAndImaginaryToComplexImageFilter<PixelType,PixelType,PixelType,2> RealImagToComplexFilterType; RealImagToComplexFilterType::Pointer conjugateFilter = RealImagToComplexFilterType::New(); conjugateFilter->SetInput1(realFilter->GetOutput()); conjugateFilter->SetInput2(flipSignFilter->GetOutput());
// The conjugate product of the spectrum typedef itk::MultiplyImageFilter< SpectralImageType, SpectralImageType, SpectralImageType > MultiplyFilterType; MultiplyFilterType::Pointer multiplyFilter = MultiplyFilterType::New(); multiplyFilter->SetInput1( fixedFFTFilter->GetOutput() ); multiplyFilter->SetInput2( conjugateFilter->GetOutput() );
// IFFT typedef itk::VnlFFTComplexConjugateToRealImageFilter< SpectralImageType > IFFTFilterType; IFFTFilterType::Pointer fftInverseFilter = IFFTFilterType::New(); fftInverseFilter->SetInput( multiplyFilter->GetOutput() );
// Write the spectrum typedef itk::RescaleIntensityImageFilter< FloatImageType, UnsignedCharImageType > RescaleFilterType; RescaleFilterType::Pointer rescaler = RescaleFilterType::New(); rescaler->SetInput( fftInverseFilter->GetOutput() ); rescaler->SetOutputMinimum(0); rescaler->SetOutputMaximum(255); rescaler->Update(); typedef itk::ImageFileWriter< UnsignedCharImageType > WriterType; WriterType::Pointer writer = WriterType::New(); writer->SetFileName( "CrossCorr.png" ); writer->SetInput( rescaler->GetOutput() ); writer->Update();
typedef itk::MinimumMaximumImageCalculator <UnsignedCharImageType> ImageCalculatorFilterType;
ImageCalculatorFilterType::Pointer imageCalculatorFilter = ImageCalculatorFilterType::New (); imageCalculatorFilter->SetImage(rescaler->GetOutput()); imageCalculatorFilter->Compute(); UnsignedCharImageType::IndexType maximumLocation = imageCalculatorFilter->GetIndexOfMaximum(); std::cout << maximumLocation << std::endl; // should be (17,15) /* if ypeak < size(I,1)/2 ypeak = -(ypeak-1); else ypeak = size(I,1) - (ypeak-1); end if xpeak < size(I,2)/2 xpeak = -(xpeak-1); else xpeak = size(I,2) - (xpeak-1); end */ return EXIT_SUCCESS;
} </source>
CMakeLists.txt
<syntaxhighlight lang="cmake"> cmake_minimum_required(VERSION 3.9.5)
project(CrossCorrelationInFourierDomain)
find_package(ITK REQUIRED) include(${ITK_USE_FILE}) if (ITKVtkGlue_LOADED)
find_package(VTK REQUIRED) include(${VTK_USE_FILE})
endif()
add_executable(CrossCorrelationInFourierDomain MACOSX_BUNDLE CrossCorrelationInFourierDomain.cxx)
if( "${ITK_VERSION_MAJOR}" LESS 4 )
target_link_libraries(CrossCorrelationInFourierDomain ITKReview ${ITK_LIBRARIES})
else( "${ITK_VERSION_MAJOR}" LESS 4 )
target_link_libraries(CrossCorrelationInFourierDomain ${ITK_LIBRARIES})
endif( "${ITK_VERSION_MAJOR}" LESS 4 )
</syntaxhighlight>
Download and Build CrossCorrelationInFourierDomain
Click here to download CrossCorrelationInFourierDomain and its CMakeLists.txt file. Once the tarball CrossCorrelationInFourierDomain.tar has been downloaded and extracted,
cd CrossCorrelationInFourierDomain/build
- If ITK is installed:
cmake ..
- If ITK is not installed but compiled on your system, you will need to specify the path to your ITK build:
cmake -DITK_DIR:PATH=/home/me/itk_build ..
Build the project:
make
and run it:
./CrossCorrelationInFourierDomain
WINDOWS USERS PLEASE NOTE: Be sure to add the ITK bin directory to your path. This will resolve the ITK dll's at run time.
Building All of the Examples
Many of the examples in the ITK Wiki Examples Collection require VTK. You can build all of the the examples by following these instructions. If you are a new VTK user, you may want to try the Superbuild which will build a proper ITK and VTK.
ItkVtkGlue
ITK >= 4
For examples that use QuickView (which depends on VTK), you must have built ITK with Module_ITKVtkGlue=ON.
ITK < 4
Some of the ITK Examples require VTK to display the images. If you download the entire ITK Wiki Examples Collection, the ItkVtkGlue directory will be included and configured. If you wish to just build a few examples, then you will need to download ItkVtkGlue and build it. When you run cmake it will ask you to specify the location of the ItkVtkGlue binary directory.