diff --git a/Modules/DiffusionImaging/FiberTracking/Algorithms/itkTractsToDWIImageFilter.cpp b/Modules/DiffusionImaging/FiberTracking/Algorithms/itkTractsToDWIImageFilter.cpp
index 3a6f40cecb..66891575b5 100644
--- a/Modules/DiffusionImaging/FiberTracking/Algorithms/itkTractsToDWIImageFilter.cpp
+++ b/Modules/DiffusionImaging/FiberTracking/Algorithms/itkTractsToDWIImageFilter.cpp
@@ -1,624 +1,631 @@
 /*===================================================================
 
 The Medical Imaging Interaction Toolkit (MITK)
 
 Copyright (c) German Cancer Research Center,
 Division of Medical and Biological Informatics.
 All rights reserved.
 
 This software is distributed WITHOUT ANY WARRANTY; without
 even the implied warranty of MERCHANTABILITY or FITNESS FOR
 A PARTICULAR PURPOSE.
 
 See LICENSE.txt or http://www.mitk.org for details.
 
 ===================================================================*/
 
 #include "itkTractsToDWIImageFilter.h"
 #include <boost/progress.hpp>
 #include <vtkSmartPointer.h>
 #include <vtkPolyData.h>
 #include <vtkCellArray.h>
 #include <vtkPoints.h>
 #include <vtkPolyLine.h>
 #include <itkImageRegionIteratorWithIndex.h>
 #include <mitkGibbsRingingArtifact.h>
 #include <itkResampleImageFilter.h>
 #include <itkNearestNeighborInterpolateImageFunction.h>
 #include <itkBSplineInterpolateImageFunction.h>
 #include <itkCastImageFilter.h>
 #include <itkImageFileWriter.h>
 #include <itkRescaleIntensityImageFilter.h>
 #include <itkWindowedSincInterpolateImageFunction.h>
 #include <itkResampleDwiImageFilter.h>
 
 namespace itk
 {
 TractsToDWIImageFilter::TractsToDWIImageFilter()
     : m_CircleDummy(false)
     , m_VolumeAccuracy(10)
     , m_Upsampling(1)
     , m_NumberOfRepetitions(1)
     , m_EnforcePureFiberVoxels(true)
+    , m_InterpolationShrink(5)
 {
     m_Spacing.Fill(2.5); m_Origin.Fill(0.0);
     m_DirectionMatrix.SetIdentity();
     m_ImageRegion.SetSize(0, 10);
     m_ImageRegion.SetSize(1, 10);
     m_ImageRegion.SetSize(2, 10);
 }
 
 TractsToDWIImageFilter::~TractsToDWIImageFilter()
 {
 
 }
 
 std::vector< TractsToDWIImageFilter::DoubleDwiType::Pointer > TractsToDWIImageFilter::AddKspaceArtifacts( std::vector< DoubleDwiType::Pointer >& images )
 {
     // create slice object
     SliceType::Pointer slice = SliceType::New();
     ImageRegion<2> region;
     region.SetSize(0, m_UpsampledImageRegion.GetSize()[0]);
     region.SetSize(1, m_UpsampledImageRegion.GetSize()[1]);
     slice->SetLargestPossibleRegion( region );
     slice->SetBufferedRegion( region );
     slice->SetRequestedRegion( region );
     slice->Allocate();
 
     boost::progress_display disp(images.size()*images[0]->GetVectorLength()*images[0]->GetLargestPossibleRegion().GetSize(2));
     std::vector< DoubleDwiType::Pointer > outImages;
     for (int i=0; i<images.size(); i++)
     {
         DoubleDwiType::Pointer image = images.at(i);
         DoubleDwiType::Pointer newImage = DoubleDwiType::New();
         newImage->SetSpacing( m_Spacing );
         newImage->SetOrigin( m_Origin );
         newImage->SetDirection( m_DirectionMatrix );
         newImage->SetLargestPossibleRegion( m_ImageRegion );
         newImage->SetBufferedRegion( m_ImageRegion );
         newImage->SetRequestedRegion( m_ImageRegion );
         newImage->SetVectorLength( image->GetVectorLength() );
         newImage->Allocate();
 
         DiffusionSignalModel<double>* signalModel;
         if (i<m_FiberModels.size())
             signalModel = m_FiberModels.at(i);
         else
             signalModel = m_NonFiberModels.at(i-m_FiberModels.size());
 
         for (int g=0; g<image->GetVectorLength(); g++)
             for (int z=0; z<image->GetLargestPossibleRegion().GetSize(2); z++)
             {
                 ++disp;
 
                 // extract slice from channel g
                 for (int y=0; y<image->GetLargestPossibleRegion().GetSize(1); y++)
                     for (int x=0; x<image->GetLargestPossibleRegion().GetSize(0); x++)
                     {
                         SliceType::IndexType index2D;
                         index2D[0]=x; index2D[1]=y;
                         DoubleDwiType::IndexType index3D;
                         index3D[0]=x; index3D[1]=y; index3D[2]=z;
 
                         SliceType::PixelType pix2D = image->GetPixel(index3D)[g];
                         slice->SetPixel(index2D, pix2D);
                     }
 
                 // fourier transform slice
                 itk::FFTRealToComplexConjugateImageFilter< SliceType::PixelType, 2 >::Pointer fft = itk::FFTRealToComplexConjugateImageFilter< SliceType::PixelType, 2 >::New();
                 fft->SetInput(slice);
                 fft->Update();
                 ComplexSliceType::Pointer fSlice = fft->GetOutput();
                 fSlice = RearrangeSlice(fSlice);
 
                 // add artifacts
                 for (int a=0; a<m_KspaceArtifacts.size(); a++)
                 {
                     m_KspaceArtifacts.at(a)->SetRelaxationT2(signalModel->GetRelaxationT2());
                     fSlice = m_KspaceArtifacts.at(a)->AddArtifact(fSlice);
                 }
 
                 // save k-space slice of s0 image
                 if (g==0)
                 for (int y=0; y<fSlice->GetLargestPossibleRegion().GetSize(1); y++)
                     for (int x=0; x<fSlice->GetLargestPossibleRegion().GetSize(0); x++)
                     {
                         DoubleDwiType::IndexType index3D;
                         index3D[0]=x; index3D[1]=y; index3D[2]=z;
                         SliceType::IndexType index2D;
                         index2D[0]=x; index2D[1]=y;
                         double kpix = sqrt(fSlice->GetPixel(index2D).real()*fSlice->GetPixel(index2D).real()+fSlice->GetPixel(index2D).imag()*fSlice->GetPixel(index2D).imag());
                         m_KspaceImage->SetPixel(index3D, kpix);
                     }
 
                 // inverse fourier transform slice
                 SliceType::Pointer newSlice;
                 itk::FFTComplexConjugateToRealImageFilter< SliceType::PixelType, 2 >::Pointer ifft = itk::FFTComplexConjugateToRealImageFilter< SliceType::PixelType, 2 >::New();
                 ifft->SetInput(fSlice);
                 ifft->Update();
                 newSlice = ifft->GetOutput();
 
                 // put slice back into channel g
                 for (int y=0; y<fSlice->GetLargestPossibleRegion().GetSize(1); y++)
                     for (int x=0; x<fSlice->GetLargestPossibleRegion().GetSize(0); x++)
                     {
                         DoubleDwiType::IndexType index3D;
                         index3D[0]=x; index3D[1]=y; index3D[2]=z;
                         DoubleDwiType::PixelType pix3D = newImage->GetPixel(index3D);
                         SliceType::IndexType index2D;
                         index2D[0]=x; index2D[1]=y;
 
                         pix3D[g] = newSlice->GetPixel(index2D);
                         newImage->SetPixel(index3D, pix3D);
                     }
             }
         outImages.push_back(newImage);
     }
     return outImages;
 }
 
 TractsToDWIImageFilter::ComplexSliceType::Pointer TractsToDWIImageFilter::RearrangeSlice(ComplexSliceType::Pointer slice)
 {
     ImageRegion<2> region = slice->GetLargestPossibleRegion();
     ComplexSliceType::Pointer rearrangedSlice = ComplexSliceType::New();
     rearrangedSlice->SetLargestPossibleRegion( region );
     rearrangedSlice->SetBufferedRegion( region );
     rearrangedSlice->SetRequestedRegion( region );
     rearrangedSlice->Allocate();
 
     int xHalf = region.GetSize(0)/2;
     int yHalf = region.GetSize(1)/2;
 
     for (int y=0; y<region.GetSize(1); y++)
         for (int x=0; x<region.GetSize(0); x++)
         {
             SliceType::IndexType idx;
             idx[0]=x; idx[1]=y;
             vcl_complex< double > pix = slice->GetPixel(idx);
 
             if( idx[0] <  xHalf )
                 idx[0] = idx[0] + xHalf;
             else
                 idx[0] = idx[0] - xHalf;
 
             if( idx[1] <  yHalf )
                 idx[1] = idx[1] + yHalf;
             else
                 idx[1] = idx[1] - yHalf;
 
             rearrangedSlice->SetPixel(idx, pix);
         }
 
     return rearrangedSlice;
 }
 
 void TractsToDWIImageFilter::GenerateData()
 {
     // check input data
     if (m_FiberBundle.IsNull())
         itkExceptionMacro("Input fiber bundle is NULL!");
 
     int numFibers = m_FiberBundle->GetNumFibers();
     if (numFibers<=0)
         itkExceptionMacro("Input fiber bundle contains no fibers!");
 
     if (m_FiberModels.empty())
         itkExceptionMacro("No diffusion model for fiber compartments defined!");
 
     if (m_NonFiberModels.empty())
         itkExceptionMacro("No diffusion model for non-fiber compartments defined!");
 
     int baselineIndex = m_FiberModels[0]->GetFirstBaselineIndex();
     if (baselineIndex<0)
         itkExceptionMacro("No baseline index found!");
 
     // determine k-space undersampling
     for (int i=0; i<m_KspaceArtifacts.size(); i++)
         if ( dynamic_cast<mitk::GibbsRingingArtifact<double>*>(m_KspaceArtifacts.at(i)) )
             m_Upsampling = dynamic_cast<mitk::GibbsRingingArtifact<double>*>(m_KspaceArtifacts.at(i))->GetKspaceCropping();
     if (m_Upsampling<1)
         m_Upsampling = 1;
 
     if (m_TissueMask.IsNotNull())
     {
         // use input tissue mask
         m_Spacing = m_TissueMask->GetSpacing();
         m_Origin = m_TissueMask->GetOrigin();
         m_DirectionMatrix = m_TissueMask->GetDirection();
         m_ImageRegion = m_TissueMask->GetLargestPossibleRegion();
 
         if (m_Upsampling>1)
         {
             ImageRegion<3> region = m_ImageRegion;
             region.SetSize(0, m_ImageRegion.GetSize(0)*m_Upsampling);
             region.SetSize(1, m_ImageRegion.GetSize(1)*m_Upsampling);
             mitk::Vector3D spacing = m_Spacing;
             spacing[0] /= m_Upsampling;
             spacing[1] /= m_Upsampling;
             itk::RescaleIntensityImageFilter<ItkUcharImgType,ItkUcharImgType>::Pointer rescaler = itk::RescaleIntensityImageFilter<ItkUcharImgType,ItkUcharImgType>::New();
             rescaler->SetInput(0,m_TissueMask);
             rescaler->SetOutputMaximum(100);
             rescaler->SetOutputMinimum(0);
             rescaler->Update();
 
             itk::ResampleImageFilter<ItkUcharImgType, ItkUcharImgType>::Pointer resampler = itk::ResampleImageFilter<ItkUcharImgType, ItkUcharImgType>::New();
             resampler->SetInput(rescaler->GetOutput());
             resampler->SetOutputParametersFromImage(m_TissueMask);
             resampler->SetSize(region.GetSize());
             resampler->SetOutputSpacing(spacing);
             resampler->Update();
             m_TissueMask = resampler->GetOutput();
         }
         MITK_INFO << "Using tissue mask";
     }
 
     // initialize output dwi image
     OutputImageType::Pointer outImage = OutputImageType::New();
     outImage->SetSpacing( m_Spacing );
     outImage->SetOrigin( m_Origin );
     outImage->SetDirection( m_DirectionMatrix );
     outImage->SetLargestPossibleRegion( m_ImageRegion );
     outImage->SetBufferedRegion( m_ImageRegion );
     outImage->SetRequestedRegion( m_ImageRegion );
     outImage->SetVectorLength( m_FiberModels[0]->GetNumGradients() );
     outImage->Allocate();
     OutputImageType::PixelType temp;
     temp.SetSize(m_FiberModels[0]->GetNumGradients());
     temp.Fill(0.0);
     outImage->FillBuffer(temp);
 
     // is input slize size a power of two?
     int x=2; int y=2;
     while (x<m_ImageRegion.GetSize(0))
         x *= 2;
     while (y<m_ImageRegion.GetSize(1))
         y *= 2;
 
     // if not, adjust size and dimension (needed for FFT); zero-padding
     if (x!=m_ImageRegion.GetSize(0))
     {
         MITK_INFO << "Adjusting image width: " << m_ImageRegion.GetSize(0) << " --> " << x;
         m_ImageRegion.SetSize(0, x);
     }
     if (y!=m_ImageRegion.GetSize(1))
     {
         MITK_INFO << "Adjusting image height: " << m_ImageRegion.GetSize(1) << " --> " << y;
         m_ImageRegion.SetSize(1, y);
     }
 
     // initialize k-space image
     m_KspaceImage = ItkDoubleImgType::New();
     m_KspaceImage->SetSpacing( m_Spacing );
     m_KspaceImage->SetOrigin( m_Origin );
     m_KspaceImage->SetDirection( m_DirectionMatrix );
     m_KspaceImage->SetLargestPossibleRegion( m_ImageRegion );
     m_KspaceImage->SetBufferedRegion( m_ImageRegion );
     m_KspaceImage->SetRequestedRegion( m_ImageRegion );
     m_KspaceImage->Allocate();
     m_KspaceImage->FillBuffer(0);
 
     // apply undersampling to image parameters
     m_UpsampledSpacing = m_Spacing;
     m_UpsampledImageRegion = m_ImageRegion;
     m_UpsampledSpacing[0] /= m_Upsampling;
     m_UpsampledSpacing[1] /= m_Upsampling;
     m_UpsampledImageRegion.SetSize(0, m_ImageRegion.GetSize()[0]*m_Upsampling);
     m_UpsampledImageRegion.SetSize(1, m_ImageRegion.GetSize()[1]*m_Upsampling);
 
     // everything from here on is using the upsampled image parameters!!!
     if (m_TissueMask.IsNull())
     {
         m_TissueMask = ItkUcharImgType::New();
         m_TissueMask->SetSpacing( m_UpsampledSpacing );
         m_TissueMask->SetOrigin( m_Origin );
         m_TissueMask->SetDirection( m_DirectionMatrix );
         m_TissueMask->SetLargestPossibleRegion( m_UpsampledImageRegion );
         m_TissueMask->SetBufferedRegion( m_UpsampledImageRegion );
         m_TissueMask->SetRequestedRegion( m_UpsampledImageRegion );
         m_TissueMask->Allocate();
         m_TissueMask->FillBuffer(1);
     }
 
     // resample fiber bundle for sufficient voxel coverage
     float minSpacing = 1;
     if(m_UpsampledSpacing[0]<m_UpsampledSpacing[1] && m_UpsampledSpacing[0]<m_UpsampledSpacing[2])
         minSpacing = m_UpsampledSpacing[0];
     else if (m_UpsampledSpacing[1] < m_UpsampledSpacing[2])
         minSpacing = m_UpsampledSpacing[1];
     else
         minSpacing = m_UpsampledSpacing[2];
     FiberBundleType fiberBundle = m_FiberBundle;
     if (m_FiberBundle->GetFiberSampling()<=0 || 10/m_FiberBundle->GetFiberSampling()>minSpacing*0.5/m_VolumeAccuracy)
     {
         fiberBundle = m_FiberBundle->GetDeepCopy();
         fiberBundle->ResampleFibers(minSpacing/m_VolumeAccuracy);
     }
 
     // generate double images to wokr with because we don't want to lose precision
     // we use a separate image for each compartment model
     std::vector< DoubleDwiType::Pointer > compartments;
     for (int i=0; i<m_FiberModels.size()+m_NonFiberModels.size(); i++)
     {
         DoubleDwiType::Pointer doubleDwi = DoubleDwiType::New();
         doubleDwi->SetSpacing( m_UpsampledSpacing );
         doubleDwi->SetOrigin( m_Origin );
         doubleDwi->SetDirection( m_DirectionMatrix );
         doubleDwi->SetLargestPossibleRegion( m_UpsampledImageRegion );
         doubleDwi->SetBufferedRegion( m_UpsampledImageRegion );
         doubleDwi->SetRequestedRegion( m_UpsampledImageRegion );
         doubleDwi->SetVectorLength( m_FiberModels[0]->GetNumGradients() );
         doubleDwi->Allocate();
         DoubleDwiType::PixelType pix;
         pix.SetSize(m_FiberModels[0]->GetNumGradients());
         pix.Fill(0.0);
         doubleDwi->FillBuffer(pix);
         compartments.push_back(doubleDwi);
     }
 
     if (m_CircleDummy)
     {
         for (int i=0; i<compartments.size(); i++)
         {
             DoubleDwiType::PixelType pix;
             pix.SetSize(m_FiberModels[0]->GetNumGradients());
             pix.Fill(1);
 
             DoubleDwiType::Pointer doubleDwi = compartments.at(i);
             ImageRegion<3> region = doubleDwi->GetLargestPossibleRegion();
             ImageRegionIterator<DoubleDwiType> it(doubleDwi, region);
             while(!it.IsAtEnd())
             {
                 DoubleDwiType::IndexType index = it.GetIndex();
                 double t = region.GetSize(0)/2;
                 double d1 = index[0]-t+0.5;
                 t = region.GetSize(1)/2;
                 double d2 = index[1]-t+0.5;
                 if (sqrt(d1*d1+d2*d2)<20*m_Upsampling)
                     it.Set(pix);
                 ++it;
             }
         }
     }
     else
     {
+        double interpFact = 2*atan(-0.5*m_InterpolationShrink);
+
         vtkSmartPointer<vtkPolyData> fiberPolyData = fiberBundle->GetFiberPolyData();
         vtkSmartPointer<vtkCellArray> vLines = fiberPolyData->GetLines();
         vLines->InitTraversal();
 
         MITK_INFO << "Generating signal of " << m_FiberModels.size() << " fiber compartments";
         double maxFiberDensity = 0;
         boost::progress_display disp(numFibers);
         for( int i=0; i<numFibers; i++ )
         {
             ++disp;
             vtkIdType   numPoints(0);
             vtkIdType*  points(NULL);
             vLines->GetNextCell ( numPoints, points );
             if (numPoints<2)
                 continue;
 
             for( int j=0; j<numPoints; j++)
             {
                 double* temp = fiberPolyData->GetPoint(points[j]);
                 itk::Point<float, 3> vertex = GetItkPoint(temp);
                 itk::Vector<double> v = GetItkVector(temp);
 
                 itk::Vector<double, 3> dir(3);
                 if (j<numPoints-1)
                     dir = GetItkVector(fiberPolyData->GetPoint(points[j+1]))-v;
                 else
                     dir = v-GetItkVector(fiberPolyData->GetPoint(points[j-1]));
 
                 itk::Index<3> idx;
                 itk::ContinuousIndex<float, 3> contIndex;
                 m_TissueMask->TransformPhysicalPointToIndex(vertex, idx);
                 m_TissueMask->TransformPhysicalPointToContinuousIndex(vertex, contIndex);
 
                 double frac_x = contIndex[0] - idx[0];
                 double frac_y = contIndex[1] - idx[1];
                 double frac_z = contIndex[2] - idx[2];
                 if (frac_x<0)
                 {
                     idx[0] -= 1;
                     frac_x += 1;
                 }
                 if (frac_y<0)
                 {
                     idx[1] -= 1;
                     frac_y += 1;
                 }
                 if (frac_z<0)
                 {
                     idx[2] -= 1;
                     frac_z += 1;
                 }
 
+                frac_x = atan((0.5-frac_x)*m_InterpolationShrink)/interpFact + 0.5;
+                frac_y = atan((0.5-frac_y)*m_InterpolationShrink)/interpFact + 0.5;
+                frac_z = atan((0.5-frac_z)*m_InterpolationShrink)/interpFact + 0.5;
+
                 // use trilinear interpolation
                 itk::Index<3> newIdx;
                 for (int x=0; x<2; x++)
                 {
                     frac_x = 1-frac_x;
                     for (int y=0; y<2; y++)
                     {
                         frac_y = 1-frac_y;
                         for (int z=0; z<2; z++)
                         {
                             frac_z = 1-frac_z;
 
                             newIdx[0] = idx[0]+x;
                             newIdx[1] = idx[1]+y;
                             newIdx[2] = idx[2]+z;
 
                             double frac = frac_x*frac_y*frac_z;
 
                             // is position valid?
                             if (!m_TissueMask->GetLargestPossibleRegion().IsInside(newIdx) || m_TissueMask->GetPixel(newIdx)<=0)
                                 continue;
 
                             // generate signal for each fiber compartment
                             for (int k=0; k<m_FiberModels.size(); k++)
                             {
                                 DoubleDwiType::Pointer doubleDwi = compartments.at(k);
                                 m_FiberModels[k]->SetFiberDirection(dir);
                                 doubleDwi->SetPixel(newIdx, doubleDwi->GetPixel(newIdx) + frac*m_FiberModels[k]->SimulateMeasurement());
 
                                 DoubleDwiType::PixelType pix = doubleDwi->GetPixel(newIdx);
                                 if (pix[baselineIndex]>maxFiberDensity)
                                     maxFiberDensity = pix[baselineIndex];
                             }
                         }
                     }
                 }
             }
         }
 
         MITK_INFO << "Generating signal of " << m_NonFiberModels.size() << " non-fiber compartments";
         boost::progress_display disp2(m_NonFiberModels.size()*compartments.at(0)->GetLargestPossibleRegion().GetNumberOfPixels());
         for (int i=0; i<m_NonFiberModels.size(); i++)
         {
             DoubleDwiType::Pointer doubleDwi = compartments.at(i+m_FiberModels.size());
             ImageRegionIterator<DoubleDwiType> it(doubleDwi, doubleDwi->GetLargestPossibleRegion());
             while(!it.IsAtEnd())
             {
                 ++disp2;
                 DoubleDwiType::IndexType index = it.GetIndex();
                 if (m_TissueMask->GetLargestPossibleRegion().IsInside(index) && m_TissueMask->GetPixel(index)>0)
                     doubleDwi->SetPixel(index, doubleDwi->GetPixel(index) + m_NonFiberModels[i]->SimulateMeasurement());
                 ++it;
             }
         }
 
         MITK_INFO << "Adjusting compartment signal intensities according to volume fraction";
         ImageRegionIterator<ItkUcharImgType> it3(m_TissueMask, m_TissueMask->GetLargestPossibleRegion());
         boost::progress_display disp3(m_TissueMask->GetLargestPossibleRegion().GetNumberOfPixels());
         while(!it3.IsAtEnd())
         {
             ++disp3;
             DoubleDwiType::IndexType index = it3.GetIndex();
 
             if (it3.Get()>0)
             {
                 // compartment weights are calculated according to fiber density
                 double w = compartments.at(0)->GetPixel(index)[baselineIndex]/maxFiberDensity;
                 if (m_EnforcePureFiberVoxels && w>0)
                     w = 1;
 
                 // adjust fiber signal
                 for (int i=0; i<m_FiberModels.size(); i++)
                 {
                     DoubleDwiType::Pointer doubleDwi = compartments.at(i);
                     DoubleDwiType::PixelType pix = doubleDwi->GetPixel(index);
                     if (pix[baselineIndex]>0)
                         pix /= pix[baselineIndex];
                     pix *= w/m_FiberModels.size();
                     doubleDwi->SetPixel(index, pix);
                 }
 
                 // adjust non-fiber signal
                 for (int i=0; i<m_NonFiberModels.size(); i++)
                 {
                     DoubleDwiType::Pointer doubleDwi = compartments.at(i+m_FiberModels.size());
                     DoubleDwiType::PixelType pix = doubleDwi->GetPixel(index);
                     if (pix[baselineIndex]>0)
                         pix /= pix[baselineIndex];
                     pix *= (1-w)/m_NonFiberModels.size();
                     doubleDwi->SetPixel(index, pix);
                 }
 
             }
             ++it3;
         }
     }
 
     // do k-space stuff
     if (!m_KspaceArtifacts.empty())
         MITK_INFO << "Generating k-space artifacts";
     else
         MITK_INFO << "Generating k-space image";
     compartments = AddKspaceArtifacts(compartments);
 
     MITK_INFO << "Summing compartments and adding noise";
     double correction = m_Upsampling*m_Upsampling;
     ImageRegionIterator<DWIImageType> it4 (outImage, outImage->GetLargestPossibleRegion());
     DoubleDwiType::PixelType signal; signal.SetSize(m_FiberModels[0]->GetNumGradients());
     boost::progress_display disp4(outImage->GetLargestPossibleRegion().GetNumberOfPixels());
     while(!it4.IsAtEnd())
     {
         ++disp4;
         DWIImageType::IndexType index = it4.GetIndex();
         signal.Fill(0.0);
 
         // adjust fiber signal
         for (int i=0; i<m_FiberModels.size(); i++)
         {
             double s = m_FiberModels.at(i)->GetSignalScale()/correction;
             signal += compartments.at(i)->GetPixel(index)*s;
         }
 
         // adjust non-fiber signal
         for (int i=0; i<m_NonFiberModels.size(); i++)
         {
             double s = m_NonFiberModels.at(i)->GetSignalScale()/correction;
             signal += compartments.at(m_FiberModels.size()+i)->GetPixel(index)*s;
         }
 
         DoubleDwiType::PixelType accu = signal; accu.Fill(0.0);
         for (int i=0; i<m_NumberOfRepetitions; i++)
         {
             DoubleDwiType::PixelType temp = signal;
             m_NoiseModel->AddNoise(temp);
             accu += temp;
         }
         signal = accu/m_NumberOfRepetitions;
         for (int i=0; i<signal.Size(); i++)
         {
             if (signal[i]>0)
                 signal[i] = floor(signal[i]+0.5);
             else
                 signal[i] = ceil(signal[i]-0.5);
         }
         it4.Set(signal);
         ++it4;
     }
 
     this->SetNthOutput(0, outImage);
 }
 
 itk::Point<float, 3> TractsToDWIImageFilter::GetItkPoint(double point[3])
 {
     itk::Point<float, 3> itkPoint;
     itkPoint[0] = point[0];
     itkPoint[1] = point[1];
     itkPoint[2] = point[2];
     return itkPoint;
 }
 
 itk::Vector<double, 3> TractsToDWIImageFilter::GetItkVector(double point[3])
 {
     itk::Vector<double, 3> itkVector;
     itkVector[0] = point[0];
     itkVector[1] = point[1];
     itkVector[2] = point[2];
     return itkVector;
 }
 
 vnl_vector_fixed<double, 3> TractsToDWIImageFilter::GetVnlVector(double point[3])
 {
     vnl_vector_fixed<double, 3> vnlVector;
     vnlVector[0] = point[0];
     vnlVector[1] = point[1];
     vnlVector[2] = point[2];
     return vnlVector;
 }
 
 
 vnl_vector_fixed<double, 3> TractsToDWIImageFilter::GetVnlVector(Vector<float,3>& vector)
 {
     vnl_vector_fixed<double, 3> vnlVector;
     vnlVector[0] = vector[0];
     vnlVector[1] = vector[1];
     vnlVector[2] = vector[2];
     return vnlVector;
 }
 
 }
diff --git a/Modules/DiffusionImaging/FiberTracking/Algorithms/itkTractsToDWIImageFilter.h b/Modules/DiffusionImaging/FiberTracking/Algorithms/itkTractsToDWIImageFilter.h
index 71e507a994..02ab223a9f 100644
--- a/Modules/DiffusionImaging/FiberTracking/Algorithms/itkTractsToDWIImageFilter.h
+++ b/Modules/DiffusionImaging/FiberTracking/Algorithms/itkTractsToDWIImageFilter.h
@@ -1,122 +1,124 @@
 /*===================================================================
 
 The Medical Imaging Interaction Toolkit (MITK)
 
 Copyright (c) German Cancer Research Center,
 Division of Medical and Biological Informatics.
 All rights reserved.
 
 This software is distributed WITHOUT ANY WARRANTY; without
 even the implied warranty of MERCHANTABILITY or FITNESS FOR
 A PARTICULAR PURPOSE.
 
 See LICENSE.txt or http://www.mitk.org for details.
 
 ===================================================================*/
 #ifndef __itkTractsToDWIImageFilter_h__
 #define __itkTractsToDWIImageFilter_h__
 
 // MITK
 #include <mitkFiberBundleX.h>
 #include <mitkDiffusionSignalModel.h>
 #include <mitkDiffusionNoiseModel.h>
 #include <mitkKspaceArtifact.h>
 #include <mitkGibbsRingingArtifact.h>
 #include <mitkT2SmearingArtifact.h>
 
 // ITK
 #include <itkImage.h>
 #include <itkVectorImage.h>
 #include <itkImageSource.h>
 #include <itkFFTRealToComplexConjugateImageFilter.h>
 #include <itkFFTComplexConjugateToRealImageFilter.h>
 
 typedef itk::VectorImage< short, 3 > DWIImageType;
 
 namespace itk
 {
 
 /**
 * \brief Generates artificial diffusion weighted image volume from the input fiberbundle using a generic multicompartment model.   */
 
 class TractsToDWIImageFilter : public ImageSource< DWIImageType >
 {
 
 public:
     typedef TractsToDWIImageFilter      Self;
     typedef ImageSource< DWIImageType > Superclass;
     typedef SmartPointer< Self >        Pointer;
     typedef SmartPointer< const Self >  ConstPointer;
 
     typedef itk::Image<double, 3>                           ItkDoubleImgType;
     typedef itk::Image<float, 3>                            ItkFloatImgType;
     typedef itk::Image<unsigned char, 3>                    ItkUcharImgType;
     typedef mitk::FiberBundleX::Pointer                     FiberBundleType;
     typedef itk::VectorImage< double, 3 >                   DoubleDwiType;
     typedef std::vector< mitk::KspaceArtifact<double>* >    KspaceArtifactList;
     typedef std::vector< mitk::DiffusionSignalModel<double>* >    DiffusionModelList;
     typedef itk::Matrix<double, 3, 3>                       MatrixType;
     typedef mitk::DiffusionNoiseModel<double>               NoiseModelType;
     typedef itk::Image< double, 2 >                         SliceType;
     typedef itk::FFTRealToComplexConjugateImageFilter< double, 2 >::OutputImageType ComplexSliceType;
 
     itkNewMacro(Self)
     itkTypeMacro( TractsToDWIImageFilter, ImageToImageFilter )
 
     // input
+    itkSetMacro( InterpolationShrink, double )          ///< large values shrink (towards nearest neighbour interpolation), small values strech interpolation function (towards linear interpolation)
     itkSetMacro( VolumeAccuracy, unsigned int )         ///< determines fiber sampling density and thereby the accuracy of the fiber volume fraction
     itkSetMacro( FiberBundle, FiberBundleType )         ///< input fiber bundle
     itkSetMacro( Spacing, mitk::Vector3D )              ///< output image spacing
     itkSetMacro( Origin, mitk::Point3D )                ///< output image origin
     itkSetMacro( DirectionMatrix, MatrixType )          ///< output image rotation
     itkSetMacro( EnforcePureFiberVoxels, bool )         ///< treat all voxels containing at least one fiber as fiber-only (actually disable non-fiber compartments for this voxel).
     itkSetMacro( ImageRegion, ImageRegion<3> )          ///< output image size
     itkSetMacro( NumberOfRepetitions, unsigned int )    ///< number of acquisition repetitions to reduce noise (default is no additional repetition)
     itkSetMacro( TissueMask, ItkUcharImgType::Pointer ) ///< voxels outside of this binary mask contain only noise (are treated as air)
     itkGetMacro( KspaceImage, ItkDoubleImgType::Pointer )
     void SetNoiseModel(NoiseModelType* noiseModel){ m_NoiseModel = noiseModel; }            ///< generates the noise added to the image values
     void SetFiberModels(DiffusionModelList modelList){ m_FiberModels = modelList; }         ///< generate signal of fiber compartments
     void SetNonFiberModels(DiffusionModelList modelList){ m_NonFiberModels = modelList; }   ///< generate signal of non-fiber compartments
     void SetKspaceArtifacts(KspaceArtifactList artifactList){ m_KspaceArtifacts = artifactList; }
 
     void GenerateData();
 
 protected:
 
     TractsToDWIImageFilter();
     virtual ~TractsToDWIImageFilter();
     itk::Point<float, 3> GetItkPoint(double point[3]);
     itk::Vector<double, 3> GetItkVector(double point[3]);
     vnl_vector_fixed<double, 3> GetVnlVector(double point[3]);
     vnl_vector_fixed<double, 3> GetVnlVector(Vector< float, 3 >& vector);
 
     /** Transform generated image compartment by compartment, channel by channel and slice by slice using FFT and add k-space artifacts. */
     std::vector< DoubleDwiType::Pointer > AddKspaceArtifacts(std::vector< DoubleDwiType::Pointer >& images);
 
     /** Rearrange FFT output to shift low frequencies to the iamge center (correct itk). */
     TractsToDWIImageFilter::ComplexSliceType::Pointer RearrangeSlice(ComplexSliceType::Pointer slice);
 
     mitk::Vector3D                      m_Spacing;              ///< output image spacing
     mitk::Vector3D                      m_UpsampledSpacing;
     mitk::Point3D                       m_Origin;               ///< output image origin
     MatrixType                          m_DirectionMatrix;      ///< output image rotation
     ImageRegion<3>                      m_ImageRegion;          ///< output image size
     ImageRegion<3>                      m_UpsampledImageRegion;
     ItkUcharImgType::Pointer            m_TissueMask;           ///< voxels outside of this binary mask contain only noise (are treated as air)
     FiberBundleType                     m_FiberBundle;          ///< input fiber bundle
     DiffusionModelList                  m_FiberModels;          ///< generate signal of fiber compartments
     DiffusionModelList                  m_NonFiberModels;       ///< generate signal of non-fiber compartments
     KspaceArtifactList                  m_KspaceArtifacts;
     NoiseModelType*                     m_NoiseModel;           ///< generates the noise added to the image values
     bool                                m_CircleDummy;
     unsigned int                        m_VolumeAccuracy;
     ItkDoubleImgType::Pointer           m_KspaceImage;
     unsigned int                        m_Upsampling;
     unsigned int                        m_NumberOfRepetitions;
     bool                                m_EnforcePureFiberVoxels;
+    double                              m_InterpolationShrink;
 };
 }
 
 #include "itkTractsToDWIImageFilter.cpp"
 
 #endif
diff --git a/Modules/DiffusionImaging/FiberTracking/IODataStructures/FiberBundleX/mitkFiberBundleX.cpp b/Modules/DiffusionImaging/FiberTracking/IODataStructures/FiberBundleX/mitkFiberBundleX.cpp
index 79287c83ae..5bdedecc6f 100644
--- a/Modules/DiffusionImaging/FiberTracking/IODataStructures/FiberBundleX/mitkFiberBundleX.cpp
+++ b/Modules/DiffusionImaging/FiberTracking/IODataStructures/FiberBundleX/mitkFiberBundleX.cpp
@@ -1,1722 +1,1727 @@
 /*===================================================================
 
 The Medical Imaging Interaction Toolkit (MITK)
 
 Copyright (c) German Cancer Research Center,
 Division of Medical and Biological Informatics.
 All rights reserved.
 
 This software is distributed WITHOUT ANY WARRANTY; without
 even the implied warranty of MERCHANTABILITY or FITNESS FOR
 A PARTICULAR PURPOSE.
 
 See LICENSE.txt or http://www.mitk.org for details.
 
 ===================================================================*/
 
 
 #define _USE_MATH_DEFINES
 #include "mitkFiberBundleX.h"
 
 #include <mitkPlanarCircle.h>
 #include <mitkPlanarPolygon.h>
 #include <mitkPlanarFigureComposite.h>
 
 #include <vtkPointData.h>
 #include <vtkDataArray.h>
 #include <vtkUnsignedCharArray.h>
 #include <vtkPolyLine.h>
 #include <vtkCellArray.h>
 #include <vtkCellData.h>
 #include <vtkIdFilter.h>
 #include <vtkClipPolyData.h>
 #include <vtkPlane.h>
 #include <vtkDoubleArray.h>
 #include <vtkKochanekSpline.h>
 #include <vtkParametricFunctionSource.h>
 #include <vtkParametricSpline.h>
 #include <vtkPolygon.h>
 #include <vtkCleanPolyData.h>
 #include <cmath>
 #include <boost/progress.hpp>
 
 const char* mitk::FiberBundleX::COLORCODING_ORIENTATION_BASED = "Color_Orient";
 //const char* mitk::FiberBundleX::COLORCODING_FA_AS_OPACITY = "Color_Orient_FA_Opacity";
 const char* mitk::FiberBundleX::COLORCODING_FA_BASED = "FA_Values";
 const char* mitk::FiberBundleX::COLORCODING_CUSTOM = "custom";
 const char* mitk::FiberBundleX::FIBER_ID_ARRAY = "Fiber_IDs";
 
 using namespace std;
 
 mitk::FiberBundleX::FiberBundleX( vtkPolyData* fiberPolyData )
     : m_CurrentColorCoding(NULL)
     , m_NumFibers(0)
     , m_FiberSampling(0)
 {
     m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     if (fiberPolyData != NULL)
     {
         m_FiberPolyData = fiberPolyData;
         //m_FiberPolyData->DeepCopy(fiberPolyData);
         this->DoColorCodingOrientationBased();
     }
 
     m_NumFibers = m_FiberPolyData->GetNumberOfLines();
 
     this->UpdateFiberGeometry();
     this->SetColorCoding(COLORCODING_ORIENTATION_BASED);
     this->GenerateFiberIds();
 }
 
 mitk::FiberBundleX::~FiberBundleX()
 {
 
 }
 
 mitk::FiberBundleX::Pointer mitk::FiberBundleX::GetDeepCopy()
 {
     mitk::FiberBundleX::Pointer newFib = mitk::FiberBundleX::New(m_FiberPolyData);
     newFib->SetColorCoding(m_CurrentColorCoding);
     return newFib;
 }
 
 vtkSmartPointer<vtkPolyData> mitk::FiberBundleX::GeneratePolyDataByIds(std::vector<long> fiberIds)
 {
     MITK_DEBUG << "\n=====FINAL RESULT: fib_id ======\n";
     MITK_DEBUG << "Number of new Fibers: " << fiberIds.size();
     // iterate through the vectorcontainer hosting all desired fiber Ids
 
     vtkSmartPointer<vtkPolyData> newFiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     vtkSmartPointer<vtkCellArray> newLineSet = vtkSmartPointer<vtkCellArray>::New();
     vtkSmartPointer<vtkPoints> newPointSet = vtkSmartPointer<vtkPoints>::New();
 
     // if FA array available, initialize fa double array
     // if color orient array is available init color array
     vtkSmartPointer<vtkDoubleArray> faValueArray;
     vtkSmartPointer<vtkUnsignedCharArray> colorsT;
     //colors and alpha value for each single point, RGBA = 4 components
     unsigned char rgba[4] = {0,0,0,0};
     int componentSize = sizeof(rgba);
 
     if (m_FiberIdDataSet->GetPointData()->HasArray(COLORCODING_FA_BASED)){
         MITK_DEBUG << "FA VALUES AVAILABLE, init array for new fiberbundle";
         faValueArray = vtkSmartPointer<vtkDoubleArray>::New();
     }
 
     if (m_FiberIdDataSet->GetPointData()->HasArray(COLORCODING_ORIENTATION_BASED)){
         MITK_DEBUG << "colorValues available, init array for new fiberbundle";
         colorsT = vtkUnsignedCharArray::New();
         colorsT->SetNumberOfComponents(componentSize);
         colorsT->SetName(COLORCODING_ORIENTATION_BASED);
     }
 
 
 
     std::vector<long>::iterator finIt = fiberIds.begin();
     while ( finIt != fiberIds.end() )
     {
         if (*finIt < 0 || *finIt>GetNumFibers()){
             MITK_INFO << "FiberID can not be negative or >NumFibers!!! check id Extraction!" << *finIt;
             break;
         }
 
         vtkSmartPointer<vtkCell> fiber = m_FiberIdDataSet->GetCell(*finIt);//->DeepCopy(fiber);
 
         vtkSmartPointer<vtkPoints> fibPoints = fiber->GetPoints();
 
         vtkSmartPointer<vtkPolyLine> newFiber = vtkSmartPointer<vtkPolyLine>::New();
         newFiber->GetPointIds()->SetNumberOfIds( fibPoints->GetNumberOfPoints() );
 
         for(int i=0; i<fibPoints->GetNumberOfPoints(); i++)
         {
             //            MITK_DEBUG << "id: " << fiber->GetPointId(i);
             //            MITK_DEBUG << fibPoints->GetPoint(i)[0] << " | " << fibPoints->GetPoint(i)[1] << " | " << fibPoints->GetPoint(i)[2];
             newFiber->GetPointIds()->SetId(i, newPointSet->GetNumberOfPoints());
             newPointSet->InsertNextPoint(fibPoints->GetPoint(i)[0], fibPoints->GetPoint(i)[1], fibPoints->GetPoint(i)[2]);
 
 
             if (m_FiberIdDataSet->GetPointData()->HasArray(COLORCODING_FA_BASED)){
                 //                MITK_DEBUG << m_FiberIdDataSet->GetPointData()->GetArray(FA_VALUE_ARRAY)->GetTuple(fiber->GetPointId(i));
             }
 
             if (m_FiberIdDataSet->GetPointData()->HasArray(COLORCODING_ORIENTATION_BASED)){
                 //                MITK_DEBUG << "ColorValue: " << m_FiberIdDataSet->GetPointData()->GetArray(COLORCODING_ORIENTATION_BASED)->GetTuple(fiber->GetPointId(i))[0];
             }
         }
 
         newLineSet->InsertNextCell(newFiber);
         ++finIt;
     }
 
     newFiberPolyData->SetPoints(newPointSet);
     newFiberPolyData->SetLines(newLineSet);
     MITK_DEBUG << "new fiberbundle polydata points: " << newFiberPolyData->GetNumberOfPoints();
     MITK_DEBUG << "new fiberbundle polydata lines: " << newFiberPolyData->GetNumberOfLines();
     MITK_DEBUG << "=====================\n";
 
     //    mitk::FiberBundleX::Pointer newFib = mitk::FiberBundleX::New(newFiberPolyData);
     return newFiberPolyData;
 }
 
 // merge two fiber bundles
 mitk::FiberBundleX::Pointer mitk::FiberBundleX::AddBundle(mitk::FiberBundleX* fib)
 {
     if (fib==NULL)
     {
         MITK_WARN << "trying to call AddBundle with NULL argument";
         return NULL;
     }
 
     vtkSmartPointer<vtkPolyData> vNewPolyData = vtkSmartPointer<vtkPolyData>::New();
     vtkSmartPointer<vtkCellArray> vNewLines = vtkSmartPointer<vtkCellArray>::New();
     vtkSmartPointer<vtkPoints> vNewPoints = vtkSmartPointer<vtkPoints>::New();
 
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
 
     // add current fiber bundle
     int numFibers = GetNumFibers();
     for( int i=0; i<numFibers; i++ )
     {
         vtkIdType   numPoints(0);
         vtkIdType*  points(NULL);
         vLines->GetNextCell ( numPoints, points );
 
         vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
         for( int j=0; j<numPoints; j++)
         {
             vtkIdType id = vNewPoints->InsertNextPoint(m_FiberPolyData->GetPoint(points[j]));
             container->GetPointIds()->InsertNextId(id);
         }
         vNewLines->InsertNextCell(container);
     }
 
     vLines = fib->m_FiberPolyData->GetLines();
     vLines->InitTraversal();
 
     // add new fiber bundle
     numFibers = fib->GetNumFibers();
     for( int i=0; i<numFibers; i++ )
     {
         vtkIdType   numPoints(0);
         vtkIdType*  points(NULL);
         vLines->GetNextCell ( numPoints, points );
 
         vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
         for( int j=0; j<numPoints; j++)
         {
             vtkIdType id = vNewPoints->InsertNextPoint(fib->m_FiberPolyData->GetPoint(points[j]));
             container->GetPointIds()->InsertNextId(id);
         }
         vNewLines->InsertNextCell(container);
     }
 
     // initialize polydata
     vNewPolyData->SetPoints(vNewPoints);
     vNewPolyData->SetLines(vNewLines);
 
     // initialize fiber bundle
     mitk::FiberBundleX::Pointer newFib = mitk::FiberBundleX::New(vNewPolyData);
     return newFib;
 }
 
 // subtract two fiber bundles
 mitk::FiberBundleX::Pointer mitk::FiberBundleX::SubtractBundle(mitk::FiberBundleX* fib)
 {
 
     vtkSmartPointer<vtkPolyData> vNewPolyData = vtkSmartPointer<vtkPolyData>::New();
     vtkSmartPointer<vtkCellArray> vNewLines = vtkSmartPointer<vtkCellArray>::New();
     vtkSmartPointer<vtkPoints> vNewPoints = vtkSmartPointer<vtkPoints>::New();
 
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
 
     // iterate over current fibers
     int numFibers = GetNumFibers();
     for( int i=0; i<numFibers; i++ )
     {
         vtkIdType   numPoints(0);
         vtkIdType*  points(NULL);
         vLines->GetNextCell ( numPoints, points );
 
         if (points==NULL)
             continue;
 
         vtkSmartPointer<vtkCellArray> vLines2 = fib->m_FiberPolyData->GetLines();
         vLines2->InitTraversal();
         int numFibers2 = fib->GetNumFibers();
         bool contained = false;
 
         for( int i2=0; i2<numFibers2; i2++ )
         {
             vtkIdType   numPoints2(0);
             vtkIdType*  points2(NULL);
             vLines2->GetNextCell ( numPoints2, points2 );
 
             if (points2==NULL)
                 continue;
 
             // check endpoints
             itk::Point<float, 3> point_start = GetItkPoint(m_FiberPolyData->GetPoint(points[0]));
             itk::Point<float, 3> point_end = GetItkPoint(m_FiberPolyData->GetPoint(points[numPoints-1]));
             itk::Point<float, 3> point2_start = GetItkPoint(fib->m_FiberPolyData->GetPoint(points2[0]));
             itk::Point<float, 3> point2_end = GetItkPoint(fib->m_FiberPolyData->GetPoint(points2[numPoints2-1]));
 
             if (point_start.SquaredEuclideanDistanceTo(point2_start)<=mitk::eps && point_end.SquaredEuclideanDistanceTo(point2_end)<=mitk::eps ||
                     point_start.SquaredEuclideanDistanceTo(point2_end)<=mitk::eps && point_end.SquaredEuclideanDistanceTo(point2_start)<=mitk::eps)
             {
                 // further checking ???
                 if (numPoints2==numPoints)
                     contained = true;
             }
         }
 
         // add to result because fiber is not subtracted
         if (!contained)
         {
             vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
             for( int j=0; j<numPoints; j++)
             {
                 vtkIdType id = vNewPoints->InsertNextPoint(m_FiberPolyData->GetPoint(points[j]));
                 container->GetPointIds()->InsertNextId(id);
             }
             vNewLines->InsertNextCell(container);
         }
     }
     if(vNewLines->GetNumberOfCells()==0)
         return NULL;
     // initialize polydata
     vNewPolyData->SetPoints(vNewPoints);
     vNewPolyData->SetLines(vNewLines);
 
     // initialize fiber bundle
     mitk::FiberBundleX::Pointer newFib = mitk::FiberBundleX::New(vNewPolyData);
     return newFib;
 }
 
 itk::Point<float, 3> mitk::FiberBundleX::GetItkPoint(double point[3])
 {
     itk::Point<float, 3> itkPoint;
     itkPoint[0] = point[0];
     itkPoint[1] = point[1];
     itkPoint[2] = point[2];
     return itkPoint;
 }
 
 /*
  * set polydata (additional flag to recompute fiber geometry, default = true)
  */
 void mitk::FiberBundleX::SetFiberPolyData(vtkSmartPointer<vtkPolyData> fiberPD, bool updateGeometry)
 {
     if (fiberPD == NULL)
         this->m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     else
     {
         m_FiberPolyData->DeepCopy(fiberPD);
         DoColorCodingOrientationBased();
     }
 
     m_NumFibers = m_FiberPolyData->GetNumberOfLines();
 
     if (updateGeometry)
         UpdateFiberGeometry();
     SetColorCoding(COLORCODING_ORIENTATION_BASED);
     GenerateFiberIds();
 }
 
 /*
  * return vtkPolyData
  */
 vtkSmartPointer<vtkPolyData> mitk::FiberBundleX::GetFiberPolyData()
 {
     return m_FiberPolyData;
 }
 
 void mitk::FiberBundleX::DoColorCodingOrientationBased()
 {
     //===== FOR WRITING A TEST ========================
     //  colorT size == tupelComponents * tupelElements
     //  compare color results
     //  to cover this code 100% also polydata needed, where colorarray already exists
     //  + one fiber with exactly 1 point
     //  + one fiber with 0 points
     //=================================================
 
 
     /*  make sure that processing colorcoding is only called when necessary */
     if ( m_FiberPolyData->GetPointData()->HasArray(COLORCODING_ORIENTATION_BASED) &&
          m_FiberPolyData->GetNumberOfPoints() ==
          m_FiberPolyData->GetPointData()->GetArray(COLORCODING_ORIENTATION_BASED)->GetNumberOfTuples() )
     {
         // fiberstructure is already colorcoded
         MITK_DEBUG << " NO NEED TO REGENERATE COLORCODING! " ;
         this->ResetFiberOpacity();
         this->SetColorCoding(COLORCODING_ORIENTATION_BASED);
         return;
     }
 
     /* Finally, execute color calculation */
     vtkPoints* extrPoints = NULL;
     extrPoints = m_FiberPolyData->GetPoints();
     int numOfPoints = 0;
     if (extrPoints!=NULL)
         numOfPoints = extrPoints->GetNumberOfPoints();
 
     //colors and alpha value for each single point, RGBA = 4 components
     unsigned char rgba[4] = {0,0,0,0};
     //    int componentSize = sizeof(rgba);
     int componentSize = 4;
 
     vtkSmartPointer<vtkUnsignedCharArray> colorsT = vtkSmartPointer<vtkUnsignedCharArray>::New();
     colorsT->Allocate(numOfPoints * componentSize);
     colorsT->SetNumberOfComponents(componentSize);
     colorsT->SetName(COLORCODING_ORIENTATION_BASED);
 
 
 
     /* checkpoint: does polydata contain any fibers */
     int numOfFibers = m_FiberPolyData->GetNumberOfLines();
     if (numOfFibers < 1) {
         MITK_DEBUG << "\n ========= Number of Fibers is 0 and below ========= \n";
         return;
     }
 
 
     /* extract single fibers of fiberBundle */
     vtkCellArray* fiberList = m_FiberPolyData->GetLines();
     fiberList->InitTraversal();
     for (int fi=0; fi<numOfFibers; ++fi) {
 
         vtkIdType* idList; // contains the point id's of the line
         vtkIdType pointsPerFiber; // number of points for current line
         fiberList->GetNextCell(pointsPerFiber, idList);
 
         //    MITK_DEBUG << "Fib#: " << fi << " of " << numOfFibers << " pnts in fiber: " << pointsPerFiber ;
 
         /* single fiber checkpoints: is number of points valid */
         if (pointsPerFiber > 1)
         {
             /* operate on points of single fiber */
             for (int i=0; i <pointsPerFiber; ++i)
             {
                 /* process all points except starting and endpoint
          * for calculating color value take current point, previous point and next point */
                 if (i<pointsPerFiber-1 && i > 0)
                 {
                     /* The color value of the current point is influenced by the previous point and next point. */
                     vnl_vector_fixed< double, 3 > currentPntvtk(extrPoints->GetPoint(idList[i])[0], extrPoints->GetPoint(idList[i])[1],extrPoints->GetPoint(idList[i])[2]);
                     vnl_vector_fixed< double, 3 > nextPntvtk(extrPoints->GetPoint(idList[i+1])[0], extrPoints->GetPoint(idList[i+1])[1], extrPoints->GetPoint(idList[i+1])[2]);
                     vnl_vector_fixed< double, 3 > prevPntvtk(extrPoints->GetPoint(idList[i-1])[0], extrPoints->GetPoint(idList[i-1])[1], extrPoints->GetPoint(idList[i-1])[2]);
 
                     vnl_vector_fixed< double, 3 > diff1;
                     diff1 = currentPntvtk - nextPntvtk;
 
                     vnl_vector_fixed< double, 3 > diff2;
                     diff2 = currentPntvtk - prevPntvtk;
 
                     vnl_vector_fixed< double, 3 > diff;
                     diff = (diff1 - diff2) / 2.0;
                     diff.normalize();
 
                     rgba[0] = (unsigned char) (255.0 * std::fabs(diff[0]));
                     rgba[1] = (unsigned char) (255.0 * std::fabs(diff[1]));
                     rgba[2] = (unsigned char) (255.0 * std::fabs(diff[2]));
                     rgba[3] = (unsigned char) (255.0);
 
 
                 } else if (i==0) {
                     /* First point has no previous point, therefore only diff1 is taken */
 
                     vnl_vector_fixed< double, 3 > currentPntvtk(extrPoints->GetPoint(idList[i])[0], extrPoints->GetPoint(idList[i])[1],extrPoints->GetPoint(idList[i])[2]);
                     vnl_vector_fixed< double, 3 > nextPntvtk(extrPoints->GetPoint(idList[i+1])[0], extrPoints->GetPoint(idList[i+1])[1], extrPoints->GetPoint(idList[i+1])[2]);
 
                     vnl_vector_fixed< double, 3 > diff1;
                     diff1 = currentPntvtk - nextPntvtk;
                     diff1.normalize();
 
                     rgba[0] = (unsigned char) (255.0 * std::fabs(diff1[0]));
                     rgba[1] = (unsigned char) (255.0 * std::fabs(diff1[1]));
                     rgba[2] = (unsigned char) (255.0 * std::fabs(diff1[2]));
                     rgba[3] = (unsigned char) (255.0);
 
 
                 } else if (i==pointsPerFiber-1) {
                     /* Last point has no next point, therefore only diff2 is taken */
                     vnl_vector_fixed< double, 3 > currentPntvtk(extrPoints->GetPoint(idList[i])[0], extrPoints->GetPoint(idList[i])[1],extrPoints->GetPoint(idList[i])[2]);
                     vnl_vector_fixed< double, 3 > prevPntvtk(extrPoints->GetPoint(idList[i-1])[0], extrPoints->GetPoint(idList[i-1])[1], extrPoints->GetPoint(idList[i-1])[2]);
 
                     vnl_vector_fixed< double, 3 > diff2;
                     diff2 = currentPntvtk - prevPntvtk;
                     diff2.normalize();
 
                     rgba[0] = (unsigned char) (255.0 * std::fabs(diff2[0]));
                     rgba[1] = (unsigned char) (255.0 * std::fabs(diff2[1]));
                     rgba[2] = (unsigned char) (255.0 * std::fabs(diff2[2]));
                     rgba[3] = (unsigned char) (255.0);
 
                 }
 
                 colorsT->InsertTupleValue(idList[i], rgba);
 
             } //end for loop
 
         } else if (pointsPerFiber == 1) {
             /* a single point does not define a fiber (use vertex mechanisms instead */
             continue;
             //      colorsT->InsertTupleValue(0, rgba);
 
         } else {
             MITK_DEBUG << "Fiber with 0 points detected... please check your tractography algorithm!" ;
             continue;
 
         }
 
 
     }//end for loop
 
     m_FiberPolyData->GetPointData()->AddArray(colorsT);
 
     /*=========================
       - this is more relevant for renderer than for fiberbundleX datastructure
       - think about sourcing this to a explicit method which coordinates colorcoding */
     this->SetColorCoding(COLORCODING_ORIENTATION_BASED);
     //  ===========================
 
     //mini test, shall be ported to MITK TESTINGS!
     if (colorsT->GetSize() != numOfPoints*componentSize)
         MITK_DEBUG << "ALLOCATION ERROR IN INITIATING COLOR ARRAY";
 
 
 }
 
 void mitk::FiberBundleX::DoColorCodingFaBased()
 {
     if(m_FiberPolyData->GetPointData()->HasArray(COLORCODING_FA_BASED) != 1 )
         return;
 
     this->SetColorCoding(COLORCODING_FA_BASED);
     MITK_DEBUG << "FBX: done CC FA based";
     this->GenerateFiberIds();
 }
 
 void mitk::FiberBundleX::DoUseFaFiberOpacity()
 {
     if(m_FiberPolyData->GetPointData()->HasArray(COLORCODING_FA_BASED) != 1 )
         return;
 
     if(m_FiberPolyData->GetPointData()->HasArray(COLORCODING_ORIENTATION_BASED) != 1 )
         return;
 
     vtkDoubleArray* FAValArray = (vtkDoubleArray*) m_FiberPolyData->GetPointData()->GetArray(COLORCODING_FA_BASED);
     vtkUnsignedCharArray* ColorArray = dynamic_cast<vtkUnsignedCharArray*>  (m_FiberPolyData->GetPointData()->GetArray(COLORCODING_ORIENTATION_BASED));
 
     for(long i=0; i<ColorArray->GetNumberOfTuples(); i++) {
         double faValue = FAValArray->GetValue(i);
         faValue = faValue * 255.0;
         ColorArray->SetComponent(i,3, (unsigned char) faValue );
     }
 
     this->SetColorCoding(COLORCODING_ORIENTATION_BASED);
     MITK_DEBUG << "FBX: done CC OPACITY";
     this->GenerateFiberIds();
 }
 
 void mitk::FiberBundleX::ResetFiberOpacity() {
     vtkUnsignedCharArray* ColorArray = dynamic_cast<vtkUnsignedCharArray*>  (m_FiberPolyData->GetPointData()->GetArray(COLORCODING_ORIENTATION_BASED));
     if (ColorArray==NULL)
         return;
     for(long i=0; i<ColorArray->GetNumberOfTuples(); i++)
         ColorArray->SetComponent(i,3, 255.0 );
 }
 
 void mitk::FiberBundleX::SetFAMap(mitk::Image::Pointer FAimage)
 {
     MITK_DEBUG << "SetFAMap";
     vtkSmartPointer<vtkDoubleArray> faValues = vtkSmartPointer<vtkDoubleArray>::New();
     faValues->SetName(COLORCODING_FA_BASED);
     faValues->Allocate(m_FiberPolyData->GetNumberOfPoints());
     faValues->SetNumberOfValues(m_FiberPolyData->GetNumberOfPoints());
 
     vtkPoints* pointSet = m_FiberPolyData->GetPoints();
     for(long i=0; i<m_FiberPolyData->GetNumberOfPoints(); ++i)
     {
         Point3D px;
         px[0] = pointSet->GetPoint(i)[0];
         px[1] = pointSet->GetPoint(i)[1];
         px[2] = pointSet->GetPoint(i)[2];
         double faPixelValue = 1-FAimage->GetPixelValueByWorldCoordinate(px);
         faValues->InsertValue(i, faPixelValue);
     }
 
     m_FiberPolyData->GetPointData()->AddArray(faValues);
     this->GenerateFiberIds();
 
     if(m_FiberPolyData->GetPointData()->HasArray(COLORCODING_FA_BASED))
         MITK_DEBUG << "FA VALUE ARRAY SET";
 }
 
 void mitk::FiberBundleX::GenerateFiberIds()
 {
     if (m_FiberPolyData == NULL)
         return;
 
     vtkSmartPointer<vtkIdFilter> idFiberFilter = vtkSmartPointer<vtkIdFilter>::New();
     idFiberFilter->SetInput(m_FiberPolyData);
     idFiberFilter->CellIdsOn();
     //  idFiberFilter->PointIdsOn(); // point id's are not needed
     idFiberFilter->SetIdsArrayName(FIBER_ID_ARRAY);
     idFiberFilter->FieldDataOn();
     idFiberFilter->Update();
 
     m_FiberIdDataSet = idFiberFilter->GetOutput();
 
     MITK_DEBUG << "Generating Fiber Ids...[done] | " << m_FiberIdDataSet->GetNumberOfCells();
 
 }
 
 mitk::FiberBundleX::Pointer mitk::FiberBundleX::ExtractFiberSubset(ItkUcharImgType* mask, bool anyPoint)
 {
     vtkSmartPointer<vtkPolyData> polyData = this->GetFiberPolyData();
     if (anyPoint)
     {
         float minSpacing = 1;
         if(mask->GetSpacing()[0]<mask->GetSpacing()[1] && mask->GetSpacing()[0]<mask->GetSpacing()[2])
             minSpacing = mask->GetSpacing()[0];
         else if (mask->GetSpacing()[1] < mask->GetSpacing()[2])
             minSpacing = mask->GetSpacing()[1];
         else
             minSpacing = mask->GetSpacing()[2];
 
         mitk::FiberBundleX::Pointer fibCopy = this->GetDeepCopy();
         fibCopy->ResampleFibers(minSpacing/2);
         polyData = fibCopy->GetFiberPolyData();
     }
     vtkSmartPointer<vtkPoints> vtkNewPoints = vtkSmartPointer<vtkPoints>::New();
     vtkSmartPointer<vtkCellArray> vtkNewCells = vtkSmartPointer<vtkCellArray>::New();
     vtkSmartPointer<vtkCellArray> vLines = polyData->GetLines();
     vLines->InitTraversal();
 
     MITK_INFO << "Extracting fibers";
     boost::progress_display disp(m_NumFibers);
     for (int i=0; i<m_NumFibers; i++)
     {
         ++disp;
         vtkIdType   numPoints(0);
         vtkIdType*  pointIds(NULL);
         vLines->GetNextCell ( numPoints, pointIds );
 
         vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
 
         if (numPoints>1)
         {
             if (anyPoint)
             {
                 for (int j=0; j<numPoints; j++)
                 {
                     double* p = polyData->GetPoint(pointIds[j]);
 
                     itk::Point<float, 3> itkP;
                     itkP[0] = p[0]; itkP[1] = p[1]; p[2] = p[2];
                     itk::Index<3> idx;
                     mask->TransformPhysicalPointToIndex(itkP, idx);
                     if ( mask->GetPixel(idx)>0 )
                     {
                         for (int j=0; j<numPoints; j++)
                         {
                             double* p = polyData->GetPoint(pointIds[j]);
                             vtkIdType id = vtkNewPoints->InsertNextPoint(p);
                             container->GetPointIds()->InsertNextId(id);
                         }
                         break;
                     }
                 }
             }
             else
             {
                 double* start = polyData->GetPoint(pointIds[0]);
                 itk::Point<float, 3> itkStart;
                 itkStart[0] = start[0]; itkStart[1] = start[1]; itkStart[2] = start[2];
                 itk::Index<3> idxStart;
                 mask->TransformPhysicalPointToIndex(itkStart, idxStart);
 
                 double* end = polyData->GetPoint(pointIds[numPoints-1]);
                 itk::Point<float, 3> itkEnd;
                 itkEnd[0] = end[0]; itkEnd[1] = end[1]; itkEnd[2] = end[2];
                 itk::Index<3> idxEnd;
                 mask->TransformPhysicalPointToIndex(itkEnd, idxEnd);
 
                 if ( mask->GetPixel(idxStart)>0 && mask->GetPixel(idxEnd)>0 )
                 {
                     for (int j=0; j<numPoints; j++)
                     {
                         double* p = polyData->GetPoint(pointIds[j]);
                         vtkIdType id = vtkNewPoints->InsertNextPoint(p);
                         container->GetPointIds()->InsertNextId(id);
                     }
                 }
             }
         }
 
         vtkNewCells->InsertNextCell(container);
     }
 
     if (vtkNewCells->GetNumberOfCells()<=0)
         return NULL;
 
     vtkSmartPointer<vtkPolyData> newPolyData = vtkSmartPointer<vtkPolyData>::New();
     newPolyData->SetPoints(vtkNewPoints);
     newPolyData->SetLines(vtkNewCells);
     return mitk::FiberBundleX::New(newPolyData);
 }
 
 mitk::FiberBundleX::Pointer mitk::FiberBundleX::ExtractFiberSubset(mitk::PlanarFigure* pf)
 {
     if (pf==NULL)
         return NULL;
 
     std::vector<long> tmp = ExtractFiberIdSubset(pf);
 
     if (tmp.size()<=0)
         return mitk::FiberBundleX::New();
     vtkSmartPointer<vtkPolyData> pTmp = GeneratePolyDataByIds(tmp);
     return mitk::FiberBundleX::New(pTmp);
 }
 
 std::vector<long> mitk::FiberBundleX::ExtractFiberIdSubset(mitk::PlanarFigure* pf)
 {
     MITK_DEBUG << "Extracting fibers!";
     // vector which is returned, contains all extracted FiberIds
     std::vector<long> FibersInROI;
 
     if (pf==NULL)
         return FibersInROI;
 
     /* Handle type of planarfigure */
     // if incoming pf is a pfc
     mitk::PlanarFigureComposite::Pointer pfcomp= dynamic_cast<mitk::PlanarFigureComposite*>(pf);
     if (!pfcomp.IsNull()) {
         // process requested boolean operation of PFC
         switch (pfcomp->getOperationType()) {
         case 0:
         {
             MITK_DEBUG << "AND PROCESSING";
             //AND
             //temporarly store results of the child in this vector, we need that to accumulate the
             std::vector<long> childResults = this->ExtractFiberIdSubset(pfcomp->getChildAt(0));
             MITK_DEBUG << "first roi got fibers in ROI: " << childResults.size();
             MITK_DEBUG << "sorting...";
             std::sort(childResults.begin(), childResults.end());
             MITK_DEBUG << "sorting done";
             std::vector<long> AND_Assamblage(childResults.size());
             //std::vector<unsigned long> AND_Assamblage;
             fill(AND_Assamblage.begin(), AND_Assamblage.end(), -1);
             //AND_Assamblage.reserve(childResults.size()); //max size AND can reach anyway
 
             std::vector<long>::iterator it;
             for (int i=1; i<pfcomp->getNumberOfChildren(); ++i)
             {
                 std::vector<long> tmpChild = this->ExtractFiberIdSubset(pfcomp->getChildAt(i));
                 MITK_DEBUG << "ROI " << i << " has fibers in ROI: " << tmpChild.size();
                 sort(tmpChild.begin(), tmpChild.end());
 
                 it = std::set_intersection(childResults.begin(), childResults.end(),
                                            tmpChild.begin(), tmpChild.end(),
                                            AND_Assamblage.begin() );
             }
 
             MITK_DEBUG << "resize Vector";
             long i=0;
             while (i < AND_Assamblage.size() && AND_Assamblage[i] != -1){ //-1 represents a placeholder in the array
                 ++i;
             }
             AND_Assamblage.resize(i);
 
             MITK_DEBUG << "returning AND vector, size: " << AND_Assamblage.size();
             return AND_Assamblage;
             //            break;
 
         }
         case 1:
         {
             //OR
             std::vector<long> OR_Assamblage = this->ExtractFiberIdSubset(pfcomp->getChildAt(0));
             std::vector<long>::iterator it;
             MITK_DEBUG << OR_Assamblage.size();
 
             for (int i=1; i<pfcomp->getNumberOfChildren(); ++i) {
                 it = OR_Assamblage.end();
                 std::vector<long> tmpChild = this->ExtractFiberIdSubset(pfcomp->getChildAt(i));
                 OR_Assamblage.insert(it, tmpChild.begin(), tmpChild.end());
                 MITK_DEBUG << "ROI " << i << " has fibers in ROI: " << tmpChild.size() << " OR Assamblage: " << OR_Assamblage.size();
             }
 
             sort(OR_Assamblage.begin(), OR_Assamblage.end());
             it = unique(OR_Assamblage.begin(), OR_Assamblage.end());
             OR_Assamblage.resize( it - OR_Assamblage.begin() );
             MITK_DEBUG << "returning OR vector, size: " << OR_Assamblage.size();
 
             return OR_Assamblage;
         }
         case 2:
         {
             //NOT
             //get IDs of all fibers
             std::vector<long> childResults;
             childResults.reserve(this->GetNumFibers());
             vtkSmartPointer<vtkDataArray> idSet = m_FiberIdDataSet->GetCellData()->GetArray(FIBER_ID_ARRAY);
             MITK_DEBUG << "m_NumOfFib: " << this->GetNumFibers() << " cellIdNum: " << idSet->GetNumberOfTuples();
             for(long i=0; i<this->GetNumFibers(); i++)
             {
                 MITK_DEBUG << "i: " << i << " idset: " << idSet->GetTuple(i)[0];
                 childResults.push_back(idSet->GetTuple(i)[0]);
             }
 
             std::sort(childResults.begin(), childResults.end());
             std::vector<long> NOT_Assamblage(childResults.size());
             //fill it with -1, otherwise 0 will be stored and 0 can also be an ID of fiber!
             fill(NOT_Assamblage.begin(), NOT_Assamblage.end(), -1);
             std::vector<long>::iterator it;
 
             for (long i=0; i<pfcomp->getNumberOfChildren(); ++i)
             {
                 std::vector<long> tmpChild = ExtractFiberIdSubset(pfcomp->getChildAt(i));
                 sort(tmpChild.begin(), tmpChild.end());
 
                 it = std::set_difference(childResults.begin(), childResults.end(),
                                          tmpChild.begin(), tmpChild.end(),
                                          NOT_Assamblage.begin() );
 
             }
 
             MITK_DEBUG << "resize Vector";
             long i=0;
             while (NOT_Assamblage[i] != -1){ //-1 represents a placeholder in the array
                 ++i;
             }
             NOT_Assamblage.resize(i);
 
             return NOT_Assamblage;
         }
         default:
             MITK_DEBUG << "we have an UNDEFINED composition... ERROR" ;
             break;
 
         }
     }
     else
     {
         mitk::Geometry2D::ConstPointer pfgeometry = pf->GetGeometry2D();
         const mitk::PlaneGeometry* planeGeometry = dynamic_cast<const mitk::PlaneGeometry*> (pfgeometry.GetPointer());
         Vector3D planeNormal = planeGeometry->GetNormal();
         planeNormal.Normalize();
         Point3D planeOrigin = planeGeometry->GetOrigin();
 
         MITK_DEBUG << "planeOrigin: " << planeOrigin[0] << " | " << planeOrigin[1] << " | " << planeOrigin[2] << endl;
         MITK_DEBUG << "planeNormal: " << planeNormal[0] << " | " << planeNormal[1] << " | " << planeNormal[2] << endl;
 
         std::vector<int> PointsOnPlane; // contains all pointIds which are crossing the cutting plane
         std::vector<int> PointsInROI; // based on PointsOnPlane, all ROI relevant point IDs are stored here
 
         /* Define cutting plane by ROI (PlanarFigure) */
         vtkSmartPointer<vtkPlane> plane = vtkSmartPointer<vtkPlane>::New();
         plane->SetOrigin(planeOrigin[0],planeOrigin[1],planeOrigin[2]);
         plane->SetNormal(planeNormal[0],planeNormal[1],planeNormal[2]);
 
         /* get all points/fibers cutting the plane */
         MITK_DEBUG << "start clipping";
         vtkSmartPointer<vtkClipPolyData> clipper = vtkSmartPointer<vtkClipPolyData>::New();
         clipper->SetInput(m_FiberIdDataSet);
         clipper->SetClipFunction(plane);
         clipper->GenerateClipScalarsOn();
         clipper->GenerateClippedOutputOn();
         vtkSmartPointer<vtkPolyData> clipperout = clipper->GetClippedOutput();
         MITK_DEBUG << "end clipping";
 
         MITK_DEBUG << "init and update clipperoutput";
         clipperout->GetPointData()->Initialize();
         clipperout->Update();
         MITK_DEBUG << "init and update clipperoutput completed";
 
         MITK_DEBUG << "STEP 1: find all points which have distance 0 to the given plane";
         /*======STEP 1======
       * extract all points, which are crossing the plane */
         // Scalar values describe the distance between each remaining point to the given plane. Values sorted by point index
         vtkSmartPointer<vtkDataArray> distanceList = clipperout->GetPointData()->GetScalars();
         vtkIdType sizeOfList =  distanceList->GetNumberOfTuples();
         PointsOnPlane.reserve(sizeOfList); /* use reserve for high-performant push_back, no hidden copy procedures are processed then!
                                          * size of list can be optimized by reducing allocation, but be aware of iterator and vector size*/
 
         for (int i=0; i<sizeOfList; ++i) {
             double *distance = distanceList->GetTuple(i);
 
             // check if point is on plane.
             // 0.01 due to some approximation errors when calculating distance
             if (distance[0] >= -0.01 && distance[0] <= 0.01)
                 PointsOnPlane.push_back(i);
         }
 
 
         MITK_DEBUG << "Num Of points on plane: " <<  PointsOnPlane.size();
 
         MITK_DEBUG << "Step 2: extract Interesting points with respect to given extraction planarFigure";
 
         PointsInROI.reserve(PointsOnPlane.size());
         /*=======STEP 2=====
      * extract ROI relevant pointIds */
 
         mitk::PlanarCircle::Pointer circleName = mitk::PlanarCircle::New();
         mitk::PlanarPolygon::Pointer polyName = mitk::PlanarPolygon::New();
         if ( pf->GetNameOfClass() == circleName->GetNameOfClass() )
         {
             //calculate circle radius
             mitk::Point3D V1w = pf->GetWorldControlPoint(0); //centerPoint
             mitk::Point3D V2w  = pf->GetWorldControlPoint(1); //radiusPoint
 
             double distPF = V1w.EuclideanDistanceTo(V2w);
 
             for (int i=0; i<PointsOnPlane.size(); i++)
             {
                 //distance between circle radius and given point
                 double XdistPnt =  sqrt((double) (clipperout->GetPoint(PointsOnPlane[i])[0] - V1w[0]) * (clipperout->GetPoint(PointsOnPlane[i])[0] - V1w[0]) +
                                         (clipperout->GetPoint(PointsOnPlane[i])[1] - V1w[1]) * (clipperout->GetPoint(PointsOnPlane[i])[1] - V1w[1]) +
                                         (clipperout->GetPoint(PointsOnPlane[i])[2] - V1w[2]) * (clipperout->GetPoint(PointsOnPlane[i])[2] - V1w[2])) ;
 
                 if( XdistPnt <= distPF)
                     PointsInROI.push_back(PointsOnPlane[i]);
             }
         }
         else if ( pf->GetNameOfClass() == polyName->GetNameOfClass() )
         {
             //create vtkPolygon using controlpoints from planarFigure polygon
             vtkSmartPointer<vtkPolygon> polygonVtk = vtkSmartPointer<vtkPolygon>::New();
 
             //get the control points from pf and insert them to vtkPolygon
             unsigned int nrCtrlPnts = pf->GetNumberOfControlPoints();
 
             for (int i=0; i<nrCtrlPnts; ++i)
             {
                 polygonVtk->GetPoints()->InsertNextPoint((double)pf->GetWorldControlPoint(i)[0], (double)pf->GetWorldControlPoint(i)[1], (double)pf->GetWorldControlPoint(i)[2] );
             }
 
             //prepare everything for using pointInPolygon function
             double n[3];
             polygonVtk->ComputeNormal(polygonVtk->GetPoints()->GetNumberOfPoints(),
                                       static_cast<double*>(polygonVtk->GetPoints()->GetData()->GetVoidPointer(0)), n);
 
             double bounds[6];
             polygonVtk->GetPoints()->GetBounds(bounds);
 
             for (int i=0; i<PointsOnPlane.size(); i++)
             {
                 double checkIn[3] = {clipperout->GetPoint(PointsOnPlane[i])[0], clipperout->GetPoint(PointsOnPlane[i])[1], clipperout->GetPoint(PointsOnPlane[i])[2]};
                 int isInPolygon = polygonVtk->PointInPolygon(checkIn, polygonVtk->GetPoints()->GetNumberOfPoints()
                                                              , static_cast<double*>(polygonVtk->GetPoints()->GetData()->GetVoidPointer(0)), bounds, n);
                 if( isInPolygon )
                     PointsInROI.push_back(PointsOnPlane[i]);
             }
         }
 
         MITK_DEBUG << "Step3: Identify fibers";
         // we need to access the fiberId Array, so make sure that this array is available
         if (!clipperout->GetCellData()->HasArray(FIBER_ID_ARRAY))
         {
             MITK_DEBUG << "ERROR: FiberID array does not exist, no correlation between points and fiberIds possible! Make sure calling GenerateFiberIds()";
             return FibersInROI; // FibersInRoi is empty then
         }
         if (PointsInROI.size()<=0)
             return FibersInROI;
 
         // prepare a structure where each point id is represented as an indexId.
         // vector looks like: | pntId | fiberIdx |
         std::vector< long > pointindexFiberMap;
 
         // walk through the whole subline section and create an vector sorted by point index
         vtkCellArray *clipperlines = clipperout->GetLines();
         clipperlines->InitTraversal();
         long numOfLineCells = clipperlines->GetNumberOfCells();
         long numofClippedPoints = clipperout->GetNumberOfPoints();
         pointindexFiberMap.resize(numofClippedPoints);
 
 
         //prepare resulting vector
         FibersInROI.reserve(PointsInROI.size());
 
         MITK_DEBUG << "\n===== Pointindex based structure initialized ======\n";
 
         // go through resulting "sub"lines which are stored as cells, "i" corresponds to current line id.
         for (int i=0, ic=0 ; i<numOfLineCells; i++, ic+=3)
         { //ic is the index counter for the cells hosting the desired information, eg. 2 | 45 | 46. each cell consits of 3 items.
 
             vtkIdType npts;
             vtkIdType *pts;
             clipperlines->GetCell(ic, npts, pts);
 
             // go through point ids in hosting subline, "j" corresponds to current pointindex in current line i. eg. idx[0]=45; idx[1]=46
             for (long j=0; j<npts; j++)
             {
                 // MITK_DEBUG << "writing fiber id: " << clipperout->GetCellData()->GetArray(FIBER_ID_ARRAY)->GetTuple(i)[0] << " to pointId: " << pts[j];
                 pointindexFiberMap[ pts[j] ] = clipperout->GetCellData()->GetArray(FIBER_ID_ARRAY)->GetTuple(i)[0];
                 // MITK_DEBUG << "in array: " << pointindexFiberMap[ pts[j] ];
             }
 
         }
 
         MITK_DEBUG << "\n===== Pointindex based structure finalized ======\n";
 
         // get all Points in ROI with according fiberID
         for (long k = 0; k < PointsInROI.size(); k++)
         {
             //MITK_DEBUG << "point " << PointsInROI[k] << " belongs to fiber " << pointindexFiberMap[ PointsInROI[k] ];
             if (pointindexFiberMap[ PointsInROI[k] ]<=GetNumFibers() && pointindexFiberMap[ PointsInROI[k] ]>=0)
                 FibersInROI.push_back(pointindexFiberMap[ PointsInROI[k] ]);
             else
                 MITK_INFO << "ERROR in ExtractFiberIdSubset; impossible fiber id detected";
         }
 
         m_PointsRoi = PointsInROI;
 
     }
 
     //  detecting fiberId duplicates
     MITK_DEBUG << "check for duplicates";
 
     sort(FibersInROI.begin(), FibersInROI.end());
     bool hasDuplicats = false;
     for(long i=0; i<FibersInROI.size()-1; ++i)
     {
         if(FibersInROI[i] == FibersInROI[i+1])
             hasDuplicats = true;
     }
 
     if(hasDuplicats)
     {
         std::vector<long>::iterator it;
         it = unique (FibersInROI.begin(), FibersInROI.end());
         FibersInROI.resize( it - FibersInROI.begin() );
     }
 
     return FibersInROI;
 }
 
 void mitk::FiberBundleX::UpdateFiberGeometry()
 {
     vtkSmartPointer<vtkCleanPolyData> cleaner = vtkSmartPointer<vtkCleanPolyData>::New();
     cleaner->SetInput(m_FiberPolyData);
     cleaner->PointMergingOff();
     cleaner->Update();
     m_FiberPolyData = cleaner->GetOutput();
 
     m_FiberLengths.clear();
     m_MeanFiberLength = 0;
     m_MedianFiberLength = 0;
     m_LengthStDev = 0;
     m_NumFibers = m_FiberPolyData->GetNumberOfLines();
 
     if (m_NumFibers<=0) // no fibers present; apply default geometry
     {
         m_MinFiberLength = 0;
         m_MaxFiberLength = 0;
         mitk::Geometry3D::Pointer geometry = mitk::Geometry3D::New();
         geometry->SetImageGeometry(true);
         float b[] = {0, 1, 0, 1, 0, 1};
         geometry->SetFloatBounds(b);
         SetGeometry(geometry);
         return;
     }
     float min = itk::NumericTraits<float>::NonpositiveMin();
     float max = itk::NumericTraits<float>::max();
     float b[] = {max, min, max, min, max, min};
 
     vtkCellArray* cells = m_FiberPolyData->GetLines();
     cells->InitTraversal();
     for (int i=0; i<m_FiberPolyData->GetNumberOfCells(); i++)
     {
         vtkCell* cell = m_FiberPolyData->GetCell(i);
         int p = cell->GetNumberOfPoints();
         vtkPoints* points = cell->GetPoints();
         float length = 0;
         for (int j=0; j<p; j++)
         {
             // calculate bounding box
             double p1[3];
             points->GetPoint(j, p1);
 
             if (p1[0]<b[0])
                 b[0]=p1[0];
             if (p1[0]>b[1])
                 b[1]=p1[0];
 
             if (p1[1]<b[2])
                 b[2]=p1[1];
             if (p1[1]>b[3])
                 b[3]=p1[1];
 
             if (p1[2]<b[4])
                 b[4]=p1[2];
             if (p1[2]>b[5])
                 b[5]=p1[2];
 
             // calculate statistics
             if (j<p-1)
             {
                 double p2[3];
                 points->GetPoint(j+1, p2);
 
                 float dist = std::sqrt((p1[0]-p2[0])*(p1[0]-p2[0])+(p1[1]-p2[1])*(p1[1]-p2[1])+(p1[2]-p2[2])*(p1[2]-p2[2]));
                 length += dist;
             }
         }
         m_FiberLengths.push_back(length);
         m_MeanFiberLength += length;
         if (i==0)
         {
             m_MinFiberLength = length;
             m_MaxFiberLength = length;
         }
         else
         {
             if (length<m_MinFiberLength)
                 m_MinFiberLength = length;
             if (length>m_MaxFiberLength)
                 m_MaxFiberLength = length;
         }
     }
     m_MeanFiberLength /= m_NumFibers;
 
     std::vector< float > sortedLengths = m_FiberLengths;
     std::sort(sortedLengths.begin(), sortedLengths.end());
     for (int i=0; i<m_NumFibers; i++)
         m_LengthStDev += (m_MeanFiberLength-sortedLengths.at(i))*(m_MeanFiberLength-sortedLengths.at(i));
     if (m_NumFibers>1)
         m_LengthStDev /= (m_NumFibers-1);
     else
         m_LengthStDev = 0;
     m_LengthStDev = std::sqrt(m_LengthStDev);
     m_MedianFiberLength = sortedLengths.at(m_NumFibers/2);
 
     // provide some border margin
     for(int i=0; i<=4; i+=2)
         b[i] -=10;
     for(int i=1; i<=5; i+=2)
         b[i] +=10;
 
     mitk::Geometry3D::Pointer geometry = mitk::Geometry3D::New();
     geometry->SetFloatBounds(b);
     this->SetGeometry(geometry);
 }
 
 QStringList mitk::FiberBundleX::GetAvailableColorCodings()
 {
     QStringList availableColorCodings;
     int numColors = m_FiberPolyData->GetPointData()->GetNumberOfArrays();
     for(int i=0; i<numColors; i++)
     {
         availableColorCodings.append(m_FiberPolyData->GetPointData()->GetArrayName(i));
     }
 
     //this controlstructure shall be implemented by the calling method
     if (availableColorCodings.isEmpty())
         MITK_DEBUG << "no colorcodings available in fiberbundleX";
 
     return availableColorCodings;
 }
 
 
 char* mitk::FiberBundleX::GetCurrentColorCoding()
 {
     return m_CurrentColorCoding;
 }
 
 void mitk::FiberBundleX::SetColorCoding(const char* requestedColorCoding)
 {
 
     if (requestedColorCoding==NULL)
         return;
     MITK_DEBUG << "SetColorCoding:" << requestedColorCoding;
 
     if( strcmp (COLORCODING_ORIENTATION_BASED,requestedColorCoding) == 0 )    {
         this->m_CurrentColorCoding = (char*) COLORCODING_ORIENTATION_BASED;
 
     } else if( strcmp (COLORCODING_FA_BASED,requestedColorCoding) == 0 ) {
         this->m_CurrentColorCoding = (char*) COLORCODING_FA_BASED;
 
     } else if( strcmp (COLORCODING_CUSTOM,requestedColorCoding) == 0 ) {
         this->m_CurrentColorCoding = (char*) COLORCODING_CUSTOM;
 
     } else {
         MITK_DEBUG << "FIBERBUNDLE X: UNKNOWN COLORCODING in FIBERBUNDLEX Datastructure";
         this->m_CurrentColorCoding = (char*) COLORCODING_CUSTOM; //will cause blank colorcoding of fibers
     }
 }
 
 void mitk::FiberBundleX::RotateAroundAxis(double x, double y, double z)
 {
     MITK_INFO << "Rotating fibers";
     x = x*M_PI/180;
     y = y*M_PI/180;
     z = z*M_PI/180;
 
     vnl_matrix_fixed< double, 3, 3 > rotX; rotX.set_identity();
     rotX[1][1] = cos(x);
     rotX[2][2] = rotX[1][1];
     rotX[1][2] = -sin(x);
     rotX[2][1] = -rotX[1][2];
 
     vnl_matrix_fixed< double, 3, 3 > rotY; rotY.set_identity();
     rotY[0][0] = cos(y);
     rotY[2][2] = rotY[0][0];
     rotY[0][2] = sin(y);
     rotY[2][0] = -rotY[0][2];
 
     vnl_matrix_fixed< double, 3, 3 > rotZ; rotZ.set_identity();
     rotZ[0][0] = cos(z);
     rotZ[1][1] = rotZ[0][0];
     rotZ[0][1] = -sin(z);
     rotZ[1][0] = -rotZ[0][1];
 
     mitk::Geometry3D::Pointer geom = this->GetGeometry();
     mitk::Point3D center = geom->GetCenter();
 
     boost::progress_display disp(m_NumFibers);
 
     vtkSmartPointer<vtkPoints> vtkNewPoints = vtkSmartPointer<vtkPoints>::New();
     vtkSmartPointer<vtkCellArray> vtkNewCells = vtkSmartPointer<vtkCellArray>::New();
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
     for (int i=0; i<m_NumFibers; i++)
     {
         ++disp ;
         vtkIdType   numPoints(0);
         vtkIdType*  pointIds(NULL);
         vLines->GetNextCell ( numPoints, pointIds );
 
         vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
         for (int j=0; j<numPoints; j++)
         {
             double* p = m_FiberPolyData->GetPoint(pointIds[j]);
             vnl_vector_fixed< double, 3 > dir;
             dir[0] = p[0]-center[0];
             dir[1] = p[1]-center[1];
             dir[2] = p[2]-center[2];
             dir = rotZ*rotY*rotX*dir;
             dir[0] += center[0];
             dir[1] += center[1];
             dir[2] += center[2];
             vtkIdType id = vtkNewPoints->InsertNextPoint(dir.data_block());
             container->GetPointIds()->InsertNextId(id);
         }
         vtkNewCells->InsertNextCell(container);
     }
 
     m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     m_FiberPolyData->SetPoints(vtkNewPoints);
     m_FiberPolyData->SetLines(vtkNewCells);
     UpdateColorCoding();
     UpdateFiberGeometry();
 }
 
 void mitk::FiberBundleX::ScaleFibers(double x, double y, double z)
 {
     MITK_INFO << "Scaling fibers";
     boost::progress_display disp(m_NumFibers);
 
+    mitk::Geometry3D* geom = this->GetGeometry();
+    mitk::Point3D c = geom->GetCenter();
+
     vtkSmartPointer<vtkPoints> vtkNewPoints = vtkSmartPointer<vtkPoints>::New();
     vtkSmartPointer<vtkCellArray> vtkNewCells = vtkSmartPointer<vtkCellArray>::New();
 
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
     for (int i=0; i<m_NumFibers; i++)
     {
         ++disp ;
         vtkIdType   numPoints(0);
         vtkIdType*  pointIds(NULL);
         vLines->GetNextCell ( numPoints, pointIds );
 
         vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
         for (int j=0; j<numPoints; j++)
         {
             double* p = m_FiberPolyData->GetPoint(pointIds[j]);
+            p[0] -= c[0]; p[1] -= c[1]; p[2] -= c[2];
             p[0] *= x;
             p[1] *= y;
             p[2] *= z;
+            p[0] += c[0]; p[1] += c[1]; p[2] += c[2];
             vtkIdType id = vtkNewPoints->InsertNextPoint(p);
             container->GetPointIds()->InsertNextId(id);
         }
         vtkNewCells->InsertNextCell(container);
     }
 
     m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     m_FiberPolyData->SetPoints(vtkNewPoints);
     m_FiberPolyData->SetLines(vtkNewCells);
     UpdateColorCoding();
     UpdateFiberGeometry();
 }
 
 void mitk::FiberBundleX::TranslateFibers(double x, double y, double z)
 {
     MITK_INFO << "Translating fibers";
     boost::progress_display disp(m_NumFibers);
 
     vtkSmartPointer<vtkPoints> vtkNewPoints = vtkSmartPointer<vtkPoints>::New();
     vtkSmartPointer<vtkCellArray> vtkNewCells = vtkSmartPointer<vtkCellArray>::New();
 
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
     for (int i=0; i<m_NumFibers; i++)
     {
         ++disp ;
         vtkIdType   numPoints(0);
         vtkIdType*  pointIds(NULL);
         vLines->GetNextCell ( numPoints, pointIds );
 
         vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
         for (int j=0; j<numPoints; j++)
         {
             double* p = m_FiberPolyData->GetPoint(pointIds[j]);
             p[0] += x;
             p[1] += y;
             p[2] += z;
             vtkIdType id = vtkNewPoints->InsertNextPoint(p);
             container->GetPointIds()->InsertNextId(id);
         }
         vtkNewCells->InsertNextCell(container);
     }
 
     m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     m_FiberPolyData->SetPoints(vtkNewPoints);
     m_FiberPolyData->SetLines(vtkNewCells);
     UpdateColorCoding();
     UpdateFiberGeometry();
 }
 
 void mitk::FiberBundleX::MirrorFibers(unsigned int axis)
 {
     if (axis>2)
         return;
 
     MITK_INFO << "Mirroring fibers";
     boost::progress_display disp(m_NumFibers);
 
     vtkSmartPointer<vtkPoints> vtkNewPoints = vtkSmartPointer<vtkPoints>::New();
     vtkSmartPointer<vtkCellArray> vtkNewCells = vtkSmartPointer<vtkCellArray>::New();
 
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
     for (int i=0; i<m_NumFibers; i++)
     {
         ++disp ;
         vtkIdType   numPoints(0);
         vtkIdType*  pointIds(NULL);
         vLines->GetNextCell ( numPoints, pointIds );
 
         vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
         for (int j=0; j<numPoints; j++)
         {
             double* p = m_FiberPolyData->GetPoint(pointIds[j]);
             p[axis] = -p[axis];
             vtkIdType id = vtkNewPoints->InsertNextPoint(p);
             container->GetPointIds()->InsertNextId(id);
         }
         vtkNewCells->InsertNextCell(container);
     }
 
     m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     m_FiberPolyData->SetPoints(vtkNewPoints);
     m_FiberPolyData->SetLines(vtkNewCells);
     UpdateColorCoding();
     UpdateFiberGeometry();
 }
 
 bool mitk::FiberBundleX::ApplyCurvatureThreshold(float minRadius, bool deleteFibers)
 {
     if (minRadius<0)
         return true;
 
     vtkSmartPointer<vtkPoints> vtkNewPoints = vtkSmartPointer<vtkPoints>::New();
     vtkSmartPointer<vtkCellArray> vtkNewCells = vtkSmartPointer<vtkCellArray>::New();
     vtkSmartPointer<vtkCellArray> vtkOldCells = m_FiberPolyData->GetLines();
     vtkOldCells->InitTraversal();
 
     MITK_INFO << "Applying curvature threshold";
     boost::progress_display disp(m_FiberPolyData->GetNumberOfCells());
     for (int i=0; i<m_FiberPolyData->GetNumberOfCells(); i++)
     {
         ++disp ;
         vtkIdType   numPoints(0);
         vtkIdType*  points(NULL);
         vtkOldCells->GetNextCell ( numPoints, points );
 
         // calculate curvatures
         vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
         for (int j=0; j<numPoints-2; j++)
         {
             double p1[3];
             m_FiberPolyData->GetPoint(points[j], p1);
             double p2[3];
             m_FiberPolyData->GetPoint(points[j+1], p2);
             double p3[3];
             m_FiberPolyData->GetPoint(points[j+2], p3);
 
             vnl_vector_fixed< float, 3 > v1, v2, v3;
 
             v1[0] = p2[0]-p1[0];
             v1[1] = p2[1]-p1[1];
             v1[2] = p2[2]-p1[2];
 
             v2[0] = p3[0]-p2[0];
             v2[1] = p3[1]-p2[1];
             v2[2] = p3[2]-p2[2];
 
             v3[0] = p1[0]-p3[0];
             v3[1] = p1[1]-p3[1];
             v3[2] = p1[2]-p3[2];
 
             float a = v1.magnitude();
             float b = v2.magnitude();
             float c = v3.magnitude();
             float r = a*b*c/std::sqrt((a+b+c)*(a+b-c)*(b+c-a)*(a-b+c)); // radius of triangle via Heron's formula (area of triangle)
 
             vtkIdType id = vtkNewPoints->InsertNextPoint(p1);
             container->GetPointIds()->InsertNextId(id);
 
             if (deleteFibers && r<minRadius)
                 break;
 
             if (r<minRadius)
             {
                 j += 2;
 //                id = vtkNewPoints->InsertNextPoint(p2);
 //                container->GetPointIds()->InsertNextId(id);
                 vtkNewCells->InsertNextCell(container);
                 container = vtkSmartPointer<vtkPolyLine>::New();
             }
             else if (j==numPoints-3)
             {
                 id = vtkNewPoints->InsertNextPoint(p2);
                 container->GetPointIds()->InsertNextId(id);
                 id = vtkNewPoints->InsertNextPoint(p3);
                 container->GetPointIds()->InsertNextId(id);
                 vtkNewCells->InsertNextCell(container);
             }
         }
     }
 
     if (vtkNewCells->GetNumberOfCells()<=0)
         return false;
 
 
     m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     m_FiberPolyData->SetPoints(vtkNewPoints);
     m_FiberPolyData->SetLines(vtkNewCells);
 
     UpdateColorCoding();
     UpdateFiberGeometry();
     return true;
 }
 
 bool mitk::FiberBundleX::RemoveShortFibers(float lengthInMM)
 {
     if (lengthInMM<=0 || lengthInMM<m_MinFiberLength)
         return true;
 
     if (lengthInMM>m_MaxFiberLength)    // can't remove all fibers
         return false;
 
     vtkSmartPointer<vtkPoints> vtkNewPoints = vtkSmartPointer<vtkPoints>::New();
     vtkSmartPointer<vtkCellArray> vtkNewCells = vtkSmartPointer<vtkCellArray>::New();
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
     float min = m_MaxFiberLength;
 
     MITK_INFO << "Removing short fibers";
     boost::progress_display disp(m_NumFibers);
     for (int i=0; i<m_NumFibers; i++)
     {
         ++disp;
         vtkIdType   numPoints(0);
         vtkIdType*  pointIds(NULL);
         vLines->GetNextCell ( numPoints, pointIds );
 
         if (m_FiberLengths.at(i)>=lengthInMM)
         {
             vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
             for (int j=0; j<numPoints; j++)
             {
                 double* p = m_FiberPolyData->GetPoint(pointIds[j]);
                 vtkIdType id = vtkNewPoints->InsertNextPoint(p);
                 container->GetPointIds()->InsertNextId(id);
             }
             vtkNewCells->InsertNextCell(container);
             if (m_FiberLengths.at(i)<min)
                 min = m_FiberLengths.at(i);
         }
     }
 
     if (vtkNewCells->GetNumberOfCells()<=0)
         return false;
 
     m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     m_FiberPolyData->SetPoints(vtkNewPoints);
     m_FiberPolyData->SetLines(vtkNewCells);
 
     UpdateColorCoding();
     UpdateFiberGeometry();
     return true;
 }
 
 bool mitk::FiberBundleX::RemoveLongFibers(float lengthInMM)
 {
     if (lengthInMM<=0 || lengthInMM>m_MaxFiberLength)
         return true;
 
     if (lengthInMM<m_MinFiberLength)    // can't remove all fibers
         return false;
 
     vtkSmartPointer<vtkPoints> vtkNewPoints = vtkSmartPointer<vtkPoints>::New();
     vtkSmartPointer<vtkCellArray> vtkNewCells = vtkSmartPointer<vtkCellArray>::New();
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
 
     MITK_INFO << "Removing long fibers";
     boost::progress_display disp(m_NumFibers);
     for (int i=0; i<m_NumFibers; i++)
     {
         ++disp;
         vtkIdType   numPoints(0);
         vtkIdType*  pointIds(NULL);
         vLines->GetNextCell ( numPoints, pointIds );
 
         if (m_FiberLengths.at(i)<=lengthInMM)
         {
             vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
             for (int j=0; j<numPoints; j++)
             {
                 double* p = m_FiberPolyData->GetPoint(pointIds[j]);
                 vtkIdType id = vtkNewPoints->InsertNextPoint(p);
                 container->GetPointIds()->InsertNextId(id);
             }
             vtkNewCells->InsertNextCell(container);
         }
     }
 
     if (vtkNewCells->GetNumberOfCells()<=0)
         return false;
 
     m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     m_FiberPolyData->SetPoints(vtkNewPoints);
     m_FiberPolyData->SetLines(vtkNewCells);
     UpdateColorCoding();
     UpdateFiberGeometry();
     return true;
 }
 
 void mitk::FiberBundleX::DoFiberSmoothing(int pointsPerCm, double tension, double continuity, double bias )
 {
     vtkSmartPointer<vtkPoints> vtkSmoothPoints = vtkSmartPointer<vtkPoints>::New(); //in smoothpoints the interpolated points representing a fiber are stored.
 
     //in vtkcells all polylines are stored, actually all id's of them are stored
     vtkSmartPointer<vtkCellArray> vtkSmoothCells = vtkSmartPointer<vtkCellArray>::New(); //cellcontainer for smoothed lines
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
     vtkIdType pointHelperCnt = 0;
 
     MITK_INFO << "Resampling fibers";
     boost::progress_display disp(m_NumFibers);
     for (int i=0; i<m_NumFibers; i++)
     {
         ++disp;
         vtkIdType   numPoints(0);
         vtkIdType*  pointIds(NULL);
         vLines->GetNextCell ( numPoints, pointIds );
 
         vtkSmartPointer<vtkPoints> points = vtkSmartPointer<vtkPoints>::New();
         for (int j=0; j<numPoints; j++)
             points->InsertNextPoint(m_FiberPolyData->GetPoint(pointIds[j]));
 
         float length = m_FiberLengths.at(i);
         length /=10;
         int sampling = pointsPerCm*length;
 
         vtkSmartPointer<vtkKochanekSpline> xSpline = vtkSmartPointer<vtkKochanekSpline>::New();
         vtkSmartPointer<vtkKochanekSpline> ySpline = vtkSmartPointer<vtkKochanekSpline>::New();
         vtkSmartPointer<vtkKochanekSpline> zSpline = vtkSmartPointer<vtkKochanekSpline>::New();
         xSpline->SetDefaultBias(bias); xSpline->SetDefaultTension(tension); xSpline->SetDefaultContinuity(continuity);
         ySpline->SetDefaultBias(bias); ySpline->SetDefaultTension(tension); ySpline->SetDefaultContinuity(continuity);
         zSpline->SetDefaultBias(bias); zSpline->SetDefaultTension(tension); zSpline->SetDefaultContinuity(continuity);
 
         vtkSmartPointer<vtkParametricSpline> spline = vtkSmartPointer<vtkParametricSpline>::New();
         spline->SetXSpline(xSpline);
         spline->SetYSpline(ySpline);
         spline->SetZSpline(zSpline);
         spline->SetPoints(points);
 
         vtkSmartPointer<vtkParametricFunctionSource> functionSource = vtkSmartPointer<vtkParametricFunctionSource>::New();
         functionSource->SetParametricFunction(spline);
         functionSource->SetUResolution(sampling);
         functionSource->SetVResolution(sampling);
         functionSource->SetWResolution(sampling);
         functionSource->Update();
 
         vtkPolyData* outputFunction = functionSource->GetOutput();
         vtkPoints* tmpSmoothPnts = outputFunction->GetPoints(); //smoothPoints of current fiber
 
         vtkSmartPointer<vtkPolyLine> smoothLine = vtkSmartPointer<vtkPolyLine>::New();
         smoothLine->GetPointIds()->SetNumberOfIds(tmpSmoothPnts->GetNumberOfPoints());
 
         for (int j=0; j<smoothLine->GetNumberOfPoints(); j++)
         {
             smoothLine->GetPointIds()->SetId(j, j+pointHelperCnt);
             vtkSmoothPoints->InsertNextPoint(tmpSmoothPnts->GetPoint(j));
         }
         vtkSmoothCells->InsertNextCell(smoothLine);
         pointHelperCnt += tmpSmoothPnts->GetNumberOfPoints();
     }
 
     m_FiberPolyData = vtkSmartPointer<vtkPolyData>::New();
     m_FiberPolyData->SetPoints(vtkSmoothPoints);
     m_FiberPolyData->SetLines(vtkSmoothCells);
     UpdateColorCoding();
     UpdateFiberGeometry();
     m_FiberSampling = pointsPerCm;
 }
 
 void mitk::FiberBundleX::DoFiberSmoothing(int pointsPerCm)
 {
     DoFiberSmoothing(pointsPerCm, 0, 0, 0 );
 }
 
 // Resample fiber to get equidistant points
 void mitk::FiberBundleX::ResampleFibers(float pointDistance)
 {
     if (pointDistance<=0.00001)
         return;
 
     vtkSmartPointer<vtkPolyData> newPoly = vtkSmartPointer<vtkPolyData>::New();
     vtkSmartPointer<vtkCellArray> newCellArray = vtkSmartPointer<vtkCellArray>::New();
     vtkSmartPointer<vtkPoints>    newPoints = vtkSmartPointer<vtkPoints>::New();
 
     vtkSmartPointer<vtkCellArray> vLines = m_FiberPolyData->GetLines();
     vLines->InitTraversal();
     int numberOfLines = m_NumFibers;
 
     MITK_INFO << "Resampling fibers";
     boost::progress_display disp(m_NumFibers);
     for (int i=0; i<numberOfLines; i++)
     {
         ++disp;
         vtkIdType   numPoints(0);
         vtkIdType*  points(NULL);
         vLines->GetNextCell ( numPoints, points );
 
         vtkSmartPointer<vtkPolyLine> container = vtkSmartPointer<vtkPolyLine>::New();
 
         double* point = m_FiberPolyData->GetPoint(points[0]);
         vtkIdType pointId = newPoints->InsertNextPoint(point);
         container->GetPointIds()->InsertNextId(pointId);
 
         float dtau = 0;
         int cur_p = 1;
         itk::Vector<float,3> dR;
         float normdR = 0;
 
         for (;;)
         {
             while (dtau <= pointDistance && cur_p < numPoints)
             {
                 itk::Vector<float,3> v1;
                 point = m_FiberPolyData->GetPoint(points[cur_p-1]);
                 v1[0] = point[0];
                 v1[1] = point[1];
                 v1[2] = point[2];
                 itk::Vector<float,3> v2;
                 point = m_FiberPolyData->GetPoint(points[cur_p]);
                 v2[0] = point[0];
                 v2[1] = point[1];
                 v2[2] = point[2];
 
                 dR  = v2 - v1;
                 normdR = std::sqrt(dR.GetSquaredNorm());
                 dtau += normdR;
                 cur_p++;
             }
 
             if (dtau >= pointDistance)
             {
                 itk::Vector<float,3> v1;
                 point = m_FiberPolyData->GetPoint(points[cur_p-1]);
                 v1[0] = point[0];
                 v1[1] = point[1];
                 v1[2] = point[2];
 
                 itk::Vector<float,3> v2 = v1 - dR*( (dtau-pointDistance)/normdR );
                 pointId = newPoints->InsertNextPoint(v2.GetDataPointer());
                 container->GetPointIds()->InsertNextId(pointId);
             }
             else
             {
                 point = m_FiberPolyData->GetPoint(points[numPoints-1]);
                 pointId = newPoints->InsertNextPoint(point);
                 container->GetPointIds()->InsertNextId(pointId);
                 break;
             }
             dtau = dtau-pointDistance;
         }
 
         newCellArray->InsertNextCell(container);
     }
 
     newPoly->SetPoints(newPoints);
     newPoly->SetLines(newCellArray);
     m_FiberPolyData = newPoly;
     UpdateFiberGeometry();
     UpdateColorCoding();
     m_FiberSampling = 10/pointDistance;
 }
 
 // reapply selected colorcoding in case polydata structure has changed
 void mitk::FiberBundleX::UpdateColorCoding()
 {
     char* cc = GetCurrentColorCoding();
 
     if( strcmp (COLORCODING_ORIENTATION_BASED,cc) == 0 )
         DoColorCodingOrientationBased();
     else if( strcmp (COLORCODING_FA_BASED,cc) == 0 )
         DoColorCodingFaBased();
 }
 
 // reapply selected colorcoding in case polydata structure has changed
 bool mitk::FiberBundleX::Equals(mitk::FiberBundleX* fib)
 {
     if (fib==NULL)
         return false;
 
     mitk::FiberBundleX::Pointer tempFib = this->SubtractBundle(fib);
     mitk::FiberBundleX::Pointer tempFib2 = fib->SubtractBundle(this);
 
     if (tempFib.IsNull() && tempFib2.IsNull())
         return true;
 
     return false;
 }
 
 /* ESSENTIAL IMPLEMENTATION OF SUPERCLASS METHODS */
 void mitk::FiberBundleX::UpdateOutputInformation()
 {
 
 }
 void mitk::FiberBundleX::SetRequestedRegionToLargestPossibleRegion()
 {
 
 }
 bool mitk::FiberBundleX::RequestedRegionIsOutsideOfTheBufferedRegion()
 {
     return false;
 }
 bool mitk::FiberBundleX::VerifyRequestedRegion()
 {
     return true;
 }
 void mitk::FiberBundleX::SetRequestedRegion( itk::DataObject *data )
 {
 
 }
diff --git a/Modules/DiffusionImaging/FiberTracking/SignalModels/mitkStickModel.cpp b/Modules/DiffusionImaging/FiberTracking/SignalModels/mitkStickModel.cpp
index 9189411df6..10222ae7c1 100644
--- a/Modules/DiffusionImaging/FiberTracking/SignalModels/mitkStickModel.cpp
+++ b/Modules/DiffusionImaging/FiberTracking/SignalModels/mitkStickModel.cpp
@@ -1,54 +1,55 @@
 /*===================================================================
 
 The Medical Imaging Interaction Toolkit (MITK)
 
 Copyright (c) German Cancer Research Center,
 Division of Medical and Biological Informatics.
 All rights reserved.
 
 This software is distributed WITHOUT ANY WARRANTY; without
 even the implied warranty of MERCHANTABILITY or FITNESS FOR
 A PARTICULAR PURPOSE.
 
 See LICENSE.txt or http://www.mitk.org for details.
 
 ===================================================================*/
 #include <vnl/vnl_cross.h>
 #include <vnl/vnl_quaternion.h>
 
 template< class ScalarType >
 StickModel< ScalarType >::StickModel()
     : m_Diffusivity(0.001)
     , m_BValue(1000)
 {
 
 }
 
 template< class ScalarType >
 StickModel< ScalarType >::~StickModel()
 {
 
 }
 
 template< class ScalarType >
 typename StickModel< ScalarType >::PixelType StickModel< ScalarType >::SimulateMeasurement()
 {
+    this->m_FiberDirection.Normalize();
     PixelType signal;
     signal.SetSize(this->m_GradientList.size());
 
     for( unsigned int i=0; i<this->m_GradientList.size(); i++)
     {
         GradientType g = this->m_GradientList[i];
         double bVal = g.GetNorm(); bVal *= bVal;
 
         if (bVal>0.0001)
         {
             double dot = this->m_FiberDirection*g;
             signal[i] = exp( -m_BValue * bVal * m_Diffusivity*dot*dot );
         }
         else
             signal[i] = 1;
     }
 
     return signal;
 }
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkDiffusionQuantificationViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkDiffusionQuantificationViewControls.ui
index 7c36dac61a..07bfa4f2c7 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkDiffusionQuantificationViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkDiffusionQuantificationViewControls.ui
@@ -1,300 +1,303 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkDiffusionQuantificationViewControls</class>
  <widget class="QWidget" name="QmitkDiffusionQuantificationViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>343</width>
     <height>612</height>
    </rect>
   </property>
   <property name="minimumSize">
    <size>
     <width>0</width>
     <height>0</height>
    </size>
   </property>
   <property name="windowTitle">
    <string>QmitkTemplate</string>
   </property>
   <layout class="QVBoxLayout" name="verticalLayout_2">
    <item>
     <widget class="QGroupBox" name="m_InputData">
      <property name="title">
       <string>Please Select Input Data</string>
      </property>
      <layout class="QGridLayout" name="gridLayout">
       <item row="0" column="0">
        <widget class="QLabel" name="label">
         <property name="text">
          <string>Q-Ball/Tensor Image</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QLabel" name="m_InputImageLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_4">
      <property name="title">
       <string>General Parameters</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_2">
       <item row="0" column="0">
        <widget class="QLabel" name="label_2">
         <property name="text">
          <string>Scale Image Values:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QDoubleSpinBox" name="m_ScaleImageValuesBox">
         <property name="maximum">
          <double>1000.000000000000000</double>
         </property>
         <property name="value">
          <double>1.000000000000000</double>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox">
      <property name="title">
       <string>Q-Ball Imaging</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout">
       <item>
        <widget class="QFrame" name="frame">
         <property name="frameShape">
          <enum>QFrame::NoFrame</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Raised</enum>
         </property>
         <layout class="QHBoxLayout" name="horizontalLayout">
          <property name="margin">
           <number>0</number>
          </property>
          <item>
           <widget class="QCheckBox" name="m_StandardGFACheckbox">
            <property name="text">
             <string>Generalized GFA</string>
            </property>
           </widget>
          </item>
          <item>
           <widget class="QFrame" name="frame_2">
            <property name="frameShape">
             <enum>QFrame::NoFrame</enum>
            </property>
            <property name="frameShadow">
             <enum>QFrame::Raised</enum>
            </property>
            <layout class="QHBoxLayout" name="horizontalLayout_3">
             <property name="margin">
              <number>0</number>
             </property>
             <item>
              <widget class="QLabel" name="m_ParamK">
               <property name="enabled">
                <bool>true</bool>
               </property>
               <property name="text">
                <string>k</string>
               </property>
              </widget>
             </item>
             <item>
              <widget class="QLineEdit" name="m_ParamKEdit">
               <property name="enabled">
                <bool>true</bool>
               </property>
              </widget>
             </item>
             <item>
              <widget class="QLabel" name="m_ParamP">
               <property name="enabled">
                <bool>true</bool>
               </property>
               <property name="text">
                <string>p</string>
               </property>
              </widget>
             </item>
             <item>
              <widget class="QLineEdit" name="m_ParamPEdit">
               <property name="enabled">
                <bool>true</bool>
               </property>
              </widget>
             </item>
            </layout>
           </widget>
          </item>
         </layout>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_GFAButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>GFA</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QFrame" name="frame_3">
         <property name="frameShape">
          <enum>QFrame::NoFrame</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Raised</enum>
         </property>
         <layout class="QHBoxLayout" name="horizontalLayout_2">
          <property name="margin">
           <number>0</number>
          </property>
          <item>
           <widget class="QLabel" name="label_4">
            <property name="text">
             <string>Min. angle</string>
            </property>
           </widget>
          </item>
          <item>
           <widget class="QLineEdit" name="MinAngle"/>
          </item>
          <item>
           <widget class="QLabel" name="label_3">
            <property name="text">
             <string>Max. angle</string>
            </property>
           </widget>
          </item>
          <item>
           <widget class="QLineEdit" name="MaxAngle"/>
          </item>
         </layout>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_CurvatureButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>Curvature</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_2">
      <property name="title">
       <string>Tensor Imaging</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout_3">
       <item>
        <widget class="QCommandLinkButton" name="m_FAButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>FA (Fractional Anisotropy)</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_RAButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>RA (Relative Anisotropy)</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_ADButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>AD (Axial Diffusivity)</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_RDButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>RD (Radial Diffusivity)</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_MDButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>MD (Mean Diffusivity)</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_ClusteringAnisotropy">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>1-(λ2+λ3)/(2*λ1)</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <spacer name="spacer1">
      <property name="orientation">
       <enum>Qt::Vertical</enum>
      </property>
      <property name="sizeType">
       <enum>QSizePolicy::Expanding</enum>
      </property>
      <property name="sizeHint" stdset="0">
       <size>
        <width>20</width>
        <height>220</height>
       </size>
      </property>
     </spacer>
    </item>
   </layout>
  </widget>
  <layoutdefault spacing="6" margin="11"/>
  <includes>
   <include location="local">QmitkDataStorageComboBox.h</include>
  </includes>
  <resources/>
  <connections/>
 </ui>
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp
index 2b0ccd2ff1..ac69ba56e4 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp
@@ -1,1324 +1,1328 @@
 /*===================================================================
 
 The Medical Imaging Interaction Toolkit (MITK)
 
 Copyright (c) German Cancer Research Center,
 Division of Medical and Biological Informatics.
 All rights reserved.
 
 This software is distributed WITHOUT ANY WARRANTY; without
 even the implied warranty of MERCHANTABILITY or FITNESS FOR
 A PARTICULAR PURPOSE.
 
 See LICENSE.txt or http://www.mitk.org for details.
 
 ===================================================================*/
 
 //misc
 #define _USE_MATH_DEFINES
 #include <math.h>
 
 // Blueberry
 #include <berryISelectionService.h>
 #include <berryIWorkbenchWindow.h>
 
 // Qmitk
 #include "QmitkFiberfoxView.h"
 
 // MITK
 #include <mitkImage.h>
 #include <mitkDiffusionImage.h>
 #include <mitkImageToItk.h>
 #include <itkDwiPhantomGenerationFilter.h>
 #include <mitkImageCast.h>
 #include <mitkProperties.h>
 #include <mitkPlanarFigureInteractor.h>
 #include <mitkDataStorage.h>
 #include <itkFibersFromPlanarFiguresFilter.h>
 #include <itkTractsToDWIImageFilter.h>
 #include <mitkTensorImage.h>
 #include <mitkILinkedRenderWindowPart.h>
 #include <mitkGlobalInteraction.h>
 #include <mitkImageToItk.h>
 #include <mitkImageCast.h>
 #include <mitkImageGenerator.h>
 #include <mitkNodePredicateDataType.h>
 #include <mitkTensorModel.h>
 #include <mitkBallModel.h>
 #include <mitkStickModel.h>
 #include <mitkRicianNoiseModel.h>
 #include <mitkGibbsRingingArtifact.h>
 #include <mitkT2SmearingArtifact.h>
 #include <itkScalableAffineTransform.h>
 
 #include <QMessageBox>
 
 #define _USE_MATH_DEFINES
 #include <math.h>
 
 const std::string QmitkFiberfoxView::VIEW_ID = "org.mitk.views.fiberfoxview";
 
 QmitkFiberfoxView::QmitkFiberfoxView()
     : QmitkAbstractView()
     , m_Controls( 0 )
     , m_SelectedImage( NULL )
     , m_SelectedBundle( NULL )
 {
 
 }
 
 // Destructor
 QmitkFiberfoxView::~QmitkFiberfoxView()
 {
 
 }
 
 void QmitkFiberfoxView::CreateQtPartControl( QWidget *parent )
 {
     // build up qt view, unless already done
     if ( !m_Controls )
     {
         // create GUI widgets from the Qt Designer's .ui file
         m_Controls = new Ui::QmitkFiberfoxViewControls;
         m_Controls->setupUi( parent );
 
         m_Controls->m_VarianceBox->setVisible(false);
         m_Controls->m_GeometryMessage->setVisible(false);
         m_Controls->m_DiffusionPropsMessage->setVisible(false);
         m_Controls->m_T2bluringParamFrame->setVisible(false);
         m_Controls->m_KspaceParamFrame->setVisible(false);
         m_Controls->m_StickModelFrame->setVisible(false);
         m_Controls->m_AdvancedFiberOptionsFrame->setVisible(false);
 
         connect((QObject*) m_Controls->m_GenerateImageButton, SIGNAL(clicked()), (QObject*) this, SLOT(GenerateImage()));
         connect((QObject*) m_Controls->m_GenerateFibersButton, SIGNAL(clicked()), (QObject*) this, SLOT(GenerateFibers()));
         connect((QObject*) m_Controls->m_CircleButton, SIGNAL(clicked()), (QObject*) this, SLOT(OnDrawROI()));
         connect((QObject*) m_Controls->m_FlipButton, SIGNAL(clicked()), (QObject*) this, SLOT(OnFlipButton()));
         connect((QObject*) m_Controls->m_JoinBundlesButton, SIGNAL(clicked()), (QObject*) this, SLOT(JoinBundles()));
         connect((QObject*) m_Controls->m_VarianceBox, SIGNAL(valueChanged(double)), (QObject*) this, SLOT(OnVarianceChanged(double)));
         connect((QObject*) m_Controls->m_DistributionBox, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(OnDistributionChanged(int)));
         connect((QObject*) m_Controls->m_FiberDensityBox, SIGNAL(valueChanged(int)), (QObject*) this, SLOT(OnFiberDensityChanged(int)));
         connect((QObject*) m_Controls->m_FiberSamplingBox, SIGNAL(valueChanged(int)), (QObject*) this, SLOT(OnFiberSamplingChanged(int)));
         connect((QObject*) m_Controls->m_TensionBox, SIGNAL(valueChanged(double)), (QObject*) this, SLOT(OnTensionChanged(double)));
         connect((QObject*) m_Controls->m_ContinuityBox, SIGNAL(valueChanged(double)), (QObject*) this, SLOT(OnContinuityChanged(double)));
         connect((QObject*) m_Controls->m_BiasBox, SIGNAL(valueChanged(double)), (QObject*) this, SLOT(OnBiasChanged(double)));
         connect((QObject*) m_Controls->m_AddT2Smearing, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddT2Smearing(int)));
         connect((QObject*) m_Controls->m_AddGibbsRinging, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddGibbsRinging(int)));
         connect((QObject*) m_Controls->m_ConstantRadiusBox, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnConstantRadius(int)));
         connect((QObject*) m_Controls->m_CopyBundlesButton, SIGNAL(clicked()), (QObject*) this, SLOT(CopyBundles()));
         connect((QObject*) m_Controls->m_TransformBundlesButton, SIGNAL(clicked()), (QObject*) this, SLOT(ApplyTransform()));
         connect((QObject*) m_Controls->m_AlignOnGrid, SIGNAL(clicked()), (QObject*) this, SLOT(AlignOnGrid()));
         connect((QObject*) m_Controls->m_FiberCompartmentModelBox, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(FiberModelFrameVisibility(int)));
         connect((QObject*) m_Controls->m_NonFiberCompartmentModelBox, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(FiberModelFrameVisibility(int)));
         connect((QObject*) m_Controls->m_AdvancedFiberOptionsBox, SIGNAL( stateChanged(int)), (QObject*) this, SLOT(ShowAdvancedFiberOptions(int)));
     }
 }
 
 void QmitkFiberfoxView::ShowAdvancedFiberOptions(int state)
 {
     if (state)
         m_Controls->m_AdvancedFiberOptionsFrame->setVisible(true);
     else
         m_Controls->m_AdvancedFiberOptionsFrame->setVisible(false);
 }
 
 void QmitkFiberfoxView::FiberModelFrameVisibility(int index)
 {
     m_Controls->m_TensorModelFrame->setVisible(false);
     m_Controls->m_StickModelFrame->setVisible(false);
     switch (index)
     {
     case 0:
         m_Controls->m_TensorModelFrame->setVisible(true);
         break;
     case 1:
         m_Controls->m_StickModelFrame->setVisible(true);
         break;
     default:
         m_Controls->m_TensorModelFrame->setVisible(true);
     }
 }
 
 void QmitkFiberfoxView::NonFiberModelFrameVisibility(int index)
 {
 
 }
 
 void QmitkFiberfoxView::OnConstantRadius(int value)
 {
     if (value>0 && m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnAddT2Smearing(int value)
 {
     if (value>0)
         m_Controls->m_T2bluringParamFrame->setVisible(true);
     else
         m_Controls->m_T2bluringParamFrame->setVisible(false);
 }
 
 void QmitkFiberfoxView::OnAddGibbsRinging(int value)
 {
     if (value>0)
         m_Controls->m_KspaceParamFrame->setVisible(true);
     else
         m_Controls->m_KspaceParamFrame->setVisible(false);
 }
 
 void QmitkFiberfoxView::OnDistributionChanged(int value)
 {
     if (value==1)
         m_Controls->m_VarianceBox->setVisible(true);
     else
         m_Controls->m_VarianceBox->setVisible(false);
 
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnVarianceChanged(double value)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnFiberDensityChanged(int value)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnFiberSamplingChanged(int value)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnTensionChanged(double value)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnContinuityChanged(double value)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnBiasChanged(double value)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::AlignOnGrid()
 {
     for (int i=0; i<m_SelectedFiducials.size(); i++)
     {
         mitk::PlanarEllipse::Pointer pe = dynamic_cast<mitk::PlanarEllipse*>(m_SelectedFiducials.at(i)->GetData());
         mitk::Point3D wc0 = pe->GetWorldControlPoint(0);
 
         mitk::DataStorage::SetOfObjects::ConstPointer parentFibs = GetDataStorage()->GetSources(m_SelectedFiducials.at(i));
         for( mitk::DataStorage::SetOfObjects::const_iterator it = parentFibs->begin(); it != parentFibs->end(); ++it )
         {
             mitk::DataNode::Pointer pFibNode = *it;
             if ( pFibNode.IsNotNull() && dynamic_cast<mitk::FiberBundleX*>(pFibNode->GetData()) )
             {
                 mitk::DataStorage::SetOfObjects::ConstPointer parentImgs = GetDataStorage()->GetSources(pFibNode);
                 for( mitk::DataStorage::SetOfObjects::const_iterator it2 = parentImgs->begin(); it2 != parentImgs->end(); ++it2 )
                 {
                     mitk::DataNode::Pointer pImgNode = *it2;
                     if ( pImgNode.IsNotNull() && dynamic_cast<mitk::Image*>(pImgNode->GetData()) )
                     {
                         mitk::Image::Pointer img = dynamic_cast<mitk::Image*>(pImgNode->GetData());
                         mitk::Geometry3D::Pointer geom = img->GetGeometry();
                         itk::Index<3> idx;
                         geom->WorldToIndex(wc0, idx);
 
                         mitk::Point3D cIdx; cIdx[0]=idx[0]; cIdx[1]=idx[1]; cIdx[2]=idx[2];
                         mitk::Point3D world;
                         geom->IndexToWorld(cIdx,world);
 
                         mitk::Vector3D trans = world - wc0;
                         pe->GetGeometry()->Translate(trans);
 
                         break;
                     }
                 }
                 break;
             }
         }
     }
 
     for( int i=0; i<m_SelectedBundles2.size(); i++ )
     {
         mitk::DataNode::Pointer fibNode = m_SelectedBundles2.at(i);
 
         mitk::DataStorage::SetOfObjects::ConstPointer sources = GetDataStorage()->GetSources(fibNode);
         for( mitk::DataStorage::SetOfObjects::const_iterator it = sources->begin(); it != sources->end(); ++it )
         {
             mitk::DataNode::Pointer imgNode = *it;
             if ( imgNode.IsNotNull() && dynamic_cast<mitk::Image*>(imgNode->GetData()) )
             {
                 mitk::DataStorage::SetOfObjects::ConstPointer derivations = GetDataStorage()->GetDerivations(fibNode);
                 for( mitk::DataStorage::SetOfObjects::const_iterator it2 = derivations->begin(); it2 != derivations->end(); ++it2 )
                 {
                     mitk::DataNode::Pointer fiducialNode = *it2;
                     if ( fiducialNode.IsNotNull() && dynamic_cast<mitk::PlanarEllipse*>(fiducialNode->GetData()) )
                     {
                         mitk::PlanarEllipse::Pointer pe = dynamic_cast<mitk::PlanarEllipse*>(fiducialNode->GetData());
                         mitk::Point3D wc0 = pe->GetWorldControlPoint(0);
 
                         mitk::Image::Pointer img = dynamic_cast<mitk::Image*>(imgNode->GetData());
                         mitk::Geometry3D::Pointer geom = img->GetGeometry();
                         itk::Index<3> idx;
                         geom->WorldToIndex(wc0, idx);
                         mitk::Point3D cIdx; cIdx[0]=idx[0]; cIdx[1]=idx[1]; cIdx[2]=idx[2];
                         mitk::Point3D world;
                         geom->IndexToWorld(cIdx,world);
 
                         mitk::Vector3D trans = world - wc0;
                         pe->GetGeometry()->Translate(trans);
                     }
                 }
 
                 break;
             }
         }
     }
 
     for( int i=0; i<m_SelectedImages.size(); i++ )
     {
         mitk::Image::Pointer img = dynamic_cast<mitk::Image*>(m_SelectedImages.at(i)->GetData());
 
         mitk::DataStorage::SetOfObjects::ConstPointer derivations = GetDataStorage()->GetDerivations(m_SelectedImages.at(i));
         for( mitk::DataStorage::SetOfObjects::const_iterator it = derivations->begin(); it != derivations->end(); ++it )
         {
             mitk::DataNode::Pointer fibNode = *it;
             if ( fibNode.IsNotNull() && dynamic_cast<mitk::FiberBundleX*>(fibNode->GetData()) )
             {
                 mitk::DataStorage::SetOfObjects::ConstPointer derivations2 = GetDataStorage()->GetDerivations(fibNode);
                 for( mitk::DataStorage::SetOfObjects::const_iterator it2 = derivations2->begin(); it2 != derivations2->end(); ++it2 )
                 {
                     mitk::DataNode::Pointer fiducialNode = *it2;
                     if ( fiducialNode.IsNotNull() && dynamic_cast<mitk::PlanarEllipse*>(fiducialNode->GetData()) )
                     {
                         mitk::PlanarEllipse::Pointer pe = dynamic_cast<mitk::PlanarEllipse*>(fiducialNode->GetData());
                         mitk::Point3D wc0 = pe->GetWorldControlPoint(0);
 
                         mitk::Geometry3D::Pointer geom = img->GetGeometry();
                         itk::Index<3> idx;
                         geom->WorldToIndex(wc0, idx);
                         mitk::Point3D cIdx; cIdx[0]=idx[0]; cIdx[1]=idx[1]; cIdx[2]=idx[2];
                         mitk::Point3D world;
                         geom->IndexToWorld(cIdx,world);
 
                         mitk::Vector3D trans = world - wc0;
                         pe->GetGeometry()->Translate(trans);
                     }
                 }
             }
         }
     }
 
     mitk::RenderingManager::GetInstance()->RequestUpdateAll();
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnFlipButton()
 {
     if (m_SelectedFiducial.IsNull())
         return;
 
     std::map<mitk::DataNode*, QmitkPlanarFigureData>::iterator it = m_DataNodeToPlanarFigureData.find(m_SelectedFiducial.GetPointer());
     if( it != m_DataNodeToPlanarFigureData.end() )
     {
         QmitkPlanarFigureData& data = it->second;
         data.m_Flipped += 1;
         data.m_Flipped %= 2;
     }
 
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 QmitkFiberfoxView::GradientListType QmitkFiberfoxView::GenerateHalfShell(int NPoints)
 {
     NPoints *= 2;
     GradientListType pointshell;
 
     int numB0 = NPoints/10;
     if (numB0==0)
         numB0=1;
     GradientType g;
     g.Fill(0.0);
     for (int i=0; i<numB0; i++)
         pointshell.push_back(g);
 
     if (NPoints==0)
         return pointshell;
 
     vnl_vector<double> theta; theta.set_size(NPoints);
     vnl_vector<double> phi; phi.set_size(NPoints);
     double C = sqrt(4*M_PI);
     phi(0) = 0.0;
     phi(NPoints-1) = 0.0;
     for(int i=0; i<NPoints; i++)
     {
         theta(i) = acos(-1.0+2.0*i/(NPoints-1.0)) - M_PI / 2.0;
         if( i>0 && i<NPoints-1)
         {
             phi(i) = (phi(i-1) + C /
                       sqrt(NPoints*(1-(-1.0+2.0*i/(NPoints-1.0))*(-1.0+2.0*i/(NPoints-1.0)))));
             // % (2*DIST_POINTSHELL_PI);
         }
     }
 
     for(int i=0; i<NPoints; i++)
     {
         g[2] = sin(theta(i));
         if (g[2]<0)
             continue;
         g[0] = cos(theta(i)) * cos(phi(i));
         g[1] = cos(theta(i)) * sin(phi(i));
         pointshell.push_back(g);
     }
 
     return pointshell;
 }
 
 template<int ndirs>
 std::vector<itk::Vector<double,3> > QmitkFiberfoxView::MakeGradientList()
 {
     std::vector<itk::Vector<double,3> > retval;
     vnl_matrix_fixed<double, 3, ndirs>* U =
             itk::PointShell<ndirs, vnl_matrix_fixed<double, 3, ndirs> >::DistributePointShell();
 
 
     // Add 0 vector for B0
     int numB0 = ndirs/10;
     if (numB0==0)
         numB0=1;
     itk::Vector<double,3> v;
     v.Fill(0.0);
     for (int i=0; i<numB0; i++)
     {
         retval.push_back(v);
     }
 
     for(int i=0; i<ndirs;i++)
     {
         itk::Vector<double,3> v;
         v[0] = U->get(0,i); v[1] = U->get(1,i); v[2] = U->get(2,i);
         retval.push_back(v);
     }
 
     return retval;
 }
 
 void QmitkFiberfoxView::OnAddBundle()
 {
     if (m_SelectedImage.IsNull())
         return;
 
     mitk::DataStorage::SetOfObjects::ConstPointer children = GetDataStorage()->GetDerivations(m_SelectedImage);
 
     mitk::FiberBundleX::Pointer bundle = mitk::FiberBundleX::New();
     mitk::DataNode::Pointer node = mitk::DataNode::New();
     node->SetData( bundle );
     QString name = QString("Bundle_%1").arg(children->size());
     node->SetName(name.toStdString());
     m_SelectedBundle = node;
     m_SelectedBundles.push_back(node);
     UpdateGui();
 
     GetDataStorage()->Add(node, m_SelectedImage);
 }
 
 void QmitkFiberfoxView::OnDrawROI()
 {
     if (m_SelectedBundle.IsNull())
         OnAddBundle();
     if (m_SelectedBundle.IsNull())
         return;
 
     mitk::DataStorage::SetOfObjects::ConstPointer children = GetDataStorage()->GetDerivations(m_SelectedBundle);
 
     mitk::PlanarEllipse::Pointer figure = mitk::PlanarEllipse::New();
 
     mitk::DataNode::Pointer node = mitk::DataNode::New();
     node->SetData( figure );
 
 
     QList<mitk::DataNode::Pointer> nodes = this->GetDataManagerSelection();
     for( int i=0; i<nodes.size(); i++)
         nodes.at(i)->SetSelected(false);
 
     m_SelectedFiducial = node;
 
     QString name = QString("Fiducial_%1").arg(children->size());
     node->SetName(name.toStdString());
     node->SetSelected(true);
     GetDataStorage()->Add(node, m_SelectedBundle);
 
     this->DisableCrosshairNavigation();
 
     mitk::PlanarFigureInteractor::Pointer figureInteractor = dynamic_cast<mitk::PlanarFigureInteractor*>(node->GetInteractor());
     if(figureInteractor.IsNull())
         figureInteractor = mitk::PlanarFigureInteractor::New("PlanarFigureInteractor", node);
     mitk::GlobalInteraction::GetInstance()->AddInteractor(figureInteractor);
 
     UpdateGui();
 }
 
 bool CompareLayer(mitk::DataNode::Pointer i,mitk::DataNode::Pointer j)
 {
     int li = -1;
     i->GetPropertyValue("layer", li);
     int lj = -1;
     j->GetPropertyValue("layer", lj);
     return li<lj;
 }
 
 void QmitkFiberfoxView::GenerateFibers()
 {
     if (m_SelectedBundles.empty())
     {
         if (m_SelectedFiducial.IsNull())
             return;
 
         mitk::DataStorage::SetOfObjects::ConstPointer parents = GetDataStorage()->GetSources(m_SelectedFiducial);
         for( mitk::DataStorage::SetOfObjects::const_iterator it = parents->begin(); it != parents->end(); ++it )
             if(dynamic_cast<mitk::FiberBundleX*>((*it)->GetData()))
                 m_SelectedBundles.push_back(*it);
 
         if (m_SelectedBundles.empty())
             return;
     }
 
     vector< vector< mitk::PlanarEllipse::Pointer > > fiducials;
     vector< vector< unsigned int > > fliplist;
     for (int i=0; i<m_SelectedBundles.size(); i++)
     {
         mitk::DataStorage::SetOfObjects::ConstPointer children = GetDataStorage()->GetDerivations(m_SelectedBundles.at(i));
         std::vector< mitk::DataNode::Pointer > childVector;
         for( mitk::DataStorage::SetOfObjects::const_iterator it = children->begin(); it != children->end(); ++it )
             childVector.push_back(*it);
         sort(childVector.begin(), childVector.end(), CompareLayer);
 
         vector< mitk::PlanarEllipse::Pointer > fib;
         vector< unsigned int > flip;
         float radius = 1;
         int count = 0;
         for( std::vector< mitk::DataNode::Pointer >::const_iterator it = childVector.begin(); it != childVector.end(); ++it )
         {
             mitk::DataNode::Pointer node = *it;
 
             if ( node.IsNotNull() && dynamic_cast<mitk::PlanarEllipse*>(node->GetData()) )
             {
                 mitk::PlanarEllipse* ellipse = dynamic_cast<mitk::PlanarEllipse*>(node->GetData());
                 if (m_Controls->m_ConstantRadiusBox->isChecked())
                 {
                     ellipse->SetTreatAsCircle(true);
                     mitk::Point2D c = ellipse->GetControlPoint(0);
                     mitk::Point2D p = ellipse->GetControlPoint(1);
                     mitk::Vector2D v = p-c;
                     if (count==0)
                     {
                         radius = v.GetVnlVector().magnitude();
                         ellipse->SetControlPoint(1, p);
                     }
                     else
                     {
                         v.Normalize();
                         v *= radius;
                         ellipse->SetControlPoint(1, c+v);
                     }
                 }
                 fib.push_back(ellipse);
 
                 std::map<mitk::DataNode*, QmitkPlanarFigureData>::iterator it = m_DataNodeToPlanarFigureData.find(node.GetPointer());
                 if( it != m_DataNodeToPlanarFigureData.end() )
                 {
                     QmitkPlanarFigureData& data = it->second;
                     flip.push_back(data.m_Flipped);
                 }
                 else
                     flip.push_back(0);
             }
             count++;
         }
         if (fib.size()>1)
         {
             fiducials.push_back(fib);
             fliplist.push_back(flip);
         }
         mitk::RenderingManager::GetInstance()->RequestUpdateAll();
         if (fib.size()<3)
             return;
     }
 
     itk::FibersFromPlanarFiguresFilter::Pointer filter = itk::FibersFromPlanarFiguresFilter::New();
     filter->SetFiducials(fiducials);
     filter->SetFlipList(fliplist);
 
     switch(m_Controls->m_DistributionBox->currentIndex()){
     case 0:
         filter->SetFiberDistribution(itk::FibersFromPlanarFiguresFilter::DISTRIBUTE_UNIFORM);
         break;
     case 1:
         filter->SetFiberDistribution(itk::FibersFromPlanarFiguresFilter::DISTRIBUTE_GAUSSIAN);
         filter->SetVariance(m_Controls->m_VarianceBox->value());
         break;
     }
 
     filter->SetDensity(m_Controls->m_FiberDensityBox->value());
     filter->SetTension(m_Controls->m_TensionBox->value());
     filter->SetContinuity(m_Controls->m_ContinuityBox->value());
     filter->SetBias(m_Controls->m_BiasBox->value());
     filter->SetFiberSampling(m_Controls->m_FiberSamplingBox->value());
     filter->Update();
     vector< mitk::FiberBundleX::Pointer > fiberBundles = filter->GetFiberBundles();
 
     for (int i=0; i<fiberBundles.size(); i++)
     {
         m_SelectedBundles.at(i)->SetData( fiberBundles.at(i) );
         if (fiberBundles.at(i)->GetNumFibers()>50000)
             m_SelectedBundles.at(i)->SetVisibility(false);
     }
 
     mitk::RenderingManager::GetInstance()->RequestUpdateAll();
 }
 
 void QmitkFiberfoxView::GenerateImage()
 {
     itk::ImageRegion<3> imageRegion;
     imageRegion.SetSize(0, m_Controls->m_SizeX->value());
     imageRegion.SetSize(1, m_Controls->m_SizeY->value());
     imageRegion.SetSize(2, m_Controls->m_SizeZ->value());
     mitk::Vector3D spacing;
     spacing[0] = m_Controls->m_SpacingX->value();
     spacing[1] = m_Controls->m_SpacingY->value();
     spacing[2] = m_Controls->m_SpacingZ->value();
 
     mitk::Point3D   origin;
     origin[0] = spacing[0]/2;
     origin[1] = spacing[1]/2;
     origin[2] = spacing[2]/2;
     itk::Matrix<double, 3, 3>           directionMatrix; directionMatrix.SetIdentity();
 
     if (m_SelectedBundle.IsNull())
     {
         mitk::Image::Pointer image = mitk::ImageGenerator::GenerateGradientImage<unsigned int>(
                     m_Controls->m_SizeX->value(),
                     m_Controls->m_SizeY->value(),
                     m_Controls->m_SizeZ->value(),
                     m_Controls->m_SpacingX->value(),
                     m_Controls->m_SpacingY->value(),
                     m_Controls->m_SpacingZ->value());
 
+        mitk::Geometry3D* geom = image->GetGeometry();
+        geom->SetOrigin(origin);
+
         mitk::DataNode::Pointer node = mitk::DataNode::New();
         node->SetData( image );
         node->SetName("Dummy");
         GetDataStorage()->Add(node);
         m_SelectedImage = node;
 
         mitk::BaseData::Pointer basedata = node->GetData();
         if (basedata.IsNotNull())
         {
             mitk::RenderingManager::GetInstance()->InitializeViews(
                         basedata->GetTimeSlicedGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, true );
             mitk::RenderingManager::GetInstance()->RequestUpdateAll();
         }
         UpdateGui();
 
         return;
     }
 
     DiffusionSignalModel<double>::GradientListType gradientList;
     double bVal = 1000;
     if (m_SelectedDWI.IsNull())
     {
         gradientList = GenerateHalfShell(m_Controls->m_NumGradientsBox->value());;
         bVal = m_Controls->m_BvalueBox->value();
     }
     else
     {
         mitk::DiffusionImage<short>::Pointer dwi = dynamic_cast<mitk::DiffusionImage<short>*>(m_SelectedDWI->GetData());
         imageRegion = dwi->GetVectorImage()->GetLargestPossibleRegion();
         spacing = dwi->GetVectorImage()->GetSpacing();
         origin = dwi->GetVectorImage()->GetOrigin();
         directionMatrix = dwi->GetVectorImage()->GetDirection();
         bVal = dwi->GetB_Value();
         mitk::DiffusionImage<short>::GradientDirectionContainerType::Pointer dirs = dwi->GetDirections();
         for (int i=0; i<dirs->Size(); i++)
         {
             DiffusionSignalModel<double>::GradientType g;
             g[0] = dirs->at(i)[0];
             g[1] = dirs->at(i)[1];
             g[2] = dirs->at(i)[2];
             gradientList.push_back(g);
         }
     }
     // storage for generated phantom image
     mitk::DataNode::Pointer resultNode = mitk::DataNode::New();
 
     // signal models
     QString signalModelString("Ball");
     itk::TractsToDWIImageFilter::DiffusionModelList fiberModelList, nonFiberModelList;
     mitk::TensorModel<double> tensorModel;
     mitk::StickModel<double> stickModel;
 
     // free diffusion
     mitk::BallModel<double> ballModel;
     ballModel.SetGradientList(gradientList);
     ballModel.SetBvalue(bVal);
     ballModel.SetDiffusivity(m_Controls->m_BallD->value());
     ballModel.SetSignalScale(m_Controls->m_NonFiberS0Box->value());
     ballModel.SetRelaxationT2(m_Controls->m_NonFiberRelaxationT2Box->value());
     nonFiberModelList.push_back(&ballModel);
 
     resultNode->AddProperty("Fiberfox.Ball.Diffusivity", DoubleProperty::New(m_Controls->m_BallD->value()));
     resultNode->AddProperty("Fiberfox.Ball.Scaling", DoubleProperty::New(m_Controls->m_NonFiberS0Box->value()));
     if (m_Controls->m_AddT2Smearing->isChecked())
         resultNode->AddProperty("Fiberfox.Ball.T2", DoubleProperty::New(m_Controls->m_NonFiberRelaxationT2Box->value()));
 
     // intra-axonal diffusion
     switch (m_Controls->m_FiberCompartmentModelBox->currentIndex())
     {
     case 0:
         MITK_INFO << "Using zeppelin model";
         tensorModel.SetGradientList(gradientList);
         tensorModel.SetBvalue(bVal);
         tensorModel.SetKernelFA(m_Controls->m_TensorFaBox->value());
         tensorModel.SetSignalScale(m_Controls->m_FiberS0Box->value());
         tensorModel.SetRelaxationT2(m_Controls->m_FiberRelaxationT2Box->value());
         fiberModelList.push_back(&tensorModel);
         signalModelString += "-Zeppelin";
         resultNode->AddProperty("Fiberfox.Zeppelin.FA", DoubleProperty::New(m_Controls->m_TensorFaBox->value()));
         resultNode->AddProperty("Fiberfox.Zeppelin.Scaling", DoubleProperty::New(m_Controls->m_FiberS0Box->value()));
         if (m_Controls->m_AddT2Smearing->isChecked())
             resultNode->AddProperty("Fiberfox.Zeppelin.T2", DoubleProperty::New(m_Controls->m_FiberRelaxationT2Box->value()));
         break;
     case 1:
         MITK_INFO << "Using stick model";
         stickModel.SetGradientList(gradientList);
         stickModel.SetDiffusivity(m_Controls->m_StickDiffusivityBox->value());
         stickModel.SetSignalScale(m_Controls->m_FiberS0Box->value());
         stickModel.SetRelaxationT2(m_Controls->m_FiberRelaxationT2Box->value());
         fiberModelList.push_back(&stickModel);
         signalModelString += "-Stick";
         resultNode->AddProperty("Fiberfox.Stick.Diffusivity", DoubleProperty::New(m_Controls->m_StickDiffusivityBox->value()));
         resultNode->AddProperty("Fiberfox.Stick.Scaling", DoubleProperty::New(m_Controls->m_FiberS0Box->value()));
         if (m_Controls->m_AddT2Smearing->isChecked())
             resultNode->AddProperty("Fiberfox.Stick.T2", DoubleProperty::New(m_Controls->m_FiberRelaxationT2Box->value()));
         break;
     }
 
     itk::TractsToDWIImageFilter::KspaceArtifactList artifactList;
 
     // noise model
     double snr = m_Controls->m_NoiseLevel->value();
     double noiseVariance = 0;
     if (snr <= 0)
         snr = 0.0001;
     if (snr<=99)
     {
         noiseVariance = (double)m_Controls->m_FiberS0Box->value()/snr;
         noiseVariance *= noiseVariance;
     }
     mitk::RicianNoiseModel<double> noiseModel;
     noiseModel.SetNoiseVariance(noiseVariance);
 
     // artifact models
     QString artifactModelString("");
     mitk::GibbsRingingArtifact<double> gibbsModel;
     if (m_Controls->m_AddGibbsRinging->isChecked())
     {
         artifactModelString += "_Gibbs-ringing";
         resultNode->AddProperty("Fiberfox.k-Space-Undersampling", IntProperty::New(m_Controls->m_KspaceUndersamplingBox->currentText().toInt()));
         gibbsModel.SetKspaceCropping((double)m_Controls->m_KspaceUndersamplingBox->currentText().toInt());
         artifactList.push_back(&gibbsModel);
     }
 
     mitk::T2SmearingArtifact<double> t2Model;
     if (m_Controls->m_AddT2Smearing->isChecked())
     {
         artifactModelString += "_T2-blurring";
         t2Model.SetReadoutPulseLength(1);
         artifactList.push_back(&t2Model);
     }
 
     for (int i=0; i<m_SelectedBundles.size(); i++)
     {
         mitk::FiberBundleX::Pointer fiberBundle = dynamic_cast<mitk::FiberBundleX*>(m_SelectedBundles.at(i)->GetData());
         if (fiberBundle->GetNumFibers()<=0)
             continue;
 
         itk::TractsToDWIImageFilter::Pointer filter = itk::TractsToDWIImageFilter::New();
         filter->SetImageRegion(imageRegion);
         filter->SetSpacing(spacing);
         filter->SetOrigin(origin);
         filter->SetDirectionMatrix(directionMatrix);
         filter->SetFiberBundle(fiberBundle);
         filter->SetFiberModels(fiberModelList);
         filter->SetNonFiberModels(nonFiberModelList);
         filter->SetNoiseModel(&noiseModel);
         filter->SetKspaceArtifacts(artifactList);
         filter->SetNumberOfRepetitions(m_Controls->m_RepetitionsBox->value());
         filter->SetEnforcePureFiberVoxels(m_Controls->m_EnforcePureFiberVoxelsBox->isChecked());
+        filter->SetInterpolationShrink(m_Controls->m_InterpolationShrink->value());
 
         if (m_TissueMask.IsNotNull())
         {
             ItkUcharImgType::Pointer mask = ItkUcharImgType::New();
             mitk::CastToItkImage<ItkUcharImgType>(m_TissueMask, mask);
             filter->SetTissueMask(mask);
         }
         filter->Update();
 
         mitk::DiffusionImage<short>::Pointer image = mitk::DiffusionImage<short>::New();
         image->SetVectorImage( filter->GetOutput() );
         image->SetB_Value(bVal);
         image->SetDirections(gradientList);
         image->InitializeFromVectorImage();
-//        image->GetGeometry()->SetImageGeometry(false);
         resultNode->SetData( image );
         resultNode->SetName(m_SelectedBundle->GetName()
-                            +"_D"+QString::number(m_Controls->m_SizeX->value()).toStdString()
-                            +"-"+QString::number(m_Controls->m_SizeY->value()).toStdString()
-                            +"-"+QString::number(m_Controls->m_SizeZ->value()).toStdString()
+                            +"_D"+QString::number(imageRegion.GetSize(0)).toStdString()
+                            +"-"+QString::number(imageRegion.GetSize(1)).toStdString()
+                            +"-"+QString::number(imageRegion.GetSize(2)).toStdString()
                             +"_S"+QString::number(spacing[0]).toStdString()
                             +"-"+QString::number(spacing[1]).toStdString()
                             +"-"+QString::number(spacing[2]).toStdString()
                             +"_b"+QString::number(bVal).toStdString()
                             +"_SNR"+QString::number(snr).toStdString()
-                            +"_"+signalModelString.toStdString());
+                            +"_"+signalModelString.toStdString()
+                            +artifactModelString.toStdString());
         GetDataStorage()->Add(resultNode, m_SelectedBundle);
 
         resultNode->AddProperty("Fiberfox.SNR", DoubleProperty::New(snr));
         resultNode->AddProperty("Fiberfox.Repetitions", IntProperty::New(m_Controls->m_RepetitionsBox->value()));
         resultNode->AddProperty("Fiberfox.b-value", DoubleProperty::New(bVal));
         resultNode->AddProperty("Fiberfox.Model", StringProperty::New(signalModelString.toStdString()));
 
         if (m_Controls->m_KspaceImageBox->isChecked())
         {
             itk::Image<double, 3>::Pointer kspace = filter->GetKspaceImage();
             mitk::Image::Pointer image = mitk::Image::New();
             image->InitializeByItk(kspace.GetPointer());
             image->SetVolume(kspace->GetBufferPointer());
 
             mitk::DataNode::Pointer node = mitk::DataNode::New();
             node->SetData( image );
             node->SetName(m_SelectedBundle->GetName()+"_k-space");
             GetDataStorage()->Add(node, m_SelectedBundle);
         }
 
         mitk::BaseData::Pointer basedata = resultNode->GetData();
         if (basedata.IsNotNull())
         {
             mitk::RenderingManager::GetInstance()->InitializeViews(
                         basedata->GetTimeSlicedGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, true );
             mitk::RenderingManager::GetInstance()->RequestUpdateAll();
         }
     }
 }
 
 void QmitkFiberfoxView::ApplyTransform()
 {
     vector< mitk::DataNode::Pointer > selectedBundles;
     for( int i=0; i<m_SelectedImages.size(); i++ )
     {
         mitk::DataStorage::SetOfObjects::ConstPointer derivations = GetDataStorage()->GetDerivations(m_SelectedImages.at(i));
         for( mitk::DataStorage::SetOfObjects::const_iterator it = derivations->begin(); it != derivations->end(); ++it )
         {
             mitk::DataNode::Pointer fibNode = *it;
             if ( fibNode.IsNotNull() && dynamic_cast<mitk::FiberBundleX*>(fibNode->GetData()) )
                 selectedBundles.push_back(fibNode);
         }
     }
     if (selectedBundles.empty())
         selectedBundles = m_SelectedBundles2;
 
     if (!selectedBundles.empty())
     {
         std::vector<mitk::DataNode::Pointer>::const_iterator it = selectedBundles.begin();
         for (it; it!=selectedBundles.end(); ++it)
         {
             mitk::FiberBundleX::Pointer fib = dynamic_cast<mitk::FiberBundleX*>((*it)->GetData());
             fib->RotateAroundAxis(m_Controls->m_XrotBox->value(), m_Controls->m_YrotBox->value(), m_Controls->m_ZrotBox->value());
             fib->TranslateFibers(m_Controls->m_XtransBox->value(), m_Controls->m_YtransBox->value(), m_Controls->m_ZtransBox->value());
             fib->ScaleFibers(m_Controls->m_XscaleBox->value(), m_Controls->m_YscaleBox->value(), m_Controls->m_ZscaleBox->value());
 
             // handle child fiducials
             if (m_Controls->m_IncludeFiducials->isChecked())
             {
                 mitk::DataStorage::SetOfObjects::ConstPointer derivations = GetDataStorage()->GetDerivations(*it);
                 for( mitk::DataStorage::SetOfObjects::const_iterator it2 = derivations->begin(); it2 != derivations->end(); ++it2 )
                 {
                     mitk::DataNode::Pointer fiducialNode = *it2;
                     if ( fiducialNode.IsNotNull() && dynamic_cast<mitk::PlanarEllipse*>(fiducialNode->GetData()) )
                     {
                         mitk::PlanarEllipse* pe = dynamic_cast<mitk::PlanarEllipse*>(fiducialNode->GetData());
                         mitk::Geometry3D* geom = pe->GetGeometry();
 
                         // translate
                         mitk::Vector3D world;
                         world[0] = m_Controls->m_XtransBox->value();
                         world[1] = m_Controls->m_YtransBox->value();
                         world[2] = m_Controls->m_ZtransBox->value();
                         geom->Translate(world);
 
                         // calculate rotation matrix
                         double x = m_Controls->m_XrotBox->value()*M_PI/180;
                         double y = m_Controls->m_YrotBox->value()*M_PI/180;
                         double z = m_Controls->m_ZrotBox->value()*M_PI/180;
 
                         itk::Matrix< float, 3, 3 > rotX; rotX.SetIdentity();
                         rotX[1][1] = cos(x);
                         rotX[2][2] = rotX[1][1];
                         rotX[1][2] = -sin(x);
                         rotX[2][1] = -rotX[1][2];
 
                         itk::Matrix< float, 3, 3 > rotY; rotY.SetIdentity();
                         rotY[0][0] = cos(y);
                         rotY[2][2] = rotY[0][0];
                         rotY[0][2] = sin(y);
                         rotY[2][0] = -rotY[0][2];
 
                         itk::Matrix< float, 3, 3 > rotZ; rotZ.SetIdentity();
                         rotZ[0][0] = cos(z);
                         rotZ[1][1] = rotZ[0][0];
                         rotZ[0][1] = -sin(z);
                         rotZ[1][0] = -rotZ[0][1];
 
                         itk::Matrix< float, 3, 3 > rot = rotZ*rotY*rotX;
 
                         // transform control point coordinate into geometry translation
                         geom->SetOrigin(pe->GetWorldControlPoint(0));
                         mitk::Point2D cp; cp.Fill(0.0);
                         pe->SetControlPoint(0, cp);
 
                         // rotate fiducial
                         geom->GetIndexToWorldTransform()->SetMatrix(rot*geom->GetIndexToWorldTransform()->GetMatrix());
 
                         // implicit translation
                         mitk::Vector3D trans;
                         trans[0] = geom->GetOrigin()[0]-fib->GetGeometry()->GetCenter()[0];
                         trans[1] = geom->GetOrigin()[1]-fib->GetGeometry()->GetCenter()[1];
                         trans[2] = geom->GetOrigin()[2]-fib->GetGeometry()->GetCenter()[2];
                         mitk::Vector3D newWc = rot*trans;
                         newWc = newWc-trans;
                         geom->Translate(newWc);
                     }
                 }
             }
         }
     }
     else
     {
         for (int i=0; i<m_SelectedFiducials.size(); i++)
         {
             mitk::PlanarEllipse* pe = dynamic_cast<mitk::PlanarEllipse*>(m_SelectedFiducials.at(i)->GetData());
             mitk::Geometry3D* geom = pe->GetGeometry();
 
             // translate
             mitk::Vector3D world;
             world[0] = m_Controls->m_XtransBox->value();
             world[1] = m_Controls->m_YtransBox->value();
             world[2] = m_Controls->m_ZtransBox->value();
             geom->Translate(world);
 
             // calculate rotation matrix
             double x = m_Controls->m_XrotBox->value()*M_PI/180;
             double y = m_Controls->m_YrotBox->value()*M_PI/180;
             double z = m_Controls->m_ZrotBox->value()*M_PI/180;
             itk::Matrix< float, 3, 3 > rotX; rotX.SetIdentity();
             rotX[1][1] = cos(x);
             rotX[2][2] = rotX[1][1];
             rotX[1][2] = -sin(x);
             rotX[2][1] = -rotX[1][2];
             itk::Matrix< float, 3, 3 > rotY; rotY.SetIdentity();
             rotY[0][0] = cos(y);
             rotY[2][2] = rotY[0][0];
             rotY[0][2] = sin(y);
             rotY[2][0] = -rotY[0][2];
             itk::Matrix< float, 3, 3 > rotZ; rotZ.SetIdentity();
             rotZ[0][0] = cos(z);
             rotZ[1][1] = rotZ[0][0];
             rotZ[0][1] = -sin(z);
             rotZ[1][0] = -rotZ[0][1];
             itk::Matrix< float, 3, 3 > rot = rotZ*rotY*rotX;
 
             // transform control point coordinate into geometry translation
             geom->SetOrigin(pe->GetWorldControlPoint(0));
             mitk::Point2D cp; cp.Fill(0.0);
             pe->SetControlPoint(0, cp);
 
             // rotate fiducial
             geom->GetIndexToWorldTransform()->SetMatrix(rot*geom->GetIndexToWorldTransform()->GetMatrix());
         }
         if (m_Controls->m_RealTimeFibers->isChecked())
             GenerateFibers();
     }
     mitk::RenderingManager::GetInstance()->RequestUpdateAll();
 }
 
 void QmitkFiberfoxView::CopyBundles()
 {
     if ( m_SelectedBundles.size()<1 ){
         QMessageBox::information( NULL, "Warning", "Select at least one fiber bundle!");
         MITK_WARN("QmitkFiberProcessingView") << "Select at least one fiber bundle!";
         return;
     }
 
     std::vector<mitk::DataNode::Pointer>::const_iterator it = m_SelectedBundles.begin();
     for (it; it!=m_SelectedBundles.end(); ++it)
     {
         // find parent image
         mitk::DataNode::Pointer parentNode;
         mitk::DataStorage::SetOfObjects::ConstPointer parentImgs = GetDataStorage()->GetSources(*it);
         for( mitk::DataStorage::SetOfObjects::const_iterator it2 = parentImgs->begin(); it2 != parentImgs->end(); ++it2 )
         {
             mitk::DataNode::Pointer pImgNode = *it2;
             if ( pImgNode.IsNotNull() && dynamic_cast<mitk::Image*>(pImgNode->GetData()) )
             {
                 parentNode = pImgNode;
                 break;
             }
         }
 
         mitk::FiberBundleX::Pointer fib = dynamic_cast<mitk::FiberBundleX*>((*it)->GetData());
         mitk::FiberBundleX::Pointer newBundle = fib->GetDeepCopy();
         QString name((*it)->GetName().c_str());
         name += "_copy";
 
         mitk::DataNode::Pointer fbNode = mitk::DataNode::New();
         fbNode->SetData(newBundle);
         fbNode->SetName(name.toStdString());
         fbNode->SetVisibility(true);
         if (parentNode.IsNotNull())
             GetDataStorage()->Add(fbNode, parentNode);
         else
             GetDataStorage()->Add(fbNode);
 
         // copy child fiducials
         if (m_Controls->m_IncludeFiducials->isChecked())
         {
             mitk::DataStorage::SetOfObjects::ConstPointer derivations = GetDataStorage()->GetDerivations(*it);
             for( mitk::DataStorage::SetOfObjects::const_iterator it2 = derivations->begin(); it2 != derivations->end(); ++it2 )
             {
                 mitk::DataNode::Pointer fiducialNode = *it2;
                 if ( fiducialNode.IsNotNull() && dynamic_cast<mitk::PlanarEllipse*>(fiducialNode->GetData()) )
                 {
                     mitk::PlanarEllipse::Pointer pe = mitk::PlanarEllipse::New();
                     pe->DeepCopy(dynamic_cast<mitk::PlanarEllipse*>(fiducialNode->GetData()));
                     mitk::DataNode::Pointer newNode = mitk::DataNode::New();
                     newNode->SetData(pe);
                     newNode->SetName(fiducialNode->GetName());
                     GetDataStorage()->Add(newNode, fbNode);
                 }
             }
         }
     }
     mitk::RenderingManager::GetInstance()->RequestUpdateAll();
 }
 
 void QmitkFiberfoxView::JoinBundles()
 {
     if ( m_SelectedBundles.size()<2 ){
         QMessageBox::information( NULL, "Warning", "Select at least two fiber bundles!");
         MITK_WARN("QmitkFiberProcessingView") << "Select at least two fiber bundles!";
         return;
     }
 
     std::vector<mitk::DataNode::Pointer>::const_iterator it = m_SelectedBundles.begin();
     mitk::FiberBundleX::Pointer newBundle = dynamic_cast<mitk::FiberBundleX*>((*it)->GetData());
     QString name("");
     name += QString((*it)->GetName().c_str());
     ++it;
     for (it; it!=m_SelectedBundles.end(); ++it)
     {
         newBundle = newBundle->AddBundle(dynamic_cast<mitk::FiberBundleX*>((*it)->GetData()));
         name += "+"+QString((*it)->GetName().c_str());
     }
 
     mitk::DataNode::Pointer fbNode = mitk::DataNode::New();
     fbNode->SetData(newBundle);
     fbNode->SetName(name.toStdString());
     fbNode->SetVisibility(true);
     GetDataStorage()->Add(fbNode);
     mitk::RenderingManager::GetInstance()->RequestUpdateAll();
 }
 
 void QmitkFiberfoxView::UpdateGui()
 {
     m_Controls->m_FiberBundleLabel->setText("<font color='red'>mandatory</font>");
     m_Controls->m_GeometryFrame->setEnabled(true);
     m_Controls->m_GeometryMessage->setVisible(false);
     m_Controls->m_DiffusionPropsMessage->setVisible(false);
     m_Controls->m_FiberGenMessage->setVisible(true);
 
     m_Controls->m_TransformBundlesButton->setEnabled(false);
     m_Controls->m_CopyBundlesButton->setEnabled(false);
     m_Controls->m_GenerateFibersButton->setEnabled(false);
     m_Controls->m_FlipButton->setEnabled(false);
     m_Controls->m_CircleButton->setEnabled(false);
     m_Controls->m_BvalueBox->setEnabled(true);
     m_Controls->m_NumGradientsBox->setEnabled(true);
     m_Controls->m_JoinBundlesButton->setEnabled(false);
     m_Controls->m_AlignOnGrid->setEnabled(false);
 
     if (m_SelectedFiducial.IsNotNull())
     {
         m_Controls->m_TransformBundlesButton->setEnabled(true);
         m_Controls->m_FlipButton->setEnabled(true);
         m_Controls->m_AlignOnGrid->setEnabled(true);
     }
 
     if (m_SelectedImage.IsNotNull() || m_SelectedBundle.IsNotNull())
     {
         m_Controls->m_TransformBundlesButton->setEnabled(true);
         m_Controls->m_CircleButton->setEnabled(true);
         m_Controls->m_FiberGenMessage->setVisible(false);
         m_Controls->m_AlignOnGrid->setEnabled(true);
     }
 
     if (m_TissueMask.IsNotNull())
     {
         m_Controls->m_GeometryMessage->setVisible(true);
         m_Controls->m_GeometryFrame->setEnabled(false);
     }
 
     if (m_SelectedDWI.IsNotNull())
     {
         m_Controls->m_DiffusionPropsMessage->setVisible(true);
         m_Controls->m_BvalueBox->setEnabled(false);
         m_Controls->m_NumGradientsBox->setEnabled(false);
         m_Controls->m_GeometryMessage->setVisible(true);
         m_Controls->m_GeometryFrame->setEnabled(false);
     }
 
     if (m_SelectedBundle.IsNotNull())
     {
         m_Controls->m_CopyBundlesButton->setEnabled(true);
         m_Controls->m_GenerateFibersButton->setEnabled(true);
         m_Controls->m_FiberBundleLabel->setText(m_SelectedBundle->GetName().c_str());
 
         if (m_SelectedBundles.size()>1)
             m_Controls->m_JoinBundlesButton->setEnabled(true);
     }
 }
 
 void QmitkFiberfoxView::OnSelectionChanged( berry::IWorkbenchPart::Pointer, const QList<mitk::DataNode::Pointer>& nodes )
 {
     m_SelectedBundles2.clear();
     m_SelectedImages.clear();
     m_SelectedFiducials.clear();
     m_SelectedFiducial = NULL;
     m_TissueMask = NULL;
     m_SelectedBundles.clear();
     m_SelectedBundle = NULL;
     m_SelectedImage = NULL;
     m_SelectedDWI = NULL;
     m_Controls->m_TissueMaskLabel->setText("<font color='grey'>optional</font>");
 
     // iterate all selected objects, adjust warning visibility
     for( int i=0; i<nodes.size(); i++)
     {
         mitk::DataNode::Pointer node = nodes.at(i);
 
         if ( node.IsNotNull() && dynamic_cast<mitk::DiffusionImage<short>*>(node->GetData()) )
         {
             m_SelectedDWI = node;
             m_SelectedImage = node;
             m_SelectedImages.push_back(node);
         }
         else if( node.IsNotNull() && dynamic_cast<mitk::Image*>(node->GetData()) )
         {
             m_SelectedImages.push_back(node);
             m_SelectedImage = node;
             bool isBinary = false;
             node->GetPropertyValue<bool>("binary", isBinary);
             if (isBinary)
             {
                 m_TissueMask = dynamic_cast<mitk::Image*>(node->GetData());
                 m_Controls->m_TissueMaskLabel->setText(node->GetName().c_str());
             }
         }
         else if ( node.IsNotNull() && dynamic_cast<mitk::FiberBundleX*>(node->GetData()) )
         {
             m_SelectedBundles2.push_back(node);
             if (m_Controls->m_RealTimeFibers->isChecked() && node!=m_SelectedBundle)
             {
                 m_SelectedBundle = node;
                 m_SelectedBundles.push_back(node);
                 mitk::FiberBundleX::Pointer newFib = dynamic_cast<mitk::FiberBundleX*>(node->GetData());
                 if (newFib->GetNumFibers()!=m_Controls->m_FiberDensityBox->value())
                     GenerateFibers();
             }
             else
             {
                 m_SelectedBundle = node;
                 m_SelectedBundles.push_back(node);
             }
         }
         else if ( node.IsNotNull() && dynamic_cast<mitk::PlanarEllipse*>(node->GetData()) )
         {
             m_SelectedFiducials.push_back(node);
             m_SelectedFiducial = node;
             m_SelectedBundles.clear();
             mitk::DataStorage::SetOfObjects::ConstPointer parents = GetDataStorage()->GetSources(node);
             for( mitk::DataStorage::SetOfObjects::const_iterator it = parents->begin(); it != parents->end(); ++it )
             {
                 mitk::DataNode::Pointer pNode = *it;
                 if ( pNode.IsNotNull() && dynamic_cast<mitk::FiberBundleX*>(pNode->GetData()) )
                 {
                     m_SelectedBundle = pNode;
                     m_SelectedBundles.push_back(pNode);
                 }
             }
         }
     }
     UpdateGui();
 }
 
 
 void QmitkFiberfoxView::EnableCrosshairNavigation()
 {
     MITK_DEBUG << "EnableCrosshairNavigation";
 
     // enable the crosshair navigation
     if (mitk::ILinkedRenderWindowPart* linkedRenderWindow =
             dynamic_cast<mitk::ILinkedRenderWindowPart*>(this->GetRenderWindowPart()))
     {
         MITK_DEBUG << "enabling linked navigation";
         linkedRenderWindow->EnableLinkedNavigation(true);
         //        linkedRenderWindow->EnableSlicingPlanes(true);
     }
 
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::DisableCrosshairNavigation()
 {
     MITK_DEBUG << "DisableCrosshairNavigation";
 
     // disable the crosshair navigation during the drawing
     if (mitk::ILinkedRenderWindowPart* linkedRenderWindow =
             dynamic_cast<mitk::ILinkedRenderWindowPart*>(this->GetRenderWindowPart()))
     {
         MITK_DEBUG << "disabling linked navigation";
         linkedRenderWindow->EnableLinkedNavigation(false);
         //        linkedRenderWindow->EnableSlicingPlanes(false);
     }
 }
 
 void QmitkFiberfoxView::NodeRemoved(const mitk::DataNode* node)
 {
     if (node == m_SelectedImage)
         m_SelectedImage = NULL;
     if (node == m_SelectedBundle)
         m_SelectedBundle = NULL;
 
     mitk::DataNode* nonConstNode = const_cast<mitk::DataNode*>(node);
     std::map<mitk::DataNode*, QmitkPlanarFigureData>::iterator it = m_DataNodeToPlanarFigureData.find(nonConstNode);
 
     if( it != m_DataNodeToPlanarFigureData.end() )
     {
         QmitkPlanarFigureData& data = it->second;
 
         // remove observers
         data.m_Figure->RemoveObserver( data.m_EndPlacementObserverTag );
         data.m_Figure->RemoveObserver( data.m_SelectObserverTag );
         data.m_Figure->RemoveObserver( data.m_StartInteractionObserverTag );
         data.m_Figure->RemoveObserver( data.m_EndInteractionObserverTag );
 
         m_DataNodeToPlanarFigureData.erase( it );
     }
 }
 
 void QmitkFiberfoxView::NodeAdded( const mitk::DataNode* node )
 {
     // add observer for selection in renderwindow
     mitk::PlanarFigure* figure = dynamic_cast<mitk::PlanarFigure*>(node->GetData());
     bool isPositionMarker (false);
     node->GetBoolProperty("isContourMarker", isPositionMarker);
     if( figure && !isPositionMarker )
     {
         MITK_DEBUG << "figure added. will add interactor if needed.";
         mitk::PlanarFigureInteractor::Pointer figureInteractor
                 = dynamic_cast<mitk::PlanarFigureInteractor*>(node->GetInteractor());
 
         mitk::DataNode* nonConstNode = const_cast<mitk::DataNode*>( node );
         if(figureInteractor.IsNull())
         {
             figureInteractor = mitk::PlanarFigureInteractor::New("PlanarFigureInteractor", nonConstNode);
         }
         else
         {
             // just to be sure that the interactor is not added twice
             mitk::GlobalInteraction::GetInstance()->RemoveInteractor(figureInteractor);
         }
 
         MITK_DEBUG << "adding interactor to globalinteraction";
         mitk::GlobalInteraction::GetInstance()->AddInteractor(figureInteractor);
 
         MITK_DEBUG << "will now add observers for planarfigure";
         QmitkPlanarFigureData data;
         data.m_Figure = figure;
 
         //        // add observer for event when figure has been placed
         typedef itk::SimpleMemberCommand< QmitkFiberfoxView > SimpleCommandType;
         //        SimpleCommandType::Pointer initializationCommand = SimpleCommandType::New();
         //        initializationCommand->SetCallbackFunction( this, &QmitkFiberfoxView::PlanarFigureInitialized );
         //        data.m_EndPlacementObserverTag = figure->AddObserver( mitk::EndPlacementPlanarFigureEvent(), initializationCommand );
 
         // add observer for event when figure is picked (selected)
         typedef itk::MemberCommand< QmitkFiberfoxView > MemberCommandType;
         MemberCommandType::Pointer selectCommand = MemberCommandType::New();
         selectCommand->SetCallbackFunction( this, &QmitkFiberfoxView::PlanarFigureSelected );
         data.m_SelectObserverTag = figure->AddObserver( mitk::SelectPlanarFigureEvent(), selectCommand );
 
         // add observer for event when interaction with figure starts
         SimpleCommandType::Pointer startInteractionCommand = SimpleCommandType::New();
         startInteractionCommand->SetCallbackFunction( this, &QmitkFiberfoxView::DisableCrosshairNavigation);
         data.m_StartInteractionObserverTag = figure->AddObserver( mitk::StartInteractionPlanarFigureEvent(), startInteractionCommand );
 
         // add observer for event when interaction with figure starts
         SimpleCommandType::Pointer endInteractionCommand = SimpleCommandType::New();
         endInteractionCommand->SetCallbackFunction( this, &QmitkFiberfoxView::EnableCrosshairNavigation);
         data.m_EndInteractionObserverTag = figure->AddObserver( mitk::EndInteractionPlanarFigureEvent(), endInteractionCommand );
 
         m_DataNodeToPlanarFigureData[nonConstNode] = data;
     }
 }
 
 void QmitkFiberfoxView::PlanarFigureSelected( itk::Object* object, const itk::EventObject& )
 {
     mitk::TNodePredicateDataType<mitk::PlanarFigure>::Pointer isPf = mitk::TNodePredicateDataType<mitk::PlanarFigure>::New();
 
     mitk::DataStorage::SetOfObjects::ConstPointer allPfs = this->GetDataStorage()->GetSubset( isPf );
     for ( mitk::DataStorage::SetOfObjects::const_iterator it = allPfs->begin(); it!=allPfs->end(); ++it)
     {
         mitk::DataNode* node = *it;
 
         if( node->GetData() == object )
         {
             node->SetSelected(true);
             m_SelectedFiducial = node;
         }
         else
             node->SetSelected(false);
     }
     UpdateGui();
     this->RequestRenderWindowUpdate();
 }
 
 void QmitkFiberfoxView::SetFocus()
 {
     m_Controls->m_CircleButton->setFocus();
 }
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxViewControls.ui
index c04a7f4127..b8a746e398 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxViewControls.ui
@@ -1,1926 +1,1950 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkFiberfoxViewControls</class>
  <widget class="QWidget" name="QmitkFiberfoxViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>493</width>
     <height>1140</height>
    </rect>
   </property>
   <property name="windowTitle">
    <string>Form</string>
   </property>
   <layout class="QGridLayout" name="gridLayout_2">
    <item row="0" column="0">
     <widget class="QTabWidget" name="tabWidget">
      <property name="currentIndex">
       <number>0</number>
      </property>
      <widget class="QWidget" name="tab">
       <attribute name="title">
        <string>Fiber Definition</string>
       </attribute>
       <layout class="QGridLayout" name="gridLayout_8">
        <item row="7" column="0">
         <spacer name="verticalSpacer">
          <property name="orientation">
           <enum>Qt::Vertical</enum>
          </property>
          <property name="sizeHint" stdset="0">
           <size>
            <width>20</width>
            <height>40</height>
           </size>
          </property>
         </spacer>
        </item>
        <item row="0" column="0">
         <widget class="QLabel" name="m_FiberGenMessage">
          <property name="styleSheet">
           <string notr="true">color: rgb(255, 0, 0);</string>
          </property>
          <property name="text">
           <string>Please select an image or an existing fiber bundle to draw the fiber fiducials. If you can't provide a suitable image, generate one using the &quot;Signal Generation&quot; tab.</string>
          </property>
          <property name="textFormat">
           <enum>Qt::AutoText</enum>
          </property>
          <property name="alignment">
           <set>Qt::AlignJustify|Qt::AlignVCenter</set>
          </property>
          <property name="wordWrap">
           <bool>true</bool>
          </property>
         </widget>
        </item>
        <item row="5" column="0">
         <widget class="QGroupBox" name="groupBox_7">
          <property name="title">
           <string>Fiducial Options</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_16">
           <item row="0" column="0">
            <widget class="QCheckBox" name="m_ConstantRadiusBox">
             <property name="toolTip">
              <string>All fiducials are treated as circles with the same radius as the first fiducial. </string>
             </property>
             <property name="text">
              <string>Use Constant Fiducial Radius</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="1" column="0">
            <widget class="QCommandLinkButton" name="m_AlignOnGrid">
             <property name="enabled">
              <bool>false</bool>
             </property>
             <property name="toolTip">
              <string>Align selected fiducials with voxel grid. Shifts selected fiducials to nearest voxel center.</string>
             </property>
             <property name="text">
              <string>Align With Grid</string>
             </property>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="6" column="0" colspan="2">
         <widget class="QGroupBox" name="groupBox_4">
          <property name="title">
           <string>Operations</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_11">
           <item row="4" column="0">
            <widget class="QCommandLinkButton" name="m_CopyBundlesButton">
             <property name="enabled">
              <bool>false</bool>
             </property>
             <property name="text">
              <string>Copy Bundles</string>
             </property>
            </widget>
           </item>
           <item row="3" column="0">
            <widget class="QCommandLinkButton" name="m_TransformBundlesButton">
             <property name="enabled">
              <bool>false</bool>
             </property>
             <property name="text">
              <string>Transform Selection</string>
             </property>
            </widget>
           </item>
           <item row="2" column="0">
            <widget class="QFrame" name="frame_4">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_12">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="1" column="2">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_18">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Y</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="2" column="1">
               <widget class="QDoubleSpinBox" name="m_XrotBox">
                <property name="toolTip">
                 <string>Rotation angle (in degree) around x-axis.</string>
                </property>
                <property name="minimum">
                 <double>-360.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>360.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
               </widget>
              </item>
              <item row="1" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_22">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Axis:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="2" column="2">
               <widget class="QDoubleSpinBox" name="m_YrotBox">
                <property name="toolTip">
                 <string>Rotation angle (in degree) around y-axis.</string>
                </property>
                <property name="minimum">
                 <double>-360.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>360.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
               </widget>
              </item>
              <item row="3" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_21">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Translation:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="3" column="3">
               <widget class="QDoubleSpinBox" name="m_ZtransBox">
                <property name="toolTip">
                 <string>Translation (in mm) in direction of the z-axis.</string>
                </property>
                <property name="minimum">
                 <double>-100.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>100.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
               </widget>
              </item>
              <item row="3" column="2">
               <widget class="QDoubleSpinBox" name="m_YtransBox">
                <property name="toolTip">
                 <string>Translation (in mm) in direction of the y-axis.</string>
                </property>
                <property name="minimum">
                 <double>-100.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>100.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
               </widget>
              </item>
              <item row="1" column="1">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_17">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>X</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="2" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_20">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Rotation:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="1" column="3">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_19">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Z</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="2" column="3">
               <widget class="QDoubleSpinBox" name="m_ZrotBox">
                <property name="toolTip">
                 <string>Rotation angle (in degree) around z-axis.</string>
                </property>
                <property name="minimum">
                 <double>-360.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>360.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
               </widget>
              </item>
              <item row="3" column="1">
               <widget class="QDoubleSpinBox" name="m_XtransBox">
                <property name="toolTip">
                 <string>Translation (in mm) in direction of the x-axis.</string>
                </property>
                <property name="minimum">
                 <double>-100.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>100.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
               </widget>
              </item>
              <item row="4" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_24">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Scaling:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="4" column="1">
               <widget class="QDoubleSpinBox" name="m_XscaleBox">
                <property name="toolTip">
                 <string>Scaling factor for selected fiber bundle along the x-axis.</string>
                </property>
                <property name="minimum">
                 <double>0.010000000000000</double>
                </property>
                <property name="maximum">
                 <double>1.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.010000000000000</double>
                </property>
                <property name="value">
                 <double>1.000000000000000</double>
                </property>
               </widget>
              </item>
              <item row="4" column="2">
               <widget class="QDoubleSpinBox" name="m_YscaleBox">
                <property name="toolTip">
                 <string>Scaling factor for selected fiber bundle along the y-axis.</string>
                </property>
                <property name="minimum">
                 <double>0.010000000000000</double>
                </property>
                <property name="maximum">
                 <double>1.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.010000000000000</double>
                </property>
                <property name="value">
                 <double>1.000000000000000</double>
                </property>
               </widget>
              </item>
              <item row="4" column="3">
               <widget class="QDoubleSpinBox" name="m_ZscaleBox">
                <property name="toolTip">
                 <string>Scaling factor for selected fiber bundle along the z-axis.</string>
                </property>
                <property name="minimum">
                 <double>0.010000000000000</double>
                </property>
                <property name="maximum">
                 <double>1.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.010000000000000</double>
                </property>
                <property name="value">
                 <double>1.000000000000000</double>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="5" column="0">
            <widget class="QCommandLinkButton" name="m_JoinBundlesButton">
             <property name="enabled">
              <bool>false</bool>
             </property>
             <property name="text">
              <string>Join Bundles</string>
             </property>
            </widget>
           </item>
           <item row="6" column="0">
            <widget class="QCheckBox" name="m_IncludeFiducials">
             <property name="toolTip">
              <string>If checked, the fiducials belonging to the modified bundle are also modified.</string>
             </property>
             <property name="text">
              <string>Include Fiducials</string>
             </property>
             <property name="checked">
              <bool>true</bool>
             </property>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="4" column="0">
         <widget class="QGroupBox" name="groupBox_8">
          <property name="title">
           <string>Fiber Options</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_15">
           <item row="2" column="0">
            <widget class="QFrame" name="frame_5">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_9">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="2" column="0">
               <widget class="QFrame" name="m_AdvancedFiberOptionsFrame">
                <property name="frameShape">
                 <enum>QFrame::NoFrame</enum>
                </property>
                <property name="frameShadow">
                 <enum>QFrame::Raised</enum>
                </property>
                <layout class="QGridLayout" name="gridLayout_21">
                 <property name="margin">
                  <number>0</number>
                 </property>
                 <item row="1" column="0">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_5">
                   <property name="toolTip">
                    <string/>
                   </property>
                   <property name="statusTip">
                    <string/>
                   </property>
                   <property name="whatsThis">
                    <string/>
                   </property>
                   <property name="text">
                    <string>Tension:</string>
                   </property>
                   <property name="wordWrap">
                    <bool>false</bool>
                   </property>
                  </widget>
                 </item>
                 <item row="0" column="0">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_8">
                   <property name="toolTip">
                    <string/>
                   </property>
                   <property name="statusTip">
                    <string/>
                   </property>
                   <property name="whatsThis">
                    <string/>
                   </property>
                   <property name="text">
                    <string>Fiber Sampling:</string>
                   </property>
                   <property name="wordWrap">
                    <bool>false</bool>
                   </property>
                  </widget>
                 </item>
                 <item row="1" column="1">
                  <widget class="QDoubleSpinBox" name="m_TensionBox">
                   <property name="toolTip">
                    <string/>
                   </property>
                   <property name="decimals">
                    <number>3</number>
                   </property>
                   <property name="minimum">
                    <double>-1.000000000000000</double>
                   </property>
                   <property name="maximum">
                    <double>1.000000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>0.100000000000000</double>
                   </property>
                   <property name="value">
                    <double>0.000000000000000</double>
                   </property>
                  </widget>
                 </item>
                 <item row="0" column="1">
                  <widget class="QSpinBox" name="m_FiberSamplingBox">
                   <property name="toolTip">
                    <string>Fiber sampling points (per cm)</string>
                   </property>
                   <property name="minimum">
                    <number>1</number>
                   </property>
                   <property name="maximum">
                    <number>100</number>
                   </property>
                   <property name="singleStep">
                    <number>1</number>
                   </property>
                   <property name="value">
                    <number>10</number>
                   </property>
                  </widget>
                 </item>
                 <item row="3" column="1">
                  <widget class="QDoubleSpinBox" name="m_BiasBox">
                   <property name="decimals">
                    <number>3</number>
                   </property>
                   <property name="minimum">
                    <double>-1.000000000000000</double>
                   </property>
                   <property name="maximum">
                    <double>1.000000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>0.100000000000000</double>
                   </property>
                   <property name="value">
                    <double>0.000000000000000</double>
                   </property>
                  </widget>
                 </item>
                 <item row="3" column="0">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_7">
                   <property name="toolTip">
                    <string/>
                   </property>
                   <property name="statusTip">
                    <string/>
                   </property>
                   <property name="whatsThis">
                    <string/>
                   </property>
                   <property name="text">
                    <string>Bias:</string>
                   </property>
                   <property name="wordWrap">
                    <bool>false</bool>
                   </property>
                  </widget>
                 </item>
                 <item row="2" column="0">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_6">
                   <property name="toolTip">
                    <string/>
                   </property>
                   <property name="statusTip">
                    <string/>
                   </property>
                   <property name="whatsThis">
                    <string/>
                   </property>
                   <property name="text">
                    <string>Continuity:</string>
                   </property>
                   <property name="wordWrap">
                    <bool>false</bool>
                   </property>
                  </widget>
                 </item>
                 <item row="2" column="1">
                  <widget class="QDoubleSpinBox" name="m_ContinuityBox">
                   <property name="decimals">
                    <number>3</number>
                   </property>
                   <property name="minimum">
                    <double>-1.000000000000000</double>
                   </property>
                   <property name="maximum">
                    <double>1.000000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>0.100000000000000</double>
                   </property>
                   <property name="value">
                    <double>0.000000000000000</double>
                   </property>
                  </widget>
                 </item>
                </layout>
               </widget>
              </item>
              <item row="1" column="0">
               <widget class="QFrame" name="frame_2">
                <property name="frameShape">
                 <enum>QFrame::NoFrame</enum>
                </property>
                <property name="frameShadow">
                 <enum>QFrame::Raised</enum>
                </property>
                <layout class="QFormLayout" name="formLayout_2">
                 <property name="fieldGrowthPolicy">
                  <enum>QFormLayout::AllNonFixedFieldsGrow</enum>
                 </property>
                 <property name="verticalSpacing">
                  <number>6</number>
                 </property>
                 <property name="margin">
                  <number>0</number>
                 </property>
                 <item row="1" column="0">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_4">
                   <property name="toolTip">
                    <string/>
                   </property>
                   <property name="statusTip">
                    <string/>
                   </property>
                   <property name="whatsThis">
                    <string/>
                   </property>
                   <property name="text">
                    <string>#Fibers:</string>
                   </property>
                   <property name="wordWrap">
                    <bool>false</bool>
                   </property>
                  </widget>
                 </item>
                 <item row="1" column="1">
                  <widget class="QSpinBox" name="m_FiberDensityBox">
                   <property name="toolTip">
                    <string>Specify number of fibers to generate for the selected bundle.</string>
                   </property>
                   <property name="minimum">
                    <number>1</number>
                   </property>
                   <property name="maximum">
                    <number>1000000</number>
                   </property>
                   <property name="singleStep">
                    <number>100</number>
                   </property>
                   <property name="value">
                    <number>100</number>
                   </property>
                  </widget>
                 </item>
                </layout>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="3" column="0">
            <widget class="QCommandLinkButton" name="m_GenerateFibersButton">
             <property name="enabled">
              <bool>false</bool>
             </property>
             <property name="text">
              <string>Generate Fibers</string>
             </property>
            </widget>
           </item>
           <item row="1" column="0">
            <widget class="QFrame" name="frame_3">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_5">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="0" column="1">
               <widget class="QComboBox" name="m_DistributionBox">
                <property name="toolTip">
                 <string>Select fiber distribution inside of the fiducials.</string>
                </property>
                <item>
                 <property name="text">
                  <string>Uniform</string>
                 </property>
                </item>
                <item>
                 <property name="text">
                  <string>Gaussian</string>
                 </property>
                </item>
               </widget>
              </item>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_9">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Fiber Distribution:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="0" column="2">
               <widget class="QDoubleSpinBox" name="m_VarianceBox">
                <property name="toolTip">
                 <string>Variance of the gaussian</string>
                </property>
                <property name="decimals">
                 <number>3</number>
                </property>
                <property name="minimum">
                 <double>0.001000000000000</double>
                </property>
                <property name="maximum">
                 <double>10.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.010000000000000</double>
                </property>
                <property name="value">
                 <double>0.100000000000000</double>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="0" column="0">
            <widget class="QFrame" name="frame_8">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_22">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QCheckBox" name="m_RealTimeFibers">
                <property name="toolTip">
                 <string>Disable to only generate fibers if &quot;Generate Fibers&quot; button is pressed.</string>
                </property>
                <property name="text">
                 <string>Real Time Fibers</string>
                </property>
                <property name="checked">
                 <bool>true</bool>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QCheckBox" name="m_AdvancedFiberOptionsBox">
                <property name="toolTip">
                 <string>Disable to only generate fibers if &quot;Generate Fibers&quot; button is pressed.</string>
                </property>
                <property name="text">
                 <string>Advanced Options</string>
                </property>
                <property name="checked">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="3" column="0">
         <widget class="QFrame" name="frame">
          <property name="frameShape">
           <enum>QFrame::NoFrame</enum>
          </property>
          <property name="frameShadow">
           <enum>QFrame::Raised</enum>
          </property>
          <layout class="QGridLayout" name="gridLayout_3">
           <property name="margin">
            <number>0</number>
           </property>
           <item row="0" column="0">
            <widget class="QPushButton" name="m_CircleButton">
             <property name="enabled">
              <bool>false</bool>
             </property>
             <property name="maximumSize">
              <size>
               <width>30</width>
               <height>30</height>
              </size>
             </property>
             <property name="toolTip">
              <string>Draw elliptical fiducial.</string>
             </property>
             <property name="text">
              <string/>
             </property>
             <property name="icon">
              <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
               <normaloff>:/QmitkDiffusionImaging/circle.png</normaloff>:/QmitkDiffusionImaging/circle.png</iconset>
             </property>
             <property name="iconSize">
              <size>
               <width>32</width>
               <height>32</height>
              </size>
             </property>
             <property name="checkable">
              <bool>false</bool>
             </property>
             <property name="flat">
              <bool>true</bool>
             </property>
            </widget>
           </item>
           <item row="0" column="1">
            <widget class="QPushButton" name="m_FlipButton">
             <property name="enabled">
              <bool>false</bool>
             </property>
             <property name="maximumSize">
              <size>
               <width>30</width>
               <height>30</height>
              </size>
             </property>
             <property name="toolTip">
              <string>Flip fiber waypoints of selcted fiducial around one axis.</string>
             </property>
             <property name="text">
              <string/>
             </property>
             <property name="icon">
              <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
               <normaloff>:/QmitkDiffusionImaging/refresh.xpm</normaloff>:/QmitkDiffusionImaging/refresh.xpm</iconset>
             </property>
             <property name="iconSize">
              <size>
               <width>32</width>
               <height>32</height>
              </size>
             </property>
             <property name="checkable">
              <bool>false</bool>
             </property>
             <property name="flat">
              <bool>true</bool>
             </property>
            </widget>
           </item>
           <item row="0" column="2">
            <spacer name="horizontalSpacer">
             <property name="orientation">
              <enum>Qt::Horizontal</enum>
             </property>
             <property name="sizeHint" stdset="0">
              <size>
               <width>40</width>
               <height>20</height>
              </size>
             </property>
            </spacer>
           </item>
          </layout>
         </widget>
        </item>
       </layout>
      </widget>
      <widget class="QWidget" name="tab_2">
       <attribute name="title">
        <string>Signal Generation</string>
       </attribute>
       <layout class="QGridLayout" name="gridLayout_4">
        <item row="0" column="0">
         <widget class="QGroupBox" name="groupBox_2">
          <property name="title">
           <string>Data</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_10">
           <item row="0" column="0" rowspan="2" colspan="2">
            <widget class="QLabel" name="m_TensorsToDWIBValueLabel_16">
             <property name="toolTip">
              <string/>
             </property>
             <property name="statusTip">
              <string/>
             </property>
             <property name="whatsThis">
              <string/>
             </property>
             <property name="text">
              <string>Fiber Bundle:</string>
             </property>
             <property name="wordWrap">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="0" column="2" rowspan="2">
            <widget class="QLabel" name="m_FiberBundleLabel">
             <property name="text">
              <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
             </property>
             <property name="wordWrap">
              <bool>true</bool>
             </property>
            </widget>
           </item>
           <item row="3" column="0" colspan="2">
            <widget class="QLabel" name="m_TensorsToDWIBValueLabel_3">
             <property name="toolTip">
              <string/>
             </property>
             <property name="statusTip">
              <string/>
             </property>
             <property name="whatsThis">
              <string/>
             </property>
             <property name="text">
              <string>Tissue Mask:</string>
             </property>
             <property name="wordWrap">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="3" column="2">
            <widget class="QLabel" name="m_TissueMaskLabel">
             <property name="text">
              <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#969696;&quot;&gt;optional&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
             </property>
             <property name="wordWrap">
              <bool>true</bool>
             </property>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="7" column="0">
         <widget class="QGroupBox" name="groupBox_3">
          <property name="title">
           <string>Noise and Artifacts</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_6">
           <item row="5" column="0">
            <widget class="QFrame" name="m_KspaceParamFrame">
             <property name="enabled">
              <bool>true</bool>
             </property>
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QFormLayout" name="formLayout_4">
              <property name="horizontalSpacing">
               <number>6</number>
              </property>
              <property name="margin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_14">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>k-Space Undersampling:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QComboBox" name="m_KspaceUndersamplingBox">
                <property name="toolTip">
                 <string>Image is upsampled using this factor, afterwards fourier transformed, cropped to the original size and then inverse fourier transformed.</string>
                </property>
                <property name="currentIndex">
                 <number>1</number>
                </property>
                <item>
                 <property name="text">
                  <string>2</string>
                 </property>
                </item>
                <item>
                 <property name="text">
                  <string>4</string>
                 </property>
                </item>
                <item>
                 <property name="text">
                  <string>8</string>
                 </property>
                </item>
                <item>
                 <property name="text">
                  <string>16</string>
                 </property>
                </item>
                <item>
                 <property name="text">
                  <string>32</string>
                 </property>
                </item>
                <item>
                 <property name="text">
                  <string>64</string>
                 </property>
                </item>
                <item>
                 <property name="text">
                  <string>128</string>
                 </property>
                </item>
                <item>
                 <property name="text">
                  <string>256</string>
                 </property>
                </item>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="2" column="0">
            <widget class="QCheckBox" name="m_AddT2Smearing">
             <property name="text">
              <string>Add T2 Blurring</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="1" column="0">
            <widget class="QFrame" name="frame_7">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QFormLayout" name="formLayout_5">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_NoiseLabel">
                <property name="text">
                 <string>SNR:</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QDoubleSpinBox" name="m_NoiseLevel">
                <property name="toolTip">
                 <string>Signal to noise ratio (for values &gt; 99, no noise at all is added to the image). Value relative to the fiber signal scaling factor.</string>
                </property>
                <property name="decimals">
                 <number>4</number>
                </property>
                <property name="minimum">
                 <double>0.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>100.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.001000000000000</double>
                </property>
                <property name="value">
                 <double>25.000000000000000</double>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="3" column="0">
            <widget class="QFrame" name="m_T2bluringParamFrame">
             <property name="enabled">
              <bool>true</bool>
             </property>
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QFormLayout" name="formLayout">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_10">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Fiber T2:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QSpinBox" name="m_FiberRelaxationT2Box">
                <property name="toolTip">
                 <string>T2 of fiber tissue (in milliseconds).</string>
                </property>
                <property name="minimum">
                 <number>1</number>
                </property>
                <property name="maximum">
                 <number>10000</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>90</number>
                </property>
               </widget>
              </item>
              <item row="1" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_11">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Non Fiber T2:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="1" column="1">
               <widget class="QSpinBox" name="m_NonFiberRelaxationT2Box">
                <property name="toolTip">
                 <string>T2 of non-fiber tissue (in milliseconds).</string>
                </property>
                <property name="minimum">
                 <number>1</number>
                </property>
                <property name="maximum">
                 <number>10000</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>2200</number>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="4" column="0">
            <widget class="QCheckBox" name="m_AddGibbsRinging">
             <property name="text">
              <string>Add Gibbs Ringing</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="2" column="0">
         <widget class="QCommandLinkButton" name="m_GenerateImageButton">
          <property name="enabled">
           <bool>true</bool>
          </property>
          <property name="toolTip">
           <string>Start DWI generation from selected fiebr bundle. If no fiber bundle is selected, a grayscale image containing a simple gradient is generated.</string>
          </property>
          <property name="text">
           <string>Generate Image</string>
          </property>
         </widget>
        </item>
        <item row="5" column="0">
         <widget class="QGroupBox" name="groupBox_5">
          <property name="title">
           <string>Intra-axonal Compartment</string>
          </property>
          <property name="flat">
           <bool>false</bool>
          </property>
          <property name="checkable">
           <bool>false</bool>
          </property>
          <layout class="QGridLayout" name="gridLayout_13">
           <item row="1" column="0">
            <widget class="QFrame" name="m_TensorModelFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_17">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="0" column="1">
               <widget class="QDoubleSpinBox" name="m_TensorFaBox">
                <property name="toolTip">
                 <string>Determins anisotropy of kernel tensor (zeppelin-model).</string>
                </property>
                <property name="minimum">
                 <double>0.010000000000000</double>
                </property>
                <property name="maximum">
                 <double>1.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
                <property name="value">
                 <double>0.700000000000000</double>
                </property>
               </widget>
              </item>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWINumDirsLabel_6">
                <property name="text">
                 <string>Fractional Anisotropy:</string>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="0" column="0">
            <widget class="QComboBox" name="m_FiberCompartmentModelBox">
             <property name="toolTip">
              <string>Select signal model for intra-axonal compartment.</string>
             </property>
             <item>
              <property name="text">
               <string>Zeppelin Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Stick Model</string>
              </property>
             </item>
            </widget>
           </item>
           <item row="3" column="0">
            <widget class="QFrame" name="frame_6">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_20">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_23">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Signal Scale:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QSpinBox" name="m_FiberS0Box">
                <property name="toolTip">
                 <string>Scaling factor for intra-axonal signal.</string>
                </property>
                <property name="minimum">
                 <number>0</number>
                </property>
                <property name="maximum">
                 <number>10000</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>200</number>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="2" column="0">
            <widget class="QFrame" name="m_StickModelFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_19">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="0" column="1">
               <widget class="QDoubleSpinBox" name="m_StickDiffusivityBox">
                <property name="toolTip">
                 <string>Diffusivity parameter of the stick-model.</string>
                </property>
                <property name="decimals">
                 <number>4</number>
                </property>
                <property name="minimum">
                 <double>0.000100000000000</double>
                </property>
                <property name="maximum">
                 <double>1.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.000500000000000</double>
                </property>
                <property name="value">
                 <double>0.005000000000000</double>
                </property>
               </widget>
              </item>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWINumDirsLabel_8">
                <property name="text">
                 <string>Diffusivity:</string>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="4" column="0">
         <widget class="QGroupBox" name="groupBox">
          <property name="title">
           <string>Image Settings</string>
          </property>
          <layout class="QGridLayout" name="gridLayout">
           <item row="3" column="0">
            <widget class="QFrame" name="m_GeometryFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_7">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="2" column="2">
               <widget class="QDoubleSpinBox" name="m_SpacingY">
                <property name="decimals">
                 <number>3</number>
                </property>
                <property name="minimum">
                 <double>0.100000000000000</double>
                </property>
                <property name="maximum">
                 <double>50.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
                <property name="value">
                 <double>2.500000000000000</double>
                </property>
               </widget>
              </item>
              <item row="2" column="0">
               <widget class="QLabel" name="label_2">
                <property name="text">
                 <string>Image Spacing:</string>
                </property>
               </widget>
              </item>
              <item row="2" column="3">
               <widget class="QDoubleSpinBox" name="m_SpacingZ">
                <property name="decimals">
                 <number>3</number>
                </property>
                <property name="minimum">
                 <double>0.100000000000000</double>
                </property>
                <property name="maximum">
                 <double>50.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
                <property name="value">
                 <double>2.500000000000000</double>
                </property>
               </widget>
              </item>
              <item row="2" column="1">
               <widget class="QDoubleSpinBox" name="m_SpacingX">
                <property name="decimals">
                 <number>3</number>
                </property>
                <property name="minimum">
                 <double>0.100000000000000</double>
                </property>
                <property name="maximum">
                 <double>50.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
                <property name="value">
                 <double>2.500000000000000</double>
                </property>
               </widget>
              </item>
              <item row="0" column="0">
               <widget class="QLabel" name="label">
                <property name="text">
                 <string>Image Dimensions:</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QSpinBox" name="m_SizeX">
                <property name="toolTip">
                 <string>Fiber sampling factor which determines the accuracy of the calculated fiber and non-fiber volume fractions.</string>
                </property>
                <property name="minimum">
                 <number>1</number>
                </property>
                <property name="maximum">
                 <number>1000</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>32</number>
                </property>
               </widget>
              </item>
              <item row="0" column="2">
               <widget class="QSpinBox" name="m_SizeY">
                <property name="toolTip">
                 <string>Fiber sampling factor which determines the accuracy of the calculated fiber and non-fiber volume fractions.</string>
                </property>
                <property name="minimum">
                 <number>1</number>
                </property>
                <property name="maximum">
                 <number>100</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>32</number>
                </property>
               </widget>
              </item>
              <item row="0" column="3">
               <widget class="QSpinBox" name="m_SizeZ">
                <property name="toolTip">
                 <string>Fiber sampling factor which determines the accuracy of the calculated fiber and non-fiber volume fractions.</string>
                </property>
                <property name="minimum">
                 <number>1</number>
                </property>
                <property name="maximum">
                 <number>100</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>5</number>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="5" column="0">
            <widget class="QFrame" name="m_TensorsToDWIFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QFormLayout" name="formLayout_3">
              <property name="fieldGrowthPolicy">
               <enum>QFormLayout::AllNonFixedFieldsGrow</enum>
              </property>
              <property name="horizontalSpacing">
               <number>6</number>
              </property>
              <property name="verticalSpacing">
               <number>6</number>
              </property>
              <property name="margin">
               <number>0</number>
              </property>
              <item row="2" column="0">
               <widget class="QLabel" name="m_TensorsToDWINumDirsLabel">
                <property name="text">
                 <string>#Gradient Directions:</string>
                </property>
               </widget>
              </item>
              <item row="2" column="1">
               <widget class="QSpinBox" name="m_NumGradientsBox">
                <property name="toolTip">
                 <string>Number of gradient directions distributed over the half sphere.</string>
                </property>
                <property name="minimum">
                 <number>0</number>
                </property>
                <property name="maximum">
                 <number>10000</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>60</number>
                </property>
               </widget>
              </item>
              <item row="3" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>b-Value:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="3" column="1">
               <widget class="QSpinBox" name="m_BvalueBox">
                <property name="toolTip">
                 <string>b-value in mm/s²</string>
                </property>
                <property name="minimum">
                 <number>0</number>
                </property>
                <property name="maximum">
                 <number>10000</number>
                </property>
                <property name="singleStep">
                 <number>100</number>
                </property>
                <property name="value">
                 <number>1000</number>
                </property>
               </widget>
              </item>
              <item row="5" column="0">
               <widget class="QLabel" name="m_TensorsToDWINumDirsLabel_2">
                <property name="text">
                 <string>Repetitions:</string>
                </property>
               </widget>
              </item>
              <item row="5" column="1">
               <widget class="QSpinBox" name="m_RepetitionsBox">
                <property name="toolTip">
                 <string>Number of signal averages. Increase to reduce noise.</string>
                </property>
                <property name="minimum">
                 <number>1</number>
                </property>
                <property name="maximum">
                 <number>100</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>1</number>
                </property>
               </widget>
              </item>
+             <item row="6" column="0">
+              <widget class="QLabel" name="m_TensorsToDWINumDirsLabel_3">
+               <property name="text">
+                <string>Interpolation Shrink:</string>
+               </property>
+              </widget>
+             </item>
+             <item row="6" column="1">
+              <widget class="QSpinBox" name="m_InterpolationShrink">
+               <property name="toolTip">
+                <string>Large values shrink (towards nearest neighbour interpolation), small values strech interpolation function (towards linear interpolation).</string>
+               </property>
+               <property name="minimum">
+                <number>1</number>
+               </property>
+               <property name="maximum">
+                <number>10000</number>
+               </property>
+               <property name="value">
+                <number>10</number>
+               </property>
+              </widget>
+             </item>
             </layout>
            </widget>
           </item>
           <item row="2" column="0">
            <widget class="QLabel" name="m_GeometryMessage">
             <property name="styleSheet">
              <string notr="true">color: rgb(255, 0, 0);</string>
             </property>
             <property name="text">
              <string>Using mask image geometry!</string>
             </property>
            </widget>
           </item>
           <item row="6" column="0">
            <widget class="QCheckBox" name="m_EnforcePureFiberVoxelsBox">
             <property name="toolTip">
              <string>Treat voxel content as fiber-only if at least one fiber is present.</string>
             </property>
             <property name="text">
              <string>Enforce Pure Fiber Voxels</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="4" column="0">
            <widget class="QLabel" name="m_DiffusionPropsMessage">
             <property name="styleSheet">
              <string notr="true">color: rgb(255, 0, 0);</string>
             </property>
             <property name="text">
              <string>Using  gradients of selected DWI!</string>
             </property>
            </widget>
           </item>
           <item row="7" column="0">
            <widget class="QCheckBox" name="m_KspaceImageBox">
             <property name="text">
              <string>Output k-Space Image</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="8" column="0">
         <spacer name="verticalSpacer_2">
          <property name="orientation">
           <enum>Qt::Vertical</enum>
          </property>
          <property name="sizeHint" stdset="0">
           <size>
            <width>20</width>
            <height>40</height>
           </size>
          </property>
         </spacer>
        </item>
        <item row="6" column="0">
         <widget class="QGroupBox" name="groupBox_6">
          <property name="title">
           <string>Extra-axonal Compartment</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_14">
           <item row="0" column="0">
            <widget class="QComboBox" name="m_NonFiberCompartmentModelBox">
             <property name="toolTip">
              <string>Select signal model for extra-axonal compartment.</string>
             </property>
             <item>
              <property name="text">
               <string>Ball Model</string>
              </property>
             </item>
            </widget>
           </item>
           <item row="1" column="0">
            <widget class="QFrame" name="m_BallModelFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_18">
              <property name="margin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWINumDirsLabel_7">
                <property name="text">
                 <string>Diffusivity:</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QDoubleSpinBox" name="m_BallD">
                <property name="toolTip">
                 <string>Diffusivity parameter of the ball-model.</string>
                </property>
                <property name="decimals">
                 <number>4</number>
                </property>
                <property name="minimum">
                 <double>0.000100000000000</double>
                </property>
                <property name="maximum">
                 <double>1.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.000500000000000</double>
                </property>
                <property name="value">
                 <double>0.001000000000000</double>
                </property>
               </widget>
              </item>
              <item row="1" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_13">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Signal Scale:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="1" column="1">
               <widget class="QSpinBox" name="m_NonFiberS0Box">
                <property name="toolTip">
                 <string>Scaling factor extra-axonal signal.</string>
                </property>
                <property name="minimum">
                 <number>0</number>
                </property>
                <property name="maximum">
                 <number>10000</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>100</number>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
       </layout>
      </widget>
     </widget>
    </item>
   </layout>
  </widget>
  <tabstops>
+  <tabstop>tabWidget</tabstop>
   <tabstop>m_CircleButton</tabstop>
   <tabstop>m_FlipButton</tabstop>
   <tabstop>m_RealTimeFibers</tabstop>
   <tabstop>m_AdvancedFiberOptionsBox</tabstop>
   <tabstop>m_DistributionBox</tabstop>
   <tabstop>m_VarianceBox</tabstop>
   <tabstop>m_FiberDensityBox</tabstop>
   <tabstop>m_FiberSamplingBox</tabstop>
   <tabstop>m_TensionBox</tabstop>
   <tabstop>m_ContinuityBox</tabstop>
   <tabstop>m_BiasBox</tabstop>
   <tabstop>m_GenerateFibersButton</tabstop>
   <tabstop>m_ConstantRadiusBox</tabstop>
   <tabstop>m_AlignOnGrid</tabstop>
   <tabstop>m_XrotBox</tabstop>
   <tabstop>m_YrotBox</tabstop>
   <tabstop>m_ZrotBox</tabstop>
   <tabstop>m_XtransBox</tabstop>
   <tabstop>m_YtransBox</tabstop>
   <tabstop>m_ZtransBox</tabstop>
   <tabstop>m_XscaleBox</tabstop>
   <tabstop>m_YscaleBox</tabstop>
   <tabstop>m_ZscaleBox</tabstop>
   <tabstop>m_TransformBundlesButton</tabstop>
   <tabstop>m_CopyBundlesButton</tabstop>
   <tabstop>m_JoinBundlesButton</tabstop>
   <tabstop>m_IncludeFiducials</tabstop>
   <tabstop>m_GenerateImageButton</tabstop>
   <tabstop>m_SizeX</tabstop>
   <tabstop>m_SizeY</tabstop>
   <tabstop>m_SizeZ</tabstop>
   <tabstop>m_SpacingX</tabstop>
   <tabstop>m_SpacingY</tabstop>
   <tabstop>m_SpacingZ</tabstop>
   <tabstop>m_NumGradientsBox</tabstop>
   <tabstop>m_BvalueBox</tabstop>
   <tabstop>m_RepetitionsBox</tabstop>
+  <tabstop>m_InterpolationShrink</tabstop>
   <tabstop>m_EnforcePureFiberVoxelsBox</tabstop>
   <tabstop>m_KspaceImageBox</tabstop>
   <tabstop>m_FiberCompartmentModelBox</tabstop>
   <tabstop>m_TensorFaBox</tabstop>
   <tabstop>m_StickDiffusivityBox</tabstop>
   <tabstop>m_FiberS0Box</tabstop>
   <tabstop>m_NonFiberCompartmentModelBox</tabstop>
   <tabstop>m_BallD</tabstop>
   <tabstop>m_NonFiberS0Box</tabstop>
   <tabstop>m_NoiseLevel</tabstop>
   <tabstop>m_AddT2Smearing</tabstop>
   <tabstop>m_FiberRelaxationT2Box</tabstop>
   <tabstop>m_NonFiberRelaxationT2Box</tabstop>
   <tabstop>m_AddGibbsRinging</tabstop>
   <tabstop>m_KspaceUndersamplingBox</tabstop>
-  <tabstop>tabWidget</tabstop>
  </tabstops>
  <resources>
   <include location="../../resources/QmitkDiffusionImaging.qrc"/>
  </resources>
  <connections/>
 </ui>
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkGibbsTrackingViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkGibbsTrackingViewControls.ui
index 8e0c1595a5..539502c5c4 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkGibbsTrackingViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkGibbsTrackingViewControls.ui
@@ -1,1082 +1,1088 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkGibbsTrackingViewControls</class>
  <widget class="QWidget" name="QmitkGibbsTrackingViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>463</width>
     <height>1011</height>
    </rect>
   </property>
   <property name="sizePolicy">
    <sizepolicy hsizetype="Expanding" vsizetype="Expanding">
     <horstretch>0</horstretch>
     <verstretch>0</verstretch>
    </sizepolicy>
   </property>
   <property name="minimumSize">
    <size>
     <width>0</width>
     <height>0</height>
    </size>
   </property>
   <property name="windowTitle">
    <string>QmitkTemplate</string>
   </property>
   <layout class="QFormLayout" name="formLayout">
    <property name="fieldGrowthPolicy">
     <enum>QFormLayout::AllNonFixedFieldsGrow</enum>
    </property>
    <item row="0" column="0">
     <widget class="QGroupBox" name="m_DataFrame">
      <property name="title">
       <string>Please Select Input Data</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_4">
       <item row="0" column="0">
        <widget class="QLabel" name="label">
         <property name="text">
          <string>Q-Ball/Tensor Image:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QLabel" name="m_QballImageLabel">
         <property name="toolTip">
          <string>Mandatory input</string>
         </property>
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QLabel" name="label_3">
         <property name="text">
          <string>Mask Image:</string>
         </property>
        </widget>
       </item>
       <item row="1" column="1">
        <widget class="QLabel" name="m_MaskImageLabel">
         <property name="toolTip">
          <string>Optional input to limit the algorithms search space.</string>
         </property>
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#969696;&quot;&gt;optional&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="1" column="0" colspan="2">
     <widget class="QFrame" name="frame_4">
      <property name="frameShape">
       <enum>QFrame::NoFrame</enum>
      </property>
      <property name="frameShadow">
       <enum>QFrame::Plain</enum>
      </property>
      <property name="lineWidth">
       <number>0</number>
      </property>
      <layout class="QGridLayout" name="gridLayout_8">
       <property name="margin">
        <number>0</number>
       </property>
       <property name="spacing">
        <number>0</number>
       </property>
       <item row="1" column="0">
        <widget class="QCommandLinkButton" name="m_TrackingStart">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>No Q-Ball image selected.</string>
         </property>
         <property name="layoutDirection">
          <enum>Qt::LeftToRight</enum>
         </property>
         <property name="text">
          <string>Start Tractography</string>
         </property>
         <property name="icon">
          <iconset resource="../../../../Modules/QmitkExt/resources/QmitkResources.qrc">
           <normaloff>:/qmitk/play.xpm</normaloff>:/qmitk/play.xpm</iconset>
         </property>
        </widget>
       </item>
       <item row="1" column="1">
        <widget class="QCommandLinkButton" name="m_TrackingStop">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string/>
         </property>
         <property name="layoutDirection">
          <enum>Qt::LeftToRight</enum>
         </property>
         <property name="text">
          <string>Stop Tractography</string>
         </property>
         <property name="icon">
          <iconset resource="../../../../Modules/QmitkExt/resources/QmitkResources.qrc">
           <normaloff>:/qmitk/stop.xpm</normaloff>:/qmitk/stop.xpm</iconset>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="2" column="0" colspan="2">
     <widget class="QGroupBox" name="m_ParametersFrame">
      <property name="title">
       <string>Parameters</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_5">
       <property name="bottomMargin">
        <number>0</number>
       </property>
       <item row="0" column="0">
        <widget class="QLabel" name="m_IterationsLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Iterations: 10^7</string>
         </property>
        </widget>
       </item>
       <item row="0" column="2">
        <widget class="QSlider" name="m_IterationsSlider">
         <property name="toolTip">
          <string>Specify number of iterations for the tracking algorithm.</string>
         </property>
         <property name="maximum">
          <number>9</number>
         </property>
         <property name="value">
          <number>6</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="tickPosition">
          <enum>QSlider::TicksBelow</enum>
         </property>
        </widget>
       </item>
       <item row="2" column="0">
        <widget class="QCheckBox" name="m_VisualizationCheckbox">
         <property name="enabled">
          <bool>true</bool>
         </property>
         <property name="toolTip">
          <string>Activate continuous visualization of intermediate results.</string>
         </property>
         <property name="text">
          <string>Visualize Tractography</string>
         </property>
         <property name="checked">
          <bool>true</bool>
         </property>
        </widget>
       </item>
       <item row="2" column="2">
        <widget class="QToolButton" name="m_VisualizeOnceButton">
         <property name="toolTip">
          <string>Visualize intermediate result.</string>
         </property>
         <property name="text">
          <string/>
         </property>
         <property name="icon">
          <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
           <normaloff>:/QmitkDiffusionImaging/Refresh_48.png</normaloff>:/QmitkDiffusionImaging/Refresh_48.png</iconset>
         </property>
         <property name="checkable">
          <bool>true</bool>
         </property>
        </widget>
       </item>
       <item row="3" column="0">
        <widget class="QCheckBox" name="m_AdvancedSettingsCheckbox">
         <property name="text">
          <string>Advanced Settings</string>
         </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QLabel" name="m_CurvatureThresholdLabel_3">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Output File:</string>
         </property>
        </widget>
       </item>
       <item row="1" column="2">
        <widget class="QFrame" name="frame_2">
         <property name="frameShape">
          <enum>QFrame::NoFrame</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Plain</enum>
         </property>
         <property name="lineWidth">
          <number>0</number>
         </property>
         <layout class="QGridLayout" name="gridLayout">
          <property name="margin">
           <number>0</number>
          </property>
          <property name="spacing">
           <number>0</number>
          </property>
          <item row="0" column="1">
           <widget class="QToolButton" name="m_OutputFileButton">
            <property name="toolTip">
             <string>Select output file name and folder.</string>
            </property>
            <property name="text">
             <string>...</string>
            </property>
           </widget>
          </item>
          <item row="0" column="0">
           <widget class="QLineEdit" name="m_OutputFileLabel">
            <property name="text">
             <string>N/A</string>
            </property>
            <property name="readOnly">
             <bool>true</bool>
            </property>
           </widget>
          </item>
         </layout>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="3" column="0" colspan="2">
     <widget class="QFrame" name="m_AdvancedFrame">
      <property name="enabled">
       <bool>true</bool>
      </property>
      <property name="frameShape">
       <enum>QFrame::StyledPanel</enum>
      </property>
      <property name="frameShadow">
       <enum>QFrame::Raised</enum>
      </property>
      <layout class="QGridLayout" name="gridLayout_2">
       <property name="leftMargin">
        <number>9</number>
       </property>
       <property name="topMargin">
        <number>0</number>
       </property>
       <property name="rightMargin">
        <number>9</number>
       </property>
       <property name="bottomMargin">
        <number>0</number>
       </property>
       <property name="spacing">
        <number>4</number>
       </property>
       <item row="2" column="0">
        <widget class="QLabel" name="m_ParticleWidthLabel_2">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Particle Width:</string>
         </property>
        </widget>
       </item>
       <item row="6" column="1">
        <widget class="QLabel" name="m_InExBalanceLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>0</string>
         </property>
         <property name="alignment">
          <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
       <item row="4" column="1">
        <widget class="QLabel" name="m_StartTempLabel">
         <property name="text">
          <string>0.1</string>
         </property>
         <property name="alignment">
          <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
       <item row="3" column="0">
        <widget class="QLabel" name="m_ParticleWeightLabel_2">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Particle Weight:</string>
         </property>
        </widget>
       </item>
       <item row="5" column="2">
        <widget class="QSlider" name="m_EndTempSlider">
         <property name="minimum">
          <number>1</number>
         </property>
         <property name="maximum">
          <number>99</number>
         </property>
         <property name="singleStep">
          <number>1</number>
         </property>
         <property name="value">
          <number>10</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="tickPosition">
          <enum>QSlider::NoTicks</enum>
         </property>
        </widget>
       </item>
       <item row="4" column="0">
        <widget class="QLabel" name="m_StartTempLabel_2">
         <property name="text">
          <string>Start Temperature:</string>
         </property>
        </widget>
       </item>
       <item row="3" column="2">
        <widget class="QSlider" name="m_ParticleWeightSlider">
         <property name="toolTip">
          <string>automatic estimation from gfa map and q-ball data.</string>
         </property>
         <property name="minimum">
          <number>0</number>
         </property>
         <property name="maximum">
          <number>1000</number>
         </property>
         <property name="singleStep">
          <number>1</number>
         </property>
         <property name="value">
          <number>0</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="invertedControls">
          <bool>true</bool>
         </property>
         <property name="tickPosition">
          <enum>QSlider::NoTicks</enum>
         </property>
        </widget>
       </item>
       <item row="6" column="2">
        <widget class="QSlider" name="m_InExBalanceSlider">
         <property name="toolTip">
          <string>IE Bias &lt; 0 &lt; EE Bias</string>
         </property>
         <property name="minimum">
          <number>-50</number>
         </property>
         <property name="maximum">
          <number>50</number>
         </property>
         <property name="singleStep">
          <number>1</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="tickPosition">
          <enum>QSlider::NoTicks</enum>
         </property>
        </widget>
       </item>
       <item row="5" column="1">
        <widget class="QLabel" name="m_EndTempLabel">
         <property name="text">
          <string>0.001</string>
         </property>
         <property name="alignment">
          <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
       <item row="8" column="0">
        <widget class="QLabel" name="m_CurvatureThresholdLabel_2">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Curvature Threshold:</string>
         </property>
        </widget>
       </item>
       <item row="6" column="0">
        <widget class="QLabel" name="m_InExBalanceLabel_2">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Balance In/Ex Energy:</string>
         </property>
        </widget>
       </item>
       <item row="8" column="1">
        <widget class="QLabel" name="m_CurvatureThresholdLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>45°</string>
         </property>
         <property name="alignment">
          <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
       <item row="2" column="2">
        <widget class="QSlider" name="m_ParticleWidthSlider">
         <property name="toolTip">
          <string>auto = 0.5 * min. spacing; sigma</string>
         </property>
         <property name="maximum">
          <number>100</number>
         </property>
         <property name="singleStep">
          <number>1</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="tickPosition">
          <enum>QSlider::NoTicks</enum>
         </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QLabel" name="m_ParticleLengthLabel_2">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Particle Length:</string>
         </property>
        </widget>
       </item>
       <item row="1" column="1">
        <widget class="QLabel" name="m_ParticleLengthLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>auto</string>
         </property>
         <property name="alignment">
          <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
       <item row="7" column="0">
        <widget class="QLabel" name="m_FiberLengthLabel_2">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Min. Fiber Length:</string>
         </property>
        </widget>
       </item>
       <item row="7" column="2">
        <widget class="QSlider" name="m_FiberLengthSlider">
         <property name="toolTip">
          <string>Only fibers longer than specified are accepted.</string>
         </property>
         <property name="maximum">
          <number>500</number>
         </property>
         <property name="singleStep">
          <number>1</number>
         </property>
         <property name="value">
          <number>40</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="tickPosition">
          <enum>QSlider::NoTicks</enum>
         </property>
        </widget>
       </item>
       <item row="8" column="2">
        <widget class="QSlider" name="m_CurvatureThresholdSlider">
         <property name="toolTip">
          <string>Allow only fiber curvature values smaller than the selected threshold.</string>
         </property>
         <property name="maximum">
          <number>180</number>
         </property>
         <property name="singleStep">
          <number>1</number>
         </property>
         <property name="value">
          <number>45</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="tickPosition">
          <enum>QSlider::NoTicks</enum>
         </property>
        </widget>
       </item>
       <item row="5" column="0">
        <widget class="QLabel" name="m_EndTempLabel_2">
         <property name="text">
          <string>End Temperature:</string>
         </property>
        </widget>
       </item>
       <item row="7" column="1">
        <widget class="QLabel" name="m_FiberLengthLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>40mm</string>
         </property>
         <property name="alignment">
          <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
       <item row="3" column="1">
        <widget class="QLabel" name="m_ParticleWeightLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>auto</string>
         </property>
         <property name="alignment">
          <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
       <item row="4" column="2">
        <widget class="QSlider" name="m_StartTempSlider">
         <property name="minimum">
          <number>1</number>
         </property>
         <property name="maximum">
          <number>100</number>
         </property>
         <property name="singleStep">
          <number>1</number>
         </property>
         <property name="value">
          <number>10</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="invertedAppearance">
          <bool>false</bool>
         </property>
         <property name="invertedControls">
          <bool>false</bool>
         </property>
         <property name="tickPosition">
          <enum>QSlider::NoTicks</enum>
         </property>
        </widget>
       </item>
       <item row="2" column="1">
        <widget class="QLabel" name="m_ParticleWidthLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>auto</string>
         </property>
         <property name="alignment">
          <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
       <item row="1" column="2">
        <widget class="QSlider" name="m_ParticleLengthSlider">
         <property name="toolTip">
          <string>auto = 1.5 * min. spacing; l</string>
         </property>
         <property name="maximum">
          <number>100</number>
         </property>
         <property name="singleStep">
          <number>1</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="tickPosition">
          <enum>QSlider::NoTicks</enum>
         </property>
        </widget>
       </item>
       <item row="9" column="0">
        <widget class="QLabel" name="m_CurvatureThresholdLabel_4">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Random Seed</string>
         </property>
        </widget>
       </item>
       <item row="9" column="1">
        <widget class="QLabel" name="m_RandomSeedLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>auto</string>
         </property>
         <property name="alignment">
          <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
       <item row="9" column="2">
        <widget class="QSlider" name="m_RandomSeedSlider">
         <property name="toolTip">
          <string>auto = 1.5 * min. spacing; l</string>
         </property>
         <property name="minimum">
          <number>-1</number>
         </property>
         <property name="maximum">
          <number>100</number>
         </property>
         <property name="singleStep">
          <number>1</number>
         </property>
         <property name="value">
          <number>-1</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="tickPosition">
          <enum>QSlider::NoTicks</enum>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="4" column="0" colspan="2">
     <widget class="QFrame" name="frame_3">
      <property name="frameShape">
       <enum>QFrame::NoFrame</enum>
      </property>
      <property name="frameShadow">
       <enum>QFrame::Plain</enum>
      </property>
      <property name="lineWidth">
       <number>0</number>
      </property>
      <layout class="QGridLayout" name="gridLayout_7">
       <property name="margin">
        <number>0</number>
       </property>
       <property name="spacing">
        <number>0</number>
       </property>
       <item row="0" column="0">
        <widget class="QCommandLinkButton" name="m_SaveTrackingParameters">
         <property name="enabled">
          <bool>true</bool>
         </property>
         <property name="toolTip">
          <string>Save current parameters as xml (.gtp)</string>
         </property>
         <property name="layoutDirection">
          <enum>Qt::LeftToRight</enum>
         </property>
         <property name="text">
          <string>Save Parameters</string>
         </property>
         <property name="icon">
          <iconset resource="../../../../Modules/QmitkExt/resources/QmitkResources.qrc">
           <normaloff>:/qmitk/btnMoveDown.png</normaloff>:/qmitk/btnMoveDown.png</iconset>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QCommandLinkButton" name="m_LoadTrackingParameters">
         <property name="enabled">
          <bool>true</bool>
         </property>
         <property name="toolTip">
          <string>Load parameters from xml file (.gtp)</string>
         </property>
         <property name="layoutDirection">
          <enum>Qt::LeftToRight</enum>
         </property>
         <property name="text">
          <string>Load Parameters</string>
         </property>
         <property name="icon">
          <iconset resource="../../../../Modules/QmitkExt/resources/QmitkResources.qrc">
           <normaloff>:/qmitk/btnMoveUp.png</normaloff>:/qmitk/btnMoveUp.png</iconset>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="5" column="0">
     <widget class="QGroupBox" name="groupBox_4">
      <property name="title">
       <string>Monitor</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_6">
       <item row="0" column="0">
        <widget class="QLabel" name="label_23">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Progress:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QLabel" name="m_CurrentStepLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>-</string>
         </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QLabel" name="label_21">
         <property name="toolTip">
          <string comment="Will only be updated if tracking is visualized" extracomment="Will only be updated if tracking is visualized">Will only be updated if tracking is visualized</string>
         </property>
         <property name="statusTip">
          <string>Will only be updated if tracking is visualized</string>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Accepted Fibers:</string>
         </property>
        </widget>
       </item>
       <item row="2" column="0">
        <widget class="QLabel" name="label_24">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Connections:</string>
         </property>
        </widget>
       </item>
       <item row="3" column="0">
        <widget class="QLabel" name="label_25">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Particles:</string>
         </property>
        </widget>
       </item>
       <item row="4" column="0">
        <widget class="QLabel" name="label_27">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Proposal Acceptance Rate:</string>
         </property>
        </widget>
       </item>
       <item row="5" column="0">
        <widget class="QLabel" name="label_26">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>Tracking Time:</string>
         </property>
        </widget>
       </item>
       <item row="1" column="1">
        <widget class="QLabel" name="m_AcceptedFibersLabel">
         <property name="toolTip">
          <string>Will only be updated if tracking is visualized</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>-</string>
         </property>
        </widget>
       </item>
       <item row="2" column="1">
        <widget class="QLabel" name="m_NumConnectionsLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>-</string>
         </property>
        </widget>
       </item>
       <item row="3" column="1">
        <widget class="QLabel" name="m_NumParticlesLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>-</string>
         </property>
        </widget>
       </item>
       <item row="4" column="1">
        <widget class="QLabel" name="m_ProposalAcceptance">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>-</string>
         </property>
        </widget>
       </item>
       <item row="5" column="1">
        <widget class="QLabel" name="m_TrackingTimeLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string/>
         </property>
         <property name="text">
          <string>-</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="6" column="1">
     <spacer name="spacer1">
      <property name="orientation">
       <enum>Qt::Vertical</enum>
      </property>
      <property name="sizeType">
       <enum>QSizePolicy::Expanding</enum>
      </property>
      <property name="sizeHint" stdset="0">
       <size>
        <width>0</width>
        <height>0</height>
       </size>
      </property>
     </spacer>
    </item>
   </layout>
  </widget>
  <layoutdefault spacing="6" margin="11"/>
  <resources>
   <include location="../../../../Modules/QmitkExt/resources/QmitkResources.qrc"/>
   <include location="../../resources/QmitkDiffusionImaging.qrc"/>
  </resources>
  <connections/>
 </ui>
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkODFDetailsViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkODFDetailsViewControls.ui
index 5d21d510aa..0d3b3707e6 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkODFDetailsViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkODFDetailsViewControls.ui
@@ -1,205 +1,208 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkODFDetailsViewControls</class>
  <widget class="QWidget" name="QmitkODFDetailsViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>351</width>
     <height>734</height>
    </rect>
   </property>
   <property name="minimumSize">
    <size>
     <width>0</width>
     <height>0</height>
    </size>
   </property>
   <property name="windowTitle">
    <string>QmitkTemplate</string>
   </property>
   <layout class="QVBoxLayout" name="verticalLayout_2">
    <property name="spacing">
     <number>6</number>
    </property>
    <property name="margin">
     <number>9</number>
    </property>
    <item>
     <widget class="QGroupBox" name="m_InputData">
      <property name="title">
       <string>Please Select Input Data</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_3">
       <item row="0" column="0">
        <widget class="QLabel" name="label">
         <property name="text">
          <string>DTI/QBI:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QLabel" name="m_InputImageLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="m_OverviewBox">
      <property name="title">
       <string>Overview</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_4">
       <property name="leftMargin">
        <number>0</number>
       </property>
       <property name="topMargin">
        <number>9</number>
       </property>
       <property name="rightMargin">
        <number>0</number>
       </property>
       <property name="bottomMargin">
        <number>0</number>
       </property>
       <item row="0" column="0">
        <widget class="QTextEdit" name="m_OverviewTextEdit">
         <property name="sizePolicy">
          <sizepolicy hsizetype="Expanding" vsizetype="Expanding">
           <horstretch>0</horstretch>
           <verstretch>0</verstretch>
          </sizepolicy>
         </property>
         <property name="minimumSize">
          <size>
           <width>0</width>
           <height>0</height>
          </size>
         </property>
         <property name="readOnly">
          <bool>true</bool>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QmitkODFRenderWidget" name="m_ODFRenderWidget" native="true">
         <property name="sizePolicy">
          <sizepolicy hsizetype="Expanding" vsizetype="Expanding">
           <horstretch>0</horstretch>
           <verstretch>0</verstretch>
          </sizepolicy>
         </property>
         <property name="minimumSize">
          <size>
           <width>200</width>
           <height>200</height>
          </size>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QFrame" name="frame_2">
      <property name="sizePolicy">
       <sizepolicy hsizetype="Expanding" vsizetype="Expanding">
        <horstretch>0</horstretch>
        <verstretch>0</verstretch>
       </sizepolicy>
      </property>
      <property name="minimumSize">
       <size>
        <width>0</width>
        <height>0</height>
       </size>
      </property>
      <property name="frameShape">
       <enum>QFrame::NoFrame</enum>
      </property>
      <property name="frameShadow">
       <enum>QFrame::Raised</enum>
      </property>
      <layout class="QGridLayout" name="gridLayout">
       <property name="margin">
        <number>0</number>
       </property>
       <property name="spacing">
        <number>0</number>
       </property>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="m_OdfBox">
      <property name="title">
       <string>ODF Values</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_2">
       <item row="2" column="0">
        <widget class="QTextEdit" name="m_OdfValuesTextEdit">
         <property name="readOnly">
          <bool>true</bool>
         </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QmitkODFDetailsWidget" name="m_ODFDetailsWidget" native="true">
         <property name="sizePolicy">
          <sizepolicy hsizetype="Expanding" vsizetype="Expanding">
           <horstretch>0</horstretch>
           <verstretch>0</verstretch>
          </sizepolicy>
         </property>
         <property name="minimumSize">
          <size>
           <width>0</width>
           <height>200</height>
          </size>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <spacer name="spacer1">
      <property name="orientation">
       <enum>Qt::Vertical</enum>
      </property>
      <property name="sizeType">
       <enum>QSizePolicy::Expanding</enum>
      </property>
      <property name="sizeHint" stdset="0">
       <size>
        <width>20</width>
        <height>220</height>
       </size>
      </property>
     </spacer>
    </item>
   </layout>
  </widget>
  <layoutdefault spacing="6" margin="11"/>
  <customwidgets>
   <customwidget>
    <class>QmitkODFDetailsWidget</class>
    <extends>QWidget</extends>
    <header>QmitkODFDetailsWidget.h</header>
    <container>1</container>
   </customwidget>
   <customwidget>
    <class>QmitkODFRenderWidget</class>
    <extends>QWidget</extends>
    <header>QmitkODFRenderWidget.h</header>
    <container>1</container>
   </customwidget>
  </customwidgets>
  <resources/>
  <connections/>
 </ui>
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkOdfMaximaExtractionViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkOdfMaximaExtractionViewControls.ui
index d89adae693..22858ce939 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkOdfMaximaExtractionViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkOdfMaximaExtractionViewControls.ui
@@ -1,473 +1,479 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkOdfMaximaExtractionViewControls</class>
  <widget class="QWidget" name="QmitkOdfMaximaExtractionViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>392</width>
     <height>761</height>
    </rect>
   </property>
   <property name="windowTitle">
    <string>Form</string>
   </property>
   <layout class="QGridLayout" name="gridLayout_2">
    <item row="3" column="0">
     <widget class="QCommandLinkButton" name="m_GenerateImageButton">
      <property name="enabled">
       <bool>false</bool>
      </property>
      <property name="toolTip">
       <string>Extract ODF peaks using a semicontinuous method (Aganj et al. 2010). EXPERIMENTAL!</string>
      </property>
      <property name="text">
       <string>Start Analytical Extraction (only SH order 4)</string>
      </property>
     </widget>
    </item>
    <item row="0" column="0">
     <widget class="QGroupBox" name="m_InputData">
      <property name="title">
       <string>Please Select Input Data</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_5">
       <item row="0" column="0">
        <widget class="QLabel" name="label_4">
         <property name="toolTip">
          <string>Select a tensor image or a SH coefficient image (generate using Q-Ball reconstruction view).</string>
         </property>
         <property name="text">
          <string>ShCoeff/DTI:</string>
         </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QLabel" name="label_3">
         <property name="text">
          <string>Mask Image:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QLabel" name="m_DwiFibLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
       <item row="1" column="1">
        <widget class="QLabel" name="m_MaskLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#969696;&quot;&gt;optional&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="5" column="0">
     <widget class="QGroupBox" name="groupBox">
      <property name="title">
       <string>Parameters</string>
      </property>
      <layout class="QGridLayout" name="gridLayout">
       <item row="0" column="0">
        <widget class="QFrame" name="frame_2">
         <property name="frameShape">
          <enum>QFrame::NoFrame</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Raised</enum>
         </property>
         <layout class="QGridLayout" name="gridLayout_4">
          <property name="margin">
           <number>0</number>
          </property>
          <property name="horizontalSpacing">
           <number>6</number>
          </property>
          <item row="2" column="0">
           <widget class="QLabel" name="label_8">
            <property name="text">
             <string>Vector normalization:</string>
            </property>
           </widget>
          </item>
          <item row="2" column="1">
           <widget class="QComboBox" name="m_NormalizationBox">
            <property name="toolTip">
             <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;The vector fields are always coorected for image spacing and using the lagest eigenvalue in case of the tensor peak extraction. This is done for visualizytion purposes. The output direction images are not affected.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
            </property>
            <property name="currentIndex">
             <number>1</number>
            </property>
            <item>
             <property name="text">
              <string>No Normalization</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>MAX Normalize</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>Single Vec Normalization</string>
             </property>
            </item>
           </widget>
          </item>
         </layout>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QFrame" name="m_CoeffImageFrame">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="frameShape">
          <enum>QFrame::NoFrame</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Raised</enum>
         </property>
         <layout class="QGridLayout" name="gridLayout_3">
          <property name="margin">
           <number>0</number>
          </property>
          <property name="horizontalSpacing">
           <number>6</number>
          </property>
          <item row="0" column="0">
           <widget class="QLabel" name="label_9">
            <property name="text">
             <string>SH Order:</string>
            </property>
           </widget>
          </item>
          <item row="5" column="0">
           <widget class="QLabel" name="label_7">
            <property name="text">
             <string>Absolute threshold:</string>
            </property>
           </widget>
          </item>
          <item row="5" column="1">
           <widget class="QDoubleSpinBox" name="m_AbsoluteThresholdBox">
            <property name="enabled">
             <bool>false</bool>
            </property>
            <property name="toolTip">
             <string>Absolute peak threshold (only used for the finite differences method). The value is additionally scaled by 1/GFA.</string>
            </property>
            <property name="decimals">
             <number>3</number>
            </property>
            <property name="minimum">
             <double>0.000000000000000</double>
            </property>
            <property name="maximum">
             <double>1.000000000000000</double>
            </property>
            <property name="singleStep">
             <double>0.001000000000000</double>
            </property>
            <property name="value">
             <double>0.010000000000000</double>
            </property>
           </widget>
          </item>
          <item row="3" column="0">
           <widget class="QLabel" name="label_5">
            <property name="text">
             <string>Max. Peaks:</string>
            </property>
           </widget>
          </item>
          <item row="4" column="1">
           <widget class="QDoubleSpinBox" name="m_PeakThresholdBox">
            <property name="enabled">
             <bool>false</bool>
            </property>
            <property name="toolTip">
             <string>Peak threshold relative to the largest peak per voxel.</string>
            </property>
            <property name="minimum">
             <double>0.000000000000000</double>
            </property>
            <property name="maximum">
             <double>1.000000000000000</double>
            </property>
            <property name="singleStep">
             <double>0.050000000000000</double>
            </property>
            <property name="value">
             <double>0.400000000000000</double>
            </property>
           </widget>
          </item>
          <item row="3" column="1">
           <widget class="QSpinBox" name="m_MaxNumPeaksBox">
            <property name="enabled">
             <bool>false</bool>
            </property>
            <property name="toolTip">
             <string>Maximum number of peaks to extract.</string>
            </property>
            <property name="minimum">
             <number>1</number>
            </property>
            <property name="maximum">
             <number>1000</number>
            </property>
            <property name="value">
             <number>3</number>
            </property>
           </widget>
          </item>
          <item row="4" column="0">
           <widget class="QLabel" name="label_6">
            <property name="text">
             <string>Relative threshold:</string>
            </property>
           </widget>
          </item>
          <item row="0" column="1">
           <widget class="QComboBox" name="m_ShOrderBox">
            <property name="enabled">
             <bool>false</bool>
            </property>
            <property name="currentIndex">
             <number>1</number>
            </property>
            <item>
             <property name="text">
              <string>2</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>4</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>6</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>8</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>10</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>12</string>
             </property>
            </item>
           </widget>
          </item>
          <item row="6" column="0">
           <widget class="QLabel" name="label_10">
            <property name="text">
             <string>Clustering angle:</string>
            </property>
           </widget>
          </item>
          <item row="6" column="1">
           <widget class="QSpinBox" name="m_ClusteringAngleBox">
            <property name="toolTip">
             <string>Cluster close directions. Define &quot;close&quot; here.</string>
            </property>
            <property name="maximum">
             <number>90</number>
            </property>
            <property name="value">
             <number>25</number>
            </property>
           </widget>
          </item>
          <item row="7" column="0">
           <widget class="QLabel" name="label_11">
            <property name="text">
             <string>Angular threshold:</string>
            </property>
           </widget>
          </item>
          <item row="7" column="1">
           <widget class="QSpinBox" name="m_AngularThreshold">
            <property name="toolTip">
             <string>Discard smaller peaks in the defined angle around the maximum peaks.</string>
            </property>
            <property name="minimum">
             <number>0</number>
            </property>
            <property name="maximum">
             <number>90</number>
            </property>
            <property name="value">
             <number>0</number>
            </property>
           </widget>
          </item>
         </layout>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="15" column="0">
     <spacer name="verticalSpacer">
      <property name="orientation">
       <enum>Qt::Vertical</enum>
      </property>
      <property name="sizeHint" stdset="0">
       <size>
        <width>20</width>
        <height>259</height>
       </size>
      </property>
     </spacer>
    </item>
    <item row="14" column="0">
     <widget class="QGroupBox" name="groupBox_4">
      <property name="title">
       <string>Import From Other Tools</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_7">
       <item row="2" column="0">
        <widget class="QCommandLinkButton" name="m_ImportShCoeffs">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Generate Q-Ball image and MITK compatible SH coefficient from other toolkits.</string>
         </property>
         <property name="text">
          <string>Import SH - Coefficients</string>
         </property>
        </widget>
       </item>
       <item row="0" column="0">
        <widget class="QComboBox" name="m_ToolkitBox">
         <property name="toolTip">
          <string>Define SH coefficient convention (depends on toolkit)</string>
         </property>
         <item>
          <property name="text">
           <string>FSL</string>
          </property>
         </item>
         <item>
          <property name="text">
           <string>MRtrix</string>
          </property>
         </item>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QCommandLinkButton" name="m_ImportPeaks">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Generate vector field and direction images from the FSL qboot peak extraction output.</string>
         </property>
         <property name="text">
          <string>Import Peak Image</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="2" column="0">
     <widget class="QCommandLinkButton" name="m_StartFiniteDiff">
      <property name="enabled">
       <bool>false</bool>
      </property>
      <property name="toolTip">
       <string>Extract ODF peaks using finite differences on the densely sampled ODF surface.</string>
      </property>
      <property name="text">
       <string>Start Finite Differences Extraction</string>
      </property>
     </widget>
    </item>
    <item row="1" column="0">
     <widget class="QCommandLinkButton" name="m_StartTensor">
      <property name="enabled">
       <bool>false</bool>
      </property>
      <property name="toolTip">
       <string>Extract principal eigenvectors of input tensors.</string>
      </property>
      <property name="text">
       <string>Start Tensor Principal Direction Extraction</string>
      </property>
     </widget>
    </item>
    <item row="4" column="0">
     <widget class="QGroupBox" name="groupBox_2">
      <property name="title">
       <string>Output</string>
      </property>
      <layout class="QFormLayout" name="formLayout_2">
       <property name="fieldGrowthPolicy">
        <enum>QFormLayout::AllNonFixedFieldsGrow</enum>
       </property>
       <item row="0" column="0">
        <widget class="QCheckBox" name="m_OutputVectorFieldBox">
         <property name="toolTip">
          <string>Only for visualization purposes! The vectors are automatically corrected for image spacing and for the largest eigenvalue in case of the tensor peak extraction.</string>
         </property>
         <property name="text">
          <string>Vector Field</string>
         </property>
         <property name="checked">
          <bool>true</bool>
         </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QCheckBox" name="m_OutputNumDirectionsBox">
         <property name="toolTip">
          <string>Output unsigned char image containing the number of directions per voxel.</string>
         </property>
         <property name="text">
          <string>#Directions per Voxel</string>
         </property>
         <property name="checked">
          <bool>false</bool>
         </property>
        </widget>
       </item>
       <item row="2" column="0">
        <widget class="QCheckBox" name="m_OutputDirectionImagesBox">
         <property name="toolTip">
          <string>Output one image per extracted direction containing the direction vecors as pixel values.</string>
         </property>
         <property name="text">
          <string>Direction Images</string>
         </property>
         <property name="checked">
          <bool>false</bool>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
   </layout>
  </widget>
  <resources/>
  <connections/>
 </ui>
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkPreprocessingViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkPreprocessingViewControls.ui
index 89790ae3f1..c818538c87 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkPreprocessingViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkPreprocessingViewControls.ui
@@ -1,546 +1,549 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkPreprocessingViewControls</class>
  <widget class="QWidget" name="QmitkPreprocessingViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>892</width>
     <height>1079</height>
    </rect>
   </property>
   <property name="minimumSize">
    <size>
     <width>0</width>
     <height>0</height>
    </size>
   </property>
   <property name="acceptDrops">
    <bool>false</bool>
   </property>
   <property name="windowTitle">
    <string>QmitkPreprocessingViewControls</string>
   </property>
   <property name="autoFillBackground">
    <bool>true</bool>
   </property>
   <layout class="QVBoxLayout" name="verticalLayout">
    <item>
     <widget class="QGroupBox" name="m_InputData">
      <property name="title">
       <string>Please Select Input Data</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_2">
       <item row="0" column="0">
        <widget class="QLabel" name="label_5">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>Raw DWI:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QLabel" name="m_DiffusionImageLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_5">
      <property name="sizePolicy">
       <sizepolicy hsizetype="Preferred" vsizetype="Minimum">
        <horstretch>0</horstretch>
        <verstretch>0</verstretch>
       </sizepolicy>
      </property>
      <property name="title">
       <string>Info</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_3">
       <item row="0" column="0">
        <widget class="QTableWidget" name="m_BvalueTable">
         <property name="sizePolicy">
          <sizepolicy hsizetype="Minimum" vsizetype="Minimum">
           <horstretch>0</horstretch>
           <verstretch>0</verstretch>
          </sizepolicy>
         </property>
         <property name="verticalScrollBarPolicy">
          <enum>Qt::ScrollBarAsNeeded</enum>
         </property>
         <property name="horizontalScrollBarPolicy">
          <enum>Qt::ScrollBarAlwaysOff</enum>
         </property>
         <attribute name="horizontalHeaderCascadingSectionResizes">
          <bool>true</bool>
         </attribute>
         <attribute name="horizontalHeaderDefaultSectionSize">
          <number>100</number>
         </attribute>
         <attribute name="horizontalHeaderStretchLastSection">
          <bool>true</bool>
         </attribute>
         <attribute name="verticalHeaderVisible">
          <bool>false</bool>
         </attribute>
         <attribute name="verticalHeaderCascadingSectionResizes">
          <bool>true</bool>
         </attribute>
         <column>
          <property name="text">
           <string>b-Value</string>
          </property>
         </column>
         <column>
          <property name="text">
           <string>Number of gradients</string>
          </property>
         </column>
        </widget>
       </item>
       <item row="0" column="1">
        <spacer name="horizontalSpacer_2">
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="sizeHint" stdset="0">
          <size>
           <width>40</width>
           <height>20</height>
          </size>
         </property>
        </spacer>
       </item>
       <item row="1" column="0">
        <widget class="QCommandLinkButton" name="m_ShowGradientsButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Generate pointset displaying the gradient vectors (applied measurement frame).</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Show gradients</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_2">
      <property name="title">
       <string>Non diffusion weighted image</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout_3">
       <item>
        <widget class="QLabel" name="label_3">
         <property name="minimumSize">
          <size>
           <width>0</width>
           <height>30</height>
          </size>
         </property>
         <property name="text">
          <string>Average and extract all images that were acquired without diffusion weighting.</string>
         </property>
         <property name="wordWrap">
          <bool>true</bool>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_ButtonExtractB0">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>If multiple baseline acquisitions are present, the default behaviour is to output an averaged image.</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Extract B0</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QCheckBox" name="m_CheckExtractAll">
         <property name="toolTip">
          <string>Create a 3D+t data set containing all b0 images as timesteps</string>
         </property>
         <property name="text">
          <string>Extract all B0 images without averaging</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="m_ReduceSizeLayout">
      <property name="title">
       <string>Modify DWI</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout_4">
       <item>
        <widget class="QFrame" name="frame">
         <property name="frameShape">
          <enum>QFrame::NoFrame</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Raised</enum>
         </property>
         <layout class="QFormLayout" name="formLayout_2">
          <property name="margin">
           <number>0</number>
          </property>
          <item row="0" column="1">
           <widget class="QDoubleSpinBox" name="m_Blur">
            <property name="toolTip">
             <string comment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured." extracomment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.">Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.</string>
            </property>
            <property name="statusTip">
             <string comment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured." extracomment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.">Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.</string>
            </property>
            <property name="whatsThis">
             <string comment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured." extracomment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.">Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.</string>
            </property>
            <property name="decimals">
             <number>6</number>
            </property>
            <property name="maximum">
             <double>2.000000000000000</double>
            </property>
            <property name="singleStep">
             <double>0.000100000000000</double>
            </property>
            <property name="value">
             <double>0.001000000000000</double>
            </property>
           </widget>
          </item>
          <item row="0" column="0">
           <widget class="QLabel" name="label">
            <property name="toolTip">
             <string comment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured." extracomment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.">Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.</string>
            </property>
            <property name="statusTip">
             <string comment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured." extracomment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.">Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.</string>
            </property>
            <property name="whatsThis">
             <string comment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured." extracomment="Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.">Accumulates the information that was acquired with multiple repetitions for one gradient. Vectors do not have to be precisely equal in order to be merged, if a &quot;Merge radius&quot; &gt; 0 is configured.</string>
            </property>
            <property name="text">
             <string>Merge radius</string>
            </property>
           </widget>
          </item>
         </layout>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_ButtonAverageGradients">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Multiple acquistions of one gradient direction can be averaged. Due to rounding errors, similar gradients often differ in the last decimal positions. The Merge radius allows to average them by taking all directions within a certain radius into account.</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Average redundant gradients</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="Line" name="line_2">
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QFrame" name="m_ReductionFrame">
         <property name="frameShape">
          <enum>QFrame::NoFrame</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Raised</enum>
         </property>
         <layout class="QGridLayout" name="gridLayout_4">
          <property name="margin">
           <number>0</number>
          </property>
          <property name="spacing">
           <number>9</number>
          </property>
          <item row="0" column="1">
           <widget class="QLabel" name="label_6">
            <property name="text">
             <string/>
            </property>
           </widget>
          </item>
          <item row="0" column="0">
           <widget class="QLabel" name="label_4">
            <property name="text">
             <string>Specify desired number of gradients per shell:</string>
            </property>
           </widget>
          </item>
         </layout>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_ReduceGradientsButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Retain only the specified number of gradient directions and according image volumes. The retained directions are spread equally over the half sphere using an iterative energy repulsion strategy.</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Reduce number of gradients</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="Line" name="line">
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_MirrorGradientToHalfSphereButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Sometimes the gradient directions are not located on one half sphere.</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Mirror gradients to half sphere</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_7">
      <property name="title">
       <string>Merge selected images</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout_6">
       <item>
        <widget class="QCommandLinkButton" name="m_MergeDwisButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Merges selected DWIs of same dimension. If several b-values are present, the resulting image will contain multiple b-shells.</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Merge selected DWIs</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_4">
      <property name="sizePolicy">
       <sizepolicy hsizetype="Expanding" vsizetype="Expanding">
        <horstretch>0</horstretch>
        <verstretch>0</verstretch>
       </sizepolicy>
      </property>
      <property name="title">
       <string>Measurment frame</string>
      </property>
      <layout class="QGridLayout" name="gridLayout">
       <item row="0" column="1">
        <spacer name="horizontalSpacer">
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="sizeHint" stdset="0">
          <size>
           <width>40</width>
           <height>20</height>
          </size>
         </property>
        </spacer>
       </item>
       <item row="0" column="0">
        <widget class="QTableWidget" name="m_MeasurementFrameTable">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="sizePolicy">
          <sizepolicy hsizetype="Minimum" vsizetype="Minimum">
           <horstretch>0</horstretch>
           <verstretch>0</verstretch>
          </sizepolicy>
         </property>
         <property name="minimumSize">
          <size>
           <width>0</width>
           <height>0</height>
          </size>
         </property>
         <property name="cursor" stdset="0">
          <cursorShape>IBeamCursor</cursorShape>
         </property>
         <property name="autoFillBackground">
          <bool>true</bool>
         </property>
         <property name="verticalScrollBarPolicy">
          <enum>Qt::ScrollBarAlwaysOff</enum>
         </property>
         <property name="horizontalScrollBarPolicy">
          <enum>Qt::ScrollBarAlwaysOff</enum>
         </property>
         <property name="showGrid">
          <bool>true</bool>
         </property>
         <property name="cornerButtonEnabled">
          <bool>false</bool>
         </property>
         <attribute name="horizontalHeaderVisible">
          <bool>false</bool>
         </attribute>
         <attribute name="horizontalHeaderCascadingSectionResizes">
          <bool>true</bool>
         </attribute>
         <attribute name="horizontalHeaderHighlightSections">
          <bool>true</bool>
         </attribute>
         <attribute name="horizontalHeaderMinimumSectionSize">
          <number>0</number>
         </attribute>
         <attribute name="verticalHeaderVisible">
          <bool>false</bool>
         </attribute>
         <attribute name="verticalHeaderCascadingSectionResizes">
          <bool>true</bool>
         </attribute>
         <attribute name="verticalHeaderHighlightSections">
          <bool>true</bool>
         </attribute>
         <row>
          <property name="text">
           <string>New Row</string>
          </property>
         </row>
         <row>
          <property name="text">
           <string>New Row</string>
          </property>
         </row>
         <row>
          <property name="text">
           <string>New Row</string>
          </property>
         </row>
         <column>
          <property name="text">
           <string>New Column</string>
          </property>
         </column>
         <column>
          <property name="text">
           <string>New Column</string>
          </property>
         </column>
         <column>
          <property name="text">
           <string>New Column</string>
          </property>
         </column>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QCommandLinkButton" name="m_ModifyMeasurementFrame">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Apply new mesurement frame</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <spacer name="verticalSpacer">
      <property name="orientation">
       <enum>Qt::Vertical</enum>
      </property>
      <property name="sizeHint" stdset="0">
       <size>
        <width>20</width>
        <height>40</height>
       </size>
      </property>
     </spacer>
    </item>
   </layout>
  </widget>
  <layoutdefault spacing="6" margin="11"/>
  <resources/>
  <connections/>
 </ui>
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkQBallReconstructionViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkQBallReconstructionViewControls.ui
index 2fd8a33444..16f500cf6e 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkQBallReconstructionViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkQBallReconstructionViewControls.ui
@@ -1,329 +1,332 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkQBallReconstructionViewControls</class>
  <widget class="QWidget" name="QmitkQBallReconstructionViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>372</width>
     <height>844</height>
    </rect>
   </property>
   <property name="minimumSize">
    <size>
     <width>0</width>
     <height>0</height>
    </size>
   </property>
   <property name="acceptDrops">
    <bool>true</bool>
   </property>
   <property name="windowTitle">
    <string>QmitkQBallReconstructionViewControls</string>
   </property>
   <layout class="QVBoxLayout" name="verticalLayout_3">
    <item>
     <widget class="QGroupBox" name="m_InputData">
      <property name="title">
       <string>Please Select Input Data</string>
      </property>
      <layout class="QGridLayout" name="gridLayout">
       <item row="0" column="0">
        <widget class="QLabel" name="label">
         <property name="toolTip">
          <string>Input for Q-Ball reconstruction.</string>
         </property>
         <property name="text">
          <string>Raw DWI:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QLabel" name="m_DiffusionImageLabel">
         <property name="toolTip">
          <string>Input for Q-Ball reconstruction.</string>
         </property>
         <property name="text">
          <string>&lt;font color='red'&gt;mandatory&lt;/font&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_3">
      <property name="title">
       <string>Parameters</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout">
       <item>
        <widget class="QCheckBox" name="m_AdvancedCheckbox">
         <property name="text">
          <string>Advanced Settings</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QFrame" name="frame_2">
         <property name="frameShape">
          <enum>QFrame::StyledPanel</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Raised</enum>
         </property>
         <layout class="QGridLayout" name="gridLayout_5">
          <item row="0" column="0">
           <widget class="QFrame" name="frame_3">
            <property name="frameShape">
             <enum>QFrame::NoFrame</enum>
            </property>
            <property name="frameShadow">
             <enum>QFrame::Raised</enum>
            </property>
            <layout class="QGridLayout" name="gridLayout_4">
             <property name="margin">
              <number>0</number>
             </property>
             <item row="0" column="0">
              <widget class="QLabel" name="m_QBallReconstructionThresholdLabel_2">
               <property name="enabled">
                <bool>true</bool>
               </property>
               <property name="text">
                <string>B0 Threshold</string>
               </property>
               <property name="wordWrap">
                <bool>false</bool>
               </property>
              </widget>
             </item>
             <item row="0" column="1">
              <widget class="QSpinBox" name="m_QBallReconstructionThreasholdEdit"/>
             </item>
            </layout>
           </widget>
          </item>
          <item row="1" column="0">
           <widget class="QFrame" name="m_ShFrame">
            <property name="frameShape">
             <enum>QFrame::NoFrame</enum>
            </property>
            <property name="frameShadow">
             <enum>QFrame::Raised</enum>
            </property>
            <layout class="QGridLayout" name="gridLayout_3">
             <property name="margin">
              <number>0</number>
             </property>
             <item row="0" column="0">
              <widget class="QFrame" name="frame">
               <property name="frameShape">
                <enum>QFrame::NoFrame</enum>
               </property>
               <property name="frameShadow">
                <enum>QFrame::Raised</enum>
               </property>
               <layout class="QGridLayout" name="gridLayout_2">
                <property name="margin">
                 <number>0</number>
                </property>
                <item row="3" column="0">
                 <widget class="QLabel" name="m_QBallReconstructionLambdaTextLabel_2">
                  <property name="enabled">
                   <bool>true</bool>
                  </property>
                  <property name="toolTip">
                   <string>Regularization Parameter</string>
                  </property>
                  <property name="text">
                   <string>Lambda:</string>
                  </property>
                  <property name="wordWrap">
                   <bool>false</bool>
                  </property>
                 </widget>
                </item>
                <item row="2" column="0">
                 <widget class="QLabel" name="m_QBallReconstructionMaxLLevelTextLabel_2">
                  <property name="enabled">
                   <bool>true</bool>
                  </property>
                  <property name="text">
                   <string>Maximum l-Level:</string>
                  </property>
                  <property name="wordWrap">
                   <bool>false</bool>
                  </property>
                 </widget>
                </item>
                <item row="2" column="1">
                 <widget class="QComboBox" name="m_QBallReconstructionMaxLLevelComboBox">
                  <property name="enabled">
                   <bool>true</bool>
                  </property>
                  <property name="currentIndex">
                   <number>-1</number>
                  </property>
                 </widget>
                </item>
                <item row="1" column="0">
                 <widget class="QLabel" name="label_2">
                  <property name="enabled">
                   <bool>true</bool>
                  </property>
                  <property name="text">
                   <string>Spherical Harmonics:</string>
                  </property>
                 </widget>
                </item>
                <item row="3" column="1">
                 <widget class="QDoubleSpinBox" name="m_QBallReconstructionLambdaLineEdit">
                  <property name="decimals">
                   <number>3</number>
                  </property>
                  <property name="maximum">
                   <double>1.000000000000000</double>
                  </property>
                  <property name="singleStep">
                   <double>0.001000000000000</double>
                  </property>
                  <property name="value">
                   <double>0.006000000000000</double>
                  </property>
                 </widget>
                </item>
               </layout>
              </widget>
             </item>
             <item row="1" column="0">
              <widget class="QCheckBox" name="m_OutputCoeffsImage">
               <property name="text">
                <string>Output SH-Coefficient Image</string>
               </property>
              </widget>
             </item>
             <item row="2" column="0">
              <widget class="QCheckBox" name="m_UseWeights">
               <property name="toolTip">
                <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Only for a dataset with 3 Shells and an arethmetic progression (e.g. b1=1000, b2=2000, b3=3000 ).&lt;/p&gt;&lt;p&gt;Weightings will be applied on the interpolated directions.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
               </property>
               <property name="text">
                <string>Use Shell Weights</string>
               </property>
              </widget>
             </item>
            </layout>
           </widget>
          </item>
         </layout>
        </widget>
       </item>
       <item>
        <widget class="QComboBox" name="m_QBallReconstructionMethodComboBox">
         <property name="currentIndex">
          <number>2</number>
         </property>
         <item>
          <property name="text">
           <string>Numerical</string>
          </property>
         </item>
         <item>
          <property name="text">
           <string>Standard</string>
          </property>
         </item>
         <item>
          <property name="text">
           <string>Solid Angle</string>
          </property>
         </item>
         <item>
          <property name="text">
           <string>Constraint Solid Angle</string>
          </property>
         </item>
         <item>
          <property name="text">
           <string>ADC-Profile only</string>
          </property>
         </item>
         <item>
          <property name="text">
           <string>Raw Signal only</string>
          </property>
         </item>
         <item>
          <property name="text">
           <string>Multi-Shell</string>
          </property>
         </item>
        </widget>
       </item>
       <item>
        <widget class="QLabel" name="m_Description">
         <property name="text">
          <string>TextLabel</string>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_ButtonStandard">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Start Reconstruction</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="m_QBallSelectionBox">
      <property name="enabled">
       <bool>true</bool>
      </property>
      <property name="layoutDirection">
       <enum>Qt::LeftToRight</enum>
      </property>
      <property name="autoFillBackground">
       <bool>false</bool>
      </property>
      <property name="title">
       <string>Multi-Shell Reconstruction</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout_2"/>
     </widget>
    </item>
    <item>
     <spacer name="verticalSpacer">
      <property name="orientation">
       <enum>Qt::Vertical</enum>
      </property>
      <property name="sizeHint" stdset="0">
       <size>
        <width>20</width>
        <height>0</height>
       </size>
      </property>
     </spacer>
    </item>
   </layout>
  </widget>
  <layoutdefault spacing="6" margin="11"/>
  <resources/>
  <connections/>
 </ui>
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkStochasticFiberTrackingViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkStochasticFiberTrackingViewControls.ui
index 4feba4a624..5e9e080193 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkStochasticFiberTrackingViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkStochasticFiberTrackingViewControls.ui
@@ -1,209 +1,215 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkStochasticFiberTrackingViewControls</class>
  <widget class="QWidget" name="QmitkStochasticFiberTrackingViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>340</width>
     <height>258</height>
    </rect>
   </property>
   <property name="minimumSize">
    <size>
     <width>0</width>
     <height>0</height>
    </size>
   </property>
   <property name="windowTitle">
    <string>QmitkTemplate</string>
   </property>
   <layout class="QGridLayout" name="gridLayout_3">
    <property name="topMargin">
     <number>3</number>
    </property>
    <property name="bottomMargin">
     <number>3</number>
    </property>
    <property name="spacing">
     <number>0</number>
    </property>
    <item row="1" column="0">
     <widget class="QCommandLinkButton" name="commandLinkButton">
      <property name="enabled">
       <bool>false</bool>
      </property>
      <property name="text">
       <string>Start Tractography</string>
      </property>
     </widget>
    </item>
    <item row="7" column="0">
     <spacer name="spacer1">
      <property name="orientation">
       <enum>Qt::Vertical</enum>
      </property>
      <property name="sizeType">
       <enum>QSizePolicy::Expanding</enum>
      </property>
      <property name="sizeHint" stdset="0">
       <size>
        <width>20</width>
        <height>220</height>
       </size>
      </property>
     </spacer>
    </item>
    <item row="5" column="0">
     <widget class="QGroupBox" name="groupBox_2">
      <property name="title">
       <string>Parameters</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_2">
       <item row="0" column="1">
        <widget class="QSlider" name="m_MaxTractLengthSlider">
         <property name="toolTip">
          <string>Maximum tract length in #voxel.</string>
         </property>
         <property name="minimum">
          <number>1</number>
         </property>
         <property name="maximum">
          <number>500</number>
         </property>
         <property name="value">
          <number>100</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="0" column="0">
        <widget class="QLabel" name="m_MaxTractLengthLabel">
         <property name="toolTip">
          <string>Maximum tract length in #voxel.</string>
         </property>
         <property name="text">
          <string>Max. Tract Length: 100</string>
         </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QLabel" name="m_SeedsPerVoxelLabel">
         <property name="toolTip">
          <string>Number of tracts started in each voxel of the seed ROI.</string>
         </property>
         <property name="text">
          <string>Seeds per Voxel: 1</string>
         </property>
        </widget>
       </item>
       <item row="2" column="0">
        <widget class="QLabel" name="m_MaxCacheSizeLabel">
         <property name="toolTip">
          <string>Likelihood cache in Megabytes.</string>
         </property>
         <property name="text">
          <string>Max. Chache Size: 1GB</string>
         </property>
        </widget>
       </item>
       <item row="1" column="1">
        <widget class="QSlider" name="m_SeedsPerVoxelSlider">
         <property name="toolTip">
          <string>Number of tracts started in each voxel of the seed ROI.</string>
         </property>
         <property name="minimum">
          <number>1</number>
         </property>
         <property name="maximum">
          <number>10000</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="2" column="1">
        <widget class="QSlider" name="m_MaxCacheSizeSlider">
         <property name="toolTip">
          <string>Likelihood cache in Megabytes.</string>
         </property>
         <property name="minimum">
          <number>1</number>
         </property>
         <property name="maximum">
          <number>10</number>
         </property>
         <property name="value">
          <number>1</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="3" column="0">
        <spacer name="horizontalSpacer">
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="sizeType">
          <enum>QSizePolicy::Fixed</enum>
         </property>
         <property name="sizeHint" stdset="0">
          <size>
           <width>200</width>
           <height>0</height>
          </size>
         </property>
        </spacer>
       </item>
      </layout>
     </widget>
    </item>
    <item row="0" column="0">
     <widget class="QGroupBox" name="m_InputData">
      <property name="title">
       <string>Please Select Input Data</string>
      </property>
      <layout class="QGridLayout" name="gridLayout">
       <item row="0" column="0">
        <widget class="QLabel" name="label_2">
         <property name="text">
          <string>Raw DWI:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QLabel" name="m_DiffusionImageLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QLabel" name="label_6">
         <property name="text">
          <string>Seed ROI:</string>
         </property>
        </widget>
       </item>
       <item row="1" column="1">
        <widget class="QLabel" name="m_RoiImageLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
   </layout>
  </widget>
  <layoutdefault spacing="6" margin="11"/>
  <resources/>
  <connections/>
 </ui>
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkStreamlineTrackingViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkStreamlineTrackingViewControls.ui
index 3eddac0906..70c7894995 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkStreamlineTrackingViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkStreamlineTrackingViewControls.ui
@@ -1,361 +1,370 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkStreamlineTrackingViewControls</class>
  <widget class="QWidget" name="QmitkStreamlineTrackingViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>368</width>
     <height>449</height>
    </rect>
   </property>
   <property name="minimumSize">
    <size>
     <width>0</width>
     <height>0</height>
    </size>
   </property>
   <property name="windowTitle">
    <string>QmitkTemplate</string>
   </property>
   <layout class="QGridLayout" name="gridLayout_3">
    <property name="topMargin">
     <number>3</number>
    </property>
    <property name="bottomMargin">
     <number>3</number>
    </property>
    <property name="spacing">
     <number>0</number>
    </property>
    <item row="8" column="0">
     <spacer name="spacer1">
      <property name="orientation">
       <enum>Qt::Vertical</enum>
      </property>
      <property name="sizeType">
       <enum>QSizePolicy::Expanding</enum>
      </property>
      <property name="sizeHint" stdset="0">
       <size>
        <width>20</width>
        <height>220</height>
       </size>
      </property>
     </spacer>
    </item>
    <item row="1" column="0">
     <widget class="QCommandLinkButton" name="commandLinkButton">
      <property name="enabled">
       <bool>false</bool>
      </property>
      <property name="text">
       <string>Start Tractography</string>
      </property>
     </widget>
    </item>
    <item row="5" column="0">
     <widget class="QGroupBox" name="groupBox_2">
      <property name="title">
       <string>Parameters</string>
      </property>
      <layout class="QGridLayout" name="gridLayout_2">
       <item row="3" column="0">
        <widget class="QLabel" name="m_fLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>f: 1</string>
         </property>
        </widget>
       </item>
       <item row="4" column="0">
        <widget class="QLabel" name="m_gLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>g: 0</string>
         </property>
        </widget>
       </item>
       <item row="8" column="0">
        <spacer name="horizontalSpacer">
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
         <property name="sizeType">
          <enum>QSizePolicy::Fixed</enum>
         </property>
         <property name="sizeHint" stdset="0">
          <size>
           <width>200</width>
           <height>0</height>
          </size>
         </property>
        </spacer>
       </item>
       <item row="5" column="0">
        <widget class="QLabel" name="m_StepsizeLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>Step Size: auto</string>
         </property>
        </widget>
       </item>
       <item row="3" column="1">
        <widget class="QSlider" name="m_fSlider">
         <property name="toolTip">
          <string>Weighting factor between first eigenvector (f=1 equals FACT tracking) and input vector dependent direction (f=0).</string>
         </property>
         <property name="minimum">
          <number>0</number>
         </property>
         <property name="maximum">
          <number>100</number>
         </property>
         <property name="value">
          <number>100</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="5" column="1">
        <widget class="QSlider" name="m_StepsizeSlider">
         <property name="toolTip">
          <string>Stepsize in mm (auto = 0.1*minimal spacing)</string>
         </property>
         <property name="minimum">
          <number>0</number>
         </property>
         <property name="maximum">
          <number>100</number>
         </property>
         <property name="value">
          <number>0</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QLabel" name="m_FaThresholdLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>FA Threshold: 0.2</string>
         </property>
        </widget>
       </item>
       <item row="4" column="1">
        <widget class="QSlider" name="m_gSlider">
         <property name="toolTip">
          <string>Weighting factor between input vector (g=0) and tensor deflection (g=1 equals TEND tracking)</string>
         </property>
         <property name="minimum">
          <number>0</number>
         </property>
         <property name="maximum">
          <number>100</number>
         </property>
         <property name="value">
          <number>0</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="7" column="0">
        <widget class="QLabel" name="m_SeedsPerVoxelLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>Seeds per Voxel: 1</string>
         </property>
        </widget>
       </item>
       <item row="7" column="1">
        <widget class="QSlider" name="m_SeedsPerVoxelSlider">
         <property name="toolTip">
          <string>Number of tracts started in each voxel of the seed ROI.</string>
         </property>
         <property name="minimum">
          <number>1</number>
         </property>
         <property name="maximum">
          <number>100</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="9" column="0">
        <widget class="QCheckBox" name="m_InterpolationBox">
         <property name="toolTip">
          <string>Default is nearest neighbor interpolation.</string>
         </property>
         <property name="text">
          <string>Enable trilinear interpolation</string>
         </property>
         <property name="checked">
          <bool>false</bool>
         </property>
        </widget>
       </item>
       <item row="2" column="1">
        <widget class="QSlider" name="m_AngularThresholdSlider">
         <property name="toolTip">
          <string>Minimally allowed curcature radius (in mm, interpolated auto = 0.5 minimal spacing, noninterpolated auto = 0.1 minimal spacing)</string>
         </property>
         <property name="minimum">
          <number>-1</number>
         </property>
         <property name="maximum">
          <number>50</number>
         </property>
         <property name="value">
          <number>-1</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="6" column="0">
        <widget class="QLabel" name="m_MinTractLengthLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>Min. Tract Length: 40mm</string>
         </property>
        </widget>
       </item>
       <item row="1" column="1">
        <widget class="QSlider" name="m_FaThresholdSlider">
         <property name="toolTip">
          <string>Fractional Anisotropy Threshold</string>
         </property>
         <property name="minimum">
          <number>0</number>
         </property>
         <property name="maximum">
          <number>100</number>
         </property>
         <property name="value">
          <number>20</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="6" column="1">
        <widget class="QSlider" name="m_MinTractLengthSlider">
         <property name="toolTip">
          <string>Minimum tract length in mm.</string>
         </property>
         <property name="minimum">
          <number>0</number>
         </property>
         <property name="maximum">
          <number>500</number>
         </property>
         <property name="value">
          <number>40</number>
         </property>
         <property name="orientation">
          <enum>Qt::Horizontal</enum>
         </property>
        </widget>
       </item>
       <item row="2" column="0">
        <widget class="QLabel" name="m_AngularThresholdLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>Min. Curvature Radius: auto</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item row="0" column="0">
     <widget class="QGroupBox" name="m_InputData">
      <property name="title">
       <string>Please Select Input Data</string>
      </property>
      <layout class="QGridLayout" name="gridLayout">
       <item row="1" column="1">
        <widget class="QLabel" name="m_RoiImageLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#969696;&quot;&gt;optional&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QLabel" name="label_6">
         <property name="toolTip">
          <string>Binary seed ROI. If not specified, the whole image area is seeded.</string>
         </property>
         <property name="text">
          <string>Seed ROI:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="0">
        <widget class="QLabel" name="label_2">
         <property name="toolTip">
          <string>Input DTI</string>
         </property>
         <property name="text">
          <string>Tensor Image:</string>
         </property>
        </widget>
       </item>
       <item row="2" column="1">
        <widget class="QLabel" name="m_MaskImageLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#969696;&quot;&gt;optional&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
       <item row="2" column="0">
        <widget class="QLabel" name="label_7">
         <property name="toolTip">
          <string>Only track insida mask area.</string>
         </property>
         <property name="text">
          <string>Mask Image:</string>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QLabel" name="m_TensorImageLabel">
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
   </layout>
  </widget>
  <layoutdefault spacing="6" margin="11"/>
  <resources/>
  <connections/>
 </ui>
diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkTensorReconstructionViewControls.ui b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkTensorReconstructionViewControls.ui
index 692fa967fa..9a3caa0579 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkTensorReconstructionViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkTensorReconstructionViewControls.ui
@@ -1,514 +1,517 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkTensorReconstructionViewControls</class>
  <widget class="QWidget" name="QmitkTensorReconstructionViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>380</width>
     <height>1002</height>
    </rect>
   </property>
   <property name="minimumSize">
    <size>
     <width>0</width>
     <height>0</height>
    </size>
   </property>
   <property name="acceptDrops">
    <bool>true</bool>
   </property>
   <property name="windowTitle">
    <string>QmitkTensorReconstructionViewControls</string>
   </property>
   <layout class="QVBoxLayout" name="verticalLayout_11">
    <item>
     <widget class="QGroupBox" name="m_InputData">
      <property name="title">
       <string>Please Select Input Data:</string>
      </property>
      <layout class="QGridLayout" name="gridLayout">
       <item row="0" column="1">
        <widget class="QLabel" name="m_DiffusionImageLabel">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; color:#ff0000;&quot;&gt;mandatory&lt;/span&gt;&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
         </property>
+        <property name="wordWrap">
+         <bool>true</bool>
+        </property>
        </widget>
       </item>
       <item row="0" column="0">
        <widget class="QLabel" name="label_3">
         <property name="toolTip">
          <string/>
         </property>
         <property name="text">
          <string>Raw DWI/DTI:</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_2">
      <property name="title">
       <string>Tensor Reconstruction</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout">
       <item>
        <widget class="QCheckBox" name="m_Advanced1">
         <property name="text">
          <string>Advanced Settings</string>
         </property>
         <property name="checked">
          <bool>false</bool>
         </property>
        </widget>
       </item>
       <item>
        <widget class="QFrame" name="frame">
         <property name="frameShape">
          <enum>QFrame::StyledPanel</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Raised</enum>
         </property>
         <layout class="QGridLayout" name="gridLayout_4">
          <property name="margin">
           <number>9</number>
          </property>
          <item row="1" column="0">
           <widget class="QFrame" name="frame_3">
            <property name="frameShape">
             <enum>QFrame::NoFrame</enum>
            </property>
            <property name="frameShadow">
             <enum>QFrame::Raised</enum>
            </property>
            <layout class="QGridLayout" name="gridLayout_3">
             <property name="margin">
              <number>0</number>
             </property>
             <item row="1" column="0">
              <widget class="QLabel" name="m_TensorReconstructionThresholdLabel_2">
               <property name="text">
                <string>B0 Threshold</string>
               </property>
               <property name="wordWrap">
                <bool>false</bool>
               </property>
              </widget>
             </item>
             <item row="1" column="1">
              <widget class="QSpinBox" name="m_TensorReconstructionThreshold">
               <property name="maximum">
                <number>10000</number>
               </property>
              </widget>
             </item>
            </layout>
           </widget>
          </item>
          <item row="2" column="0">
           <widget class="QCheckBox" name="m_CheckNegativeEigenvalues">
            <property name="toolTip">
             <string>Only influences WLS reconstruction</string>
            </property>
            <property name="text">
             <string>Ignore voxels with negative eigenvalues</string>
            </property>
           </widget>
          </item>
          <item row="0" column="0">
           <widget class="QComboBox" name="m_ReconctructionMethodBox">
            <property name="currentIndex">
             <number>0</number>
            </property>
            <item>
             <property name="text">
              <string>Weighted Linear Least Squares</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>With correction for negative eigenvalues</string>
             </property>
            </item>
           </widget>
          </item>
         </layout>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_StartReconstruction">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Select raw DWI!</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Start Reconstruction</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox">
      <property name="title">
       <string>Estimate Diffusion Image from Tensors</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout_4">
       <item>
        <widget class="QFrame" name="m_TensorsToDWIFrame">
         <property name="frameShape">
          <enum>QFrame::NoFrame</enum>
         </property>
         <property name="frameShadow">
          <enum>QFrame::Raised</enum>
         </property>
         <layout class="QFormLayout" name="formLayout_3">
          <property name="fieldGrowthPolicy">
           <enum>QFormLayout::AllNonFixedFieldsGrow</enum>
          </property>
          <property name="horizontalSpacing">
           <number>6</number>
          </property>
          <property name="verticalSpacing">
           <number>6</number>
          </property>
          <property name="margin">
           <number>0</number>
          </property>
          <item row="0" column="0">
           <widget class="QLabel" name="m_TensorsToDWIBValueLabel">
            <property name="toolTip">
             <string comment="how fuzzy the confidence boundary should be. By default, confidence boundary is perfectly sharp (float); default: &quot;0&quot;" extracomment="how fuzzy the confidence boundary should be. By default, confidence boundary is perfectly sharp (float); default: &quot;0&quot;">how fuzzy the confidence boundary should be. By default, confidence boundary is perfectly sharp (float); default: &quot;0&quot;</string>
            </property>
            <property name="statusTip">
             <string comment="how fuzzy the confidence boundary should be. By default, confidence boundary is perfectly sharp (float); default: &quot;0&quot;" extracomment="how fuzzy the confidence boundary should be. By default, confidence boundary is perfectly sharp (float); default: &quot;0&quot;">how fuzzy the confidence boundary should be. By default, confidence boundary is perfectly sharp (float); default: &quot;0&quot;</string>
            </property>
            <property name="whatsThis">
             <string comment="how fuzzy the confidence boundary should be. By default, confidence boundary is perfectly sharp (float); default: &quot;0&quot;" extracomment="how fuzzy the confidence boundary should be. By default, confidence boundary is perfectly sharp (float); default: &quot;0&quot;">how fuzzy the confidence boundary should be. By default, confidence boundary is perfectly sharp (float); default: &quot;0&quot;</string>
            </property>
            <property name="text">
             <string>B-Value</string>
            </property>
            <property name="wordWrap">
             <bool>false</bool>
            </property>
           </widget>
          </item>
          <item row="2" column="0">
           <widget class="QLabel" name="m_TensorsToDWINumDirsLabel">
            <property name="text">
             <string>#Gradient Directions</string>
            </property>
           </widget>
          </item>
          <item row="2" column="1">
           <widget class="QComboBox" name="m_TensorsToDWINumDirsSelect">
            <property name="currentIndex">
             <number>3</number>
            </property>
            <item>
             <property name="text">
              <string>12</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>42</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>92</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>162</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>252</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>362</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>492</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>642</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>812</string>
             </property>
            </item>
            <item>
             <property name="text">
              <string>1002</string>
             </property>
            </item>
           </widget>
          </item>
          <item row="0" column="1">
           <widget class="QSpinBox" name="m_TensorsToDWIBValueEdit">
            <property name="maximum">
             <number>10000</number>
            </property>
            <property name="singleStep">
             <number>100</number>
            </property>
            <property name="value">
             <number>1000</number>
            </property>
           </widget>
          </item>
         </layout>
        </widget>
       </item>
       <item>
        <widget class="QCommandLinkButton" name="m_TensorsToDWIButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string/>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Start DWI Estimation</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_4">
      <property name="title">
       <string>Estimate Q-Ball Image from Tensors</string>
      </property>
      <layout class="QVBoxLayout" name="verticalLayout_5">
       <item>
        <widget class="QCommandLinkButton" name="m_TensorsToQbiButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string comment="Calculate ODF value as tensor value in the according direction" extracomment="Calculate ODF value as tensor value in the according direction">Calculate ODF value as tensor value in the according direction</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Start QBI Estimation</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
    <item>
     <widget class="QGroupBox" name="groupBox_5">
      <property name="title">
       <string>Estimate Residuals</string>
      </property>
      <property name="checkable">
       <bool>false</bool>
      </property>
      <property name="checked">
       <bool>false</bool>
      </property>
      <layout class="QGridLayout" name="gridLayout_2">
       <item row="2" column="0">
        <widget class="QCheckBox" name="m_PercentagesOfOutliers">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>percentages of error</string>
         </property>
        </widget>
       </item>
       <item row="1" column="0">
        <widget class="QTabWidget" name="m_ResidualTab">
         <property name="currentIndex">
          <number>1</number>
         </property>
         <widget class="QWidget" name="tab">
          <attribute name="title">
           <string>Per volume</string>
          </attribute>
          <layout class="QVBoxLayout" name="verticalLayout_8">
           <item>
            <widget class="QmitkResidualAnalysisWidget" name="m_ResidualAnalysis" native="true">
             <property name="minimumSize">
              <size>
               <width>200</width>
               <height>300</height>
              </size>
             </property>
            </widget>
           </item>
          </layout>
         </widget>
         <widget class="QWidget" name="tab_2">
          <attribute name="title">
           <string>Per slice</string>
          </attribute>
          <layout class="QVBoxLayout" name="verticalLayout_10">
           <item>
            <widget class="QLabel" name="label_2">
             <property name="text">
              <string>outliers per slice</string>
             </property>
            </widget>
           </item>
           <item>
            <widget class="QFrame" name="frame_5">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QHBoxLayout" name="horizontalLayout_2">
              <property name="margin">
               <number>0</number>
              </property>
              <item>
               <widget class="QmitkResidualViewWidget" name="m_PerSliceView">
                <property name="maximumSize">
                 <size>
                  <width>300</width>
                  <height>400</height>
                 </size>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QFrame" name="frame_4">
                <property name="frameShape">
                 <enum>QFrame::NoFrame</enum>
                </property>
                <property name="frameShadow">
                 <enum>QFrame::Raised</enum>
                </property>
                <layout class="QVBoxLayout" name="verticalLayout_9">
                 <property name="margin">
                  <number>0</number>
                 </property>
                 <item>
                  <widget class="QLabel" name="m_UpperLabel">
                   <property name="text">
                    <string/>
                   </property>
                  </widget>
                 </item>
                 <item>
                  <widget class="QGraphicsView" name="m_LegendView">
                   <property name="maximumSize">
                    <size>
                     <width>20</width>
                     <height>255</height>
                    </size>
                   </property>
                  </widget>
                 </item>
                 <item>
                  <widget class="QLabel" name="m_LowerLabel">
                   <property name="text">
                    <string/>
                   </property>
                  </widget>
                 </item>
                </layout>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item>
            <widget class="QLabel" name="m_PositionLabel">
             <property name="text">
              <string>Volume: .., Slice:..</string>
             </property>
            </widget>
           </item>
          </layout>
         </widget>
        </widget>
       </item>
       <item row="3" column="0">
        <widget class="QCommandLinkButton" name="m_ResidualButton">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Calculate the residual from a dti and a dwi image</string>
         </property>
         <property name="statusTip">
          <string/>
         </property>
         <property name="whatsThis">
          <string notr="true"/>
         </property>
         <property name="text">
          <string>Residual Image Calculation</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
   </layout>
  </widget>
  <layoutdefault spacing="6" margin="11"/>
  <customwidgets>
   <customwidget>
    <class>QmitkResidualAnalysisWidget</class>
    <extends>QWidget</extends>
    <header>QmitkResidualAnalysisWidget.h</header>
    <container>1</container>
   </customwidget>
   <customwidget>
    <class>QmitkResidualViewWidget</class>
    <extends>QGraphicsView</extends>
    <header>QmitkResidualViewWidget.h</header>
   </customwidget>
  </customwidgets>
  <resources/>
  <connections/>
 </ui>