diff --git a/Modules/DiffusionImaging/FiberTracking/Algorithms/itkKspaceImageFilter.cpp b/Modules/DiffusionImaging/FiberTracking/Algorithms/itkKspaceImageFilter.cpp
index 69f22708fb..cfcbf0e488 100644
--- a/Modules/DiffusionImaging/FiberTracking/Algorithms/itkKspaceImageFilter.cpp
+++ b/Modules/DiffusionImaging/FiberTracking/Algorithms/itkKspaceImageFilter.cpp
@@ -1,225 +1,225 @@
 /*===================================================================
 
 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 __itkKspaceImageFilter_txx
 #define __itkKspaceImageFilter_txx
 
 #include <time.h>
 #include <stdio.h>
 #include <stdlib.h>
 
 #include "itkKspaceImageFilter.h"
 #include <itkImageRegionConstIterator.h>
 #include <itkImageRegionConstIteratorWithIndex.h>
 #include <itkImageRegionIterator.h>
 #include <itkImageFileWriter.h>
 
 #define _USE_MATH_DEFINES
 #include <math.h>
 
 namespace itk {
 
 template< class TPixelType >
 KspaceImageFilter< TPixelType >
 ::KspaceImageFilter()
     : m_FrequencyMapSlice(NULL)
     , m_Z(0)
     , m_UseConstantRandSeed(false)
     , m_SpikesPerSlice(0)
     , m_IsBaseline(true)
 {
     m_DiffusionGradientDirection.Fill(0.0);
 
     m_RandGen = itk::Statistics::MersenneTwisterRandomVariateGenerator::New();
     m_RandGen->SetSeed();
 }
 
 template< class TPixelType >
 void KspaceImageFilter< TPixelType >
 ::BeforeThreadedGenerateData()
 {
     if (m_UseConstantRandSeed)  // always generate the same random numbers?
         m_RandGen->SetSeed(0);
     else
         m_RandGen->SetSeed();
 
     typename OutputImageType::Pointer outputImage = OutputImageType::New();
     itk::ImageRegion<2> region; region.SetSize(0, m_OutSize[0]);  region.SetSize(1, m_OutSize[1]);
     outputImage->SetLargestPossibleRegion( region );
     outputImage->SetBufferedRegion( region );
     outputImage->SetRequestedRegion( region );
     outputImage->Allocate();
 
     double gamma = 42576000;    // Gyromagnetic ratio in Hz/T
     if ( m_Parameters.m_SignalGen.m_EddyStrength>0 && m_DiffusionGradientDirection.GetNorm()>0.001)
     {
         m_DiffusionGradientDirection.Normalize();
         m_DiffusionGradientDirection = m_DiffusionGradientDirection *  m_Parameters.m_SignalGen.m_EddyStrength/1000 *  gamma;
         m_IsBaseline = false;
     }
 
     this->SetNthOutput(0, outputImage);
     m_Spike = vcl_complex<double>(0,0);
 
     m_Transform =  m_Parameters.m_SignalGen.m_ImageDirection;
     for (int i=0; i<3; i++)
         for (int j=0; j<3; j++)
             m_Transform[i][j] *=  m_Parameters.m_SignalGen.m_ImageSpacing[j];
 }
 
 template< class TPixelType >
 void KspaceImageFilter< TPixelType >
 ::ThreadedGenerateData(const OutputImageRegionType& outputRegionForThread, ThreadIdType)
 {
     typename OutputImageType::Pointer outputImage = static_cast< OutputImageType * >(this->ProcessObject::GetOutput(0));
 
     ImageRegionIterator< OutputImageType > oit(outputImage, outputRegionForThread);
 
     typedef ImageRegionConstIterator< InputImageType > InputIteratorType;
 
     double kxMax = outputImage->GetLargestPossibleRegion().GetSize(0);  // k-space size in x-direction
     double kyMax = outputImage->GetLargestPossibleRegion().GetSize(1);  // k-space size in y-direction
     double xMax = m_CompartmentImages.at(0)->GetLargestPossibleRegion().GetSize(0); // scanner coverage in x-direction
     double yMax = m_CompartmentImages.at(0)->GetLargestPossibleRegion().GetSize(1); // scanner coverage in y-direction
 
     double numPix = kxMax*kyMax;
     double dt =  m_Parameters.m_SignalGen.m_tLine/kxMax;
     double fromMaxEcho = -  m_Parameters.m_SignalGen.m_tLine*kyMax/2;
 
     double upsampling = xMax/kxMax;     //  discrepany between k-space resolution and image resolution
     double yMaxFov = kyMax*upsampling;  //  actual FOV in y-direction (in x-direction xMax==FOV)
 
     int xRingingOffset = xMax-kxMax;
     int yRingingOffset = yMaxFov-kyMax;
 
-
-//    for (unsigned int i=0; i<m_CompartmentImages.size(); i++)
-//        MITK_INFO << (1.0-exp(-m_Parameters.m_SignalGen.m_tRep/m_T1.at(i)));
-
     while( !oit.IsAtEnd() )
     {
         itk::Index< 2 > kIdx;
         kIdx[0] = oit.GetIndex()[0];
         kIdx[1] = oit.GetIndex()[1];
 
-        double t = fromMaxEcho + ((double)kIdx[1]*kxMax+(double)kIdx[0])*dt;    // dephasing time
-//        double t1 = t+m_Parameters.m_SignalGen.m_tEcho;
+        // dephasing time
+        double t = 0;
+        if (!m_Parameters.m_SignalGen.m_ReversePhase)
+            t = fromMaxEcho + ((double)kIdx[1]*kxMax+(double)kIdx[0])*dt;
+        else
+            t = fromMaxEcho + ((double)(kyMax-1-kIdx[1])*kxMax+(double)kIdx[0])*dt;
 
         // rearrange slice
         if( kIdx[0] <  kxMax/2 )
             kIdx[0] = kIdx[0] + kxMax/2;
         else
             kIdx[0] = kIdx[0] - kxMax/2;
 
         if( kIdx[1] <  kyMax/2 )
             kIdx[1] = kIdx[1] + kyMax/2;
         else
             kIdx[1] = kIdx[1] - kyMax/2;
 
         // calculate eddy current decay factors
         double eddyDecay = 0;
         if ( m_Parameters.m_SignalGen.m_EddyStrength>0)
             eddyDecay = exp(-( m_Parameters.m_SignalGen.m_tEcho/2 + t)/ m_Parameters.m_SignalGen.m_Tau) * t/1000;
 
         // calcualte signal relaxation factors
         std::vector< double > relaxFactor;
         if ( m_Parameters.m_SignalGen.m_DoSimulateRelaxation)
             for (unsigned int i=0; i<m_CompartmentImages.size(); i++)
                 relaxFactor.push_back( exp(-( m_Parameters.m_SignalGen.m_tEcho+t)/m_T2.at(i) -fabs(t)/ m_Parameters.m_SignalGen.m_tInhom)*(1.0-exp(-m_Parameters.m_SignalGen.m_tRep/m_T1.at(i))) );
 
         double kx = kIdx[0];
         double ky = kIdx[1];
         if (oit.GetIndex()[1]%2 == 1)               // reverse readout direction and add ghosting
         {
             kIdx[0] = kxMax-kIdx[0]-1;                // reverse readout direction
             kx = (double)kIdx[0]- m_Parameters.m_SignalGen.m_KspaceLineOffset;    // add gradient delay induced offset
         }
         else
             kx +=  m_Parameters.m_SignalGen.m_KspaceLineOffset;    // add gradient delay induced offset
 
         // add gibbs ringing offset (cropps k-space)
         if (kx>=kxMax/2)
             kx += xRingingOffset;
         if (ky>=kyMax/2)
             ky += yRingingOffset;
 
         vcl_complex<double> s(0,0);
         InputIteratorType it(m_CompartmentImages.at(0), m_CompartmentImages.at(0)->GetLargestPossibleRegion() );
         while( !it.IsAtEnd() )
         {
             double x = it.GetIndex()[0]-xMax/2;
             double y = it.GetIndex()[1]-yMax/2;
 
             vcl_complex<double> f(0, 0);
 
             // sum compartment signals and simulate relaxation
             for (unsigned int i=0; i<m_CompartmentImages.size(); i++)
                 if ( m_Parameters.m_SignalGen.m_DoSimulateRelaxation)
                     f += std::complex<double>( m_CompartmentImages.at(i)->GetPixel(it.GetIndex()) * relaxFactor.at(i) *  m_Parameters.m_SignalGen.m_SignalScale, 0);
                 else
                     f += std::complex<double>( m_CompartmentImages.at(i)->GetPixel(it.GetIndex()) *  m_Parameters.m_SignalGen.m_SignalScale );
 
             // simulate eddy currents and other distortions
             double omega_t = 0;
             if (  m_Parameters.m_SignalGen.m_EddyStrength>0 && !m_IsBaseline)
             {
                 itk::Vector< double, 3 > pos; pos[0] = x; pos[1] = y; pos[2] = m_Z;
                 pos = m_Transform*pos/1000;   // vector from image center to current position (in meter)
                 omega_t += (m_DiffusionGradientDirection[0]*pos[0]+m_DiffusionGradientDirection[1]*pos[1]+m_DiffusionGradientDirection[2]*pos[2])*eddyDecay;
             }
             if (m_FrequencyMapSlice.IsNotNull()) // simulate distortions
                 omega_t += m_FrequencyMapSlice->GetPixel(it.GetIndex())*t/1000;
 
             if (y<-yMaxFov/2)
                 y += yMaxFov;
             else if (y>=yMaxFov/2)
                 y -= yMaxFov;
 
             // actual DFT term
             s += f * exp( std::complex<double>(0, 2 * M_PI * (kx*x/xMax + ky*y/yMaxFov + omega_t )) );
 
             ++it;
         }
         s /= numPix;
 
         if (m_SpikesPerSlice>0 && sqrt(s.imag()*s.imag()+s.real()*s.real()) > sqrt(m_Spike.imag()*m_Spike.imag()+m_Spike.real()*m_Spike.real()) )
             m_Spike = s;
 
         outputImage->SetPixel(kIdx, s);
         ++oit;
     }
 }
 
 template< class TPixelType >
 void KspaceImageFilter< TPixelType >
 ::AfterThreadedGenerateData()
 {
     typename OutputImageType::Pointer outputImage = static_cast< OutputImageType * >(this->ProcessObject::GetOutput(0));
     double kxMax = outputImage->GetLargestPossibleRegion().GetSize(0);  // k-space size in x-direction
     double kyMax = outputImage->GetLargestPossibleRegion().GetSize(1);  // k-space size in y-direction
 
     m_Spike *=  m_Parameters.m_SignalGen.m_SpikeAmplitude;
     itk::Index< 2 > spikeIdx;
     for (unsigned int i=0; i<m_SpikesPerSlice; i++)
     {
         spikeIdx[0] = m_RandGen->GetIntegerVariate()%(int)kxMax;
         spikeIdx[1] = m_RandGen->GetIntegerVariate()%(int)kyMax;
         outputImage->SetPixel(spikeIdx, m_Spike);
     }
 }
 
 }
 #endif
diff --git a/Modules/DiffusionImaging/FiberTracking/IODataStructures/mitkFiberfoxParameters.h b/Modules/DiffusionImaging/FiberTracking/IODataStructures/mitkFiberfoxParameters.h
index 25613b3505..4f43a70a78 100644
--- a/Modules/DiffusionImaging/FiberTracking/IODataStructures/mitkFiberfoxParameters.h
+++ b/Modules/DiffusionImaging/FiberTracking/IODataStructures/mitkFiberfoxParameters.h
@@ -1,323 +1,325 @@
 /*===================================================================
 
 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 _MITK_FiberfoxParameters_H
 #define _MITK_FiberfoxParameters_H
 
 #include <itkImageRegion.h>
 #include <itkMatrix.h>
 #include <mitkDiffusionNoiseModel.h>
 #include <mitkDiffusionSignalModel.h>
 #include <mitkDataNode.h>
 #include <mitkRicianNoiseModel.h>
 #include <mitkChiSquareNoiseModel.h>
 #include <mitkImage.h>
 #include <mitkDiffusionPropertyHelper.h>
 #include <mitkPlanarEllipse.h>
 #include <mitkStickModel.h>
 #include <mitkTensorModel.h>
 #include <mitkAstroStickModel.h>
 #include <mitkBallModel.h>
 #include <mitkDotModel.h>
 #include <mitkRawShModel.h>
 
 using namespace std;
 
 namespace mitk {
 
 /** Signal generation */
 class SignalGenerationParameters
 {
 public:
     typedef itk::Image<double, 3>                   ItkDoubleImgType;
     typedef itk::Image<unsigned char, 3>            ItkUcharImgType;
     typedef itk::Vector<double,3>                   GradientType;
     typedef std::vector<GradientType>               GradientListType;
 
     enum DiffusionDirectionMode {
         FIBER_TANGENT_DIRECTIONS,
         MAIN_FIBER_DIRECTIONS,
         RANDOM_DIRECTIONS
     };
 
     SignalGenerationParameters()
         : m_SignalScale(100)
         , m_tEcho(100)
         , m_tRep(500)
         , m_tLine(1)
         , m_tInhom(50)
+        , m_ReversePhase(false)
         , m_Bvalue(1000)
         , m_SimulateKspaceAcquisition(false)
         , m_AxonRadius(0)
         , m_DoDisablePartialVolume(false)
         , m_DiffusionDirectionMode(SignalGenerationParameters::FIBER_TANGENT_DIRECTIONS)
         , m_FiberSeparationThreshold(30)
         , m_Spikes(0)
         , m_SpikeAmplitude(1)
         , m_KspaceLineOffset(0)
         , m_EddyStrength(0)
         , m_Tau(70)
         , m_CroppingFactor(1)
         , m_DoAddGibbsRinging(false)
         , m_DoSimulateRelaxation(true)
         , m_DoAddMotion(false)
         , m_DoRandomizeMotion(true)
         , m_FrequencyMap(NULL)
         , m_MaskImage(NULL)
     {
         m_ImageRegion.SetSize(0, 12);
         m_ImageRegion.SetSize(1, 12);
         m_ImageRegion.SetSize(2, 3);
         m_ImageSpacing.Fill(2.0);
         m_ImageOrigin.Fill(0.0);
         m_ImageDirection.SetIdentity();
         m_Translation.Fill(0.0);
         m_Rotation.Fill(0.0);
         SetNumWeightedVolumes(6);
     }
 
     /** input/output image specifications */
     itk::ImageRegion<3>                 m_ImageRegion;              ///< Image size.
     itk::Vector<double,3>               m_ImageSpacing;             ///< Image voxel size.
     itk::Point<double,3>                m_ImageOrigin;              ///< Image origin.
     itk::Matrix<double, 3, 3>           m_ImageDirection;           ///< Image rotation matrix.
 
     /** Other acquisitions parameters */
     double                              m_SignalScale;              ///< Scaling factor for output signal (before noise is added).
     double                              m_tEcho;                    ///< Echo time TE.
     double                              m_tRep;                     ///< Echo time TR.
-    double                              m_tLine;                    ///< k-space line readout time.
+    double                              m_tLine;                    ///< k-space line readout time (dwell time).
     double                              m_tInhom;                   ///< T2'
+    bool                                m_ReversePhase;             ///< If true, the phase readout direction will be inverted (-y instead of y)
     double                              m_Bvalue;                   ///< Acquisition b-value
     bool                                m_SimulateKspaceAcquisition;///< Flag to enable/disable k-space acquisition simulation
     double                              m_AxonRadius;               ///< Determines compartment volume fractions (0 == automatic axon radius estimation)
     bool                                m_DoDisablePartialVolume;   ///< Disable partial volume effects. Each voxel is either all fiber or all non-fiber.
     DiffusionDirectionMode              m_DiffusionDirectionMode;   ///< Determines how the main diffusion direction of the signal models is selected
     double                              m_FiberSeparationThreshold; ///< Used for random and and mein fiber deriction DiffusionDirectionMode
 
     /** Artifacts and other effects */
     unsigned int                        m_Spikes;                   ///< Number of spikes randomly appearing in the image
     double                              m_SpikeAmplitude;           ///< amplitude of spikes relative to the largest signal intensity (magnitude of complex)
     double                              m_KspaceLineOffset;         ///< Causes N/2 ghosts. Larger offset means stronger ghost.
     double                              m_EddyStrength;             ///< Strength of eddy current induced gradients in mT/m.
     double                              m_Tau;                      ///< Eddy current decay constant (in ms)
     double                              m_CroppingFactor;           ///< FOV size in y-direction is multiplied by this factor. Causes aliasing artifacts.
     bool                                m_DoAddGibbsRinging;        ///< Add Gibbs ringing artifact
     bool                                m_DoSimulateRelaxation;     ///< Add T2 relaxation effects
     bool                                m_DoAddMotion;              ///< Enable motion artifacts.
     bool                                m_DoRandomizeMotion;        ///< Toggles between random and linear motion.
     itk::Vector<double,3>               m_Translation;              ///< Maximum translational motion.
     itk::Vector<double,3>               m_Rotation;                 ///< Maximum rotational motion.
     ItkDoubleImgType::Pointer           m_FrequencyMap;             ///< If != NULL, distortions are added to the image using this frequency map.
     ItkUcharImgType::Pointer            m_MaskImage;                ///< Signal is only genrated inside of the mask image.
 
     inline void GenerateGradientHalfShell();                        ///< Generates half shell of gradient directions (with m_NumGradients non-zero directions)
     inline std::vector< int > GetBaselineIndices();                 ///< Returns list of nun-diffusion-weighted image volume indices
     inline unsigned int GetFirstBaselineIndex();                    ///< Returns index of first non-diffusion-weighted image volume
     inline bool IsBaselineIndex(unsigned int idx);                  ///< Checks if image volume with given index is non-diffusion-weighted volume or not.
     inline unsigned int GetNumWeightedVolumes();                    ///< Get number of diffusion-weighted image volumes
     inline unsigned int GetNumBaselineVolumes();                    ///< Get number of non-diffusion-weighted image volumes
     inline unsigned int GetNumVolumes();                            ///< Get number of baseline and diffusion-weighted image volumes
     inline GradientListType GetGradientDirections();                ///< Return gradient direction container
     inline GradientType GetGradientDirection(unsigned int i);
 
     inline void SetNumWeightedVolumes(int numGradients);            ///< Automaticall calls GenerateGradientHalfShell() afterwards.
     inline void SetGradienDirections(GradientListType gradientList);
     inline void SetGradienDirections(mitk::DiffusionPropertyHelper::GradientDirectionsContainerType::Pointer gradientList);
 
 protected:
 
     unsigned int                        m_NumGradients;             ///< Number of diffusion-weighted image volumes.
     unsigned int                        m_NumBaseline;              ///< Number of non-diffusion-weighted image volumes.
     GradientListType                    m_GradientDirections;       ///< Total number of image volumes.
 };
 
 /** Fiber generation */
 class FiberGenerationParameters
 {
 public:
 
     enum FiberDistribution{
         DISTRIBUTE_UNIFORM, // distribute fibers uniformly in the ROIs
         DISTRIBUTE_GAUSSIAN // distribute fibers using a 2D gaussian
     };
 
     typedef vector< vector< mitk::PlanarEllipse::Pointer > >    FiducialListType;
     typedef vector< vector< unsigned int > >                    FlipListType;
 
     FiberGenerationParameters()
         : m_Distribution(DISTRIBUTE_UNIFORM)
         , m_Density(100)
         , m_Variance(100)
         , m_Sampling(1)
         , m_Tension(0)
         , m_Continuity(0)
         , m_Bias(0)
     {
         m_Rotation.Fill(0.0);
         m_Translation.Fill(0.0);
         m_Scale.Fill(1.0);
     }
 
     FiberDistribution   m_Distribution;
     unsigned int        m_Density;
     double              m_Variance;
     double              m_Sampling;
     double              m_Tension;
     double              m_Continuity;
     double              m_Bias;
     mitk::Vector3D      m_Rotation;
     mitk::Vector3D      m_Translation;
     mitk::Vector3D      m_Scale;
     FlipListType        m_FlipList;        ///< contains flags indicating a flip of the 2D fiber x-coordinates (needed to resolve some unwanted fiber twisting)
     FiducialListType    m_Fiducials;       ///< container of the planar ellipses used as fiducials for the fiber generation process
 };
 
 /** GUI persistence, input, output, ... */
 class MiscFiberfoxParameters
 {
 public:
     MiscFiberfoxParameters()
         : m_ResultNode(DataNode::New())
         , m_ParentNode(NULL)
         , m_SignalModelString("")
         , m_ArtifactModelString("")
         , m_OutputPath("")
         , m_CheckOutputVolumeFractionsBox(false)
         , m_CheckAdvancedSignalOptionsBox(false)
         , m_CheckAddNoiseBox(false)
         , m_CheckAddGhostsBox(false)
         , m_CheckAddAliasingBox(false)
         , m_CheckAddSpikesBox(false)
         , m_CheckAddEddyCurrentsBox(false)
         , m_CheckAddDistortionsBox(false)
         , m_CheckRealTimeFibersBox(true)
         , m_CheckAdvancedFiberOptionsBox(false)
         , m_CheckConstantRadiusBox(false)
         , m_CheckIncludeFiducialsBox(true)
     {}
 
     DataNode::Pointer   m_ResultNode;                       ///< Stores resulting image.
     DataNode::Pointer   m_ParentNode;                       ///< Parent node of result node.
     string              m_SignalModelString;                ///< Appendet to the name of the result node
     string              m_ArtifactModelString;              ///< Appendet to the name of the result node
     string              m_OutputPath;                       ///< Image is automatically saved to the specified folder after simulation is finished.
 
     /** member variables that store the check-state of GUI checkboxes */
     // image generation
     bool                m_CheckOutputVolumeFractionsBox;
     bool                m_CheckAdvancedSignalOptionsBox;
     bool                m_CheckAddNoiseBox;
     bool                m_CheckAddGhostsBox;
     bool                m_CheckAddAliasingBox;
     bool                m_CheckAddSpikesBox;
     bool                m_CheckAddEddyCurrentsBox;
     bool                m_CheckAddDistortionsBox;
     // fiber generation
     bool                m_CheckRealTimeFibersBox;
     bool                m_CheckAdvancedFiberOptionsBox;
     bool                m_CheckConstantRadiusBox;
     bool                m_CheckIncludeFiducialsBox;
 };
 
 /**
   * \brief Datastructure to manage the Fiberfox signal generation parameters.
   *
   */
 template< class ScalarType = double >
 class FiberfoxParameters
 {
 public:
 
     typedef itk::Image<double, 3>                           ItkDoubleImgType;
     typedef itk::Image<unsigned char, 3>                    ItkUcharImgType;
     typedef DiffusionSignalModel<ScalarType>                DiffusionModelType;
     typedef std::vector< DiffusionModelType* >              DiffusionModelListType;
     typedef DiffusionNoiseModel<ScalarType>                 NoiseModelType;
 
     FiberfoxParameters();
     ~FiberfoxParameters();
 
     /** Get same parameter object with different template parameter */
     template< class OutType >
     FiberfoxParameters< OutType > CopyParameters()
     {
         FiberfoxParameters< OutType > out;
 
         out.m_FiberGen = m_FiberGen;
         out.m_SignalGen = m_SignalGen;
         out.m_Misc = m_Misc;
 
         if (m_NoiseModel!=NULL)
         {
             if (dynamic_cast<mitk::RicianNoiseModel<ScalarType>*>(m_NoiseModel))
                 out.m_NoiseModel = new mitk::RicianNoiseModel<OutType>();
             else if (dynamic_cast<mitk::ChiSquareNoiseModel<ScalarType>*>(m_NoiseModel))
                 out.m_NoiseModel = new mitk::ChiSquareNoiseModel<OutType>();
             out.m_NoiseModel->SetNoiseVariance(m_NoiseModel->GetNoiseVariance());
         }
 
         for (unsigned int i=0; i<m_FiberModelList.size()+m_NonFiberModelList.size(); i++)
         {
             mitk::DiffusionSignalModel<OutType>* outModel = NULL;
             mitk::DiffusionSignalModel<ScalarType>* signalModel = NULL;
             if (i<m_FiberModelList.size())
                 signalModel = m_FiberModelList.at(i);
             else
                 signalModel = m_NonFiberModelList.at(i-m_FiberModelList.size());
 
             if (dynamic_cast<mitk::StickModel<ScalarType>*>(signalModel))
                 outModel = new mitk::StickModel<OutType>(dynamic_cast<mitk::StickModel<ScalarType>*>(signalModel));
             else  if (dynamic_cast<mitk::TensorModel<ScalarType>*>(signalModel))
                 outModel = new mitk::TensorModel<OutType>(dynamic_cast<mitk::TensorModel<ScalarType>*>(signalModel));
             else  if (dynamic_cast<mitk::RawShModel<ScalarType>*>(signalModel))
                 outModel = new mitk::RawShModel<OutType>(dynamic_cast<mitk::RawShModel<ScalarType>*>(signalModel));
             else  if (dynamic_cast<mitk::BallModel<ScalarType>*>(signalModel))
                 outModel = new mitk::BallModel<OutType>(dynamic_cast<mitk::BallModel<ScalarType>*>(signalModel));
             else if (dynamic_cast<mitk::AstroStickModel<ScalarType>*>(signalModel))
                 outModel = new mitk::AstroStickModel<OutType>(dynamic_cast<mitk::AstroStickModel<ScalarType>*>(signalModel));
             else  if (dynamic_cast<mitk::DotModel<ScalarType>*>(signalModel))
                 outModel = new mitk::DotModel<OutType>(dynamic_cast<mitk::DotModel<ScalarType>*>(signalModel));
 
             if (i<m_FiberModelList.size())
                 out.m_FiberModelList.push_back(outModel);
             else
                 out.m_NonFiberModelList.push_back(outModel);
         }
 
         return out;
     }
 
     /** Not templated parameters */
     FiberGenerationParameters           m_FiberGen;             ///< Fiber generation parameters
     SignalGenerationParameters          m_SignalGen;            ///< Signal generation parameters
     MiscFiberfoxParameters              m_Misc;                 ///< GUI realted and I/O parameters
 
     /** Templated parameters */
     DiffusionModelListType              m_FiberModelList;       ///< Intra- and inter-axonal compartments.
     DiffusionModelListType              m_NonFiberModelList;    ///< Extra-axonal compartments.
     NoiseModelType*                     m_NoiseModel;           ///< If != NULL, noise is added to the image.
 
     void PrintSelf();                           ///< Print parameters to stdout.
     void SaveParameters(string filename);       ///< Save image generation parameters to .ffp file.
     void LoadParameters(string filename);       ///< Load image generation parameters from .ffp file.
 };
 }
 
 #include "mitkFiberfoxParameters.cpp"
 
 #endif
 
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 509fb0a0fd..aab7594158 100644
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp
@@ -1,2696 +1,2698 @@
 /*===================================================================
 
 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 <mitkImageToItk.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 <itkScalableAffineTransform.h>
 #include <mitkLevelWindowProperty.h>
 #include <mitkNodePredicateOr.h>
 #include <mitkNodePredicateAnd.h>
 #include <mitkNodePredicateNot.h>
 #include <mitkNodePredicateProperty.h>
 #include <mitkNodePredicateIsDWI.h>
 #include <boost/property_tree/ptree.hpp>
 #include <boost/property_tree/xml_parser.hpp>
 #include <boost/foreach.hpp>
 #include <QFileDialog>
 #include <QMessageBox>
 #include "usModuleRegistry.h"
 #include <mitkChiSquareNoiseModel.h>
 #include <itksys/SystemTools.hxx>
 #include <mitkIOUtil.h>
 #include <QScrollBar>
 #include <itkInvertIntensityImageFilter.h>
 #include <QDialogButtonBox>
 #include <itkAdcImageFilter.h>
 #include <itkShiftScaleImageFilter.h>
 #include <mitkITKImageImport.h>
 
 #include "mitkNodePredicateDataType.h"
 #include <mitkNodePredicateProperty.h>
 #include <mitkNodePredicateAnd.h>
 #include <mitkNodePredicateNot.h>
 #include <mitkNodePredicateOr.h>
 
 #define _USE_MATH_DEFINES
 #include <math.h>
 
 QmitkFiberfoxWorker::QmitkFiberfoxWorker(QmitkFiberfoxView* view)
     : m_View(view)
 {
 
 }
 
 void QmitkFiberfoxWorker::run()
 {
     try{
         switch (m_FilterType)
         {
         case 0:
             m_View->m_TractsToDwiFilter->Update();
             break;
         case 1:
             m_View->m_ArtifactsToDwiFilter->Update();
             break;
         }
     }
     catch( ... )
     {
 
     }
     m_View->m_Thread.quit();
 }
 
 const std::string QmitkFiberfoxView::VIEW_ID = "org.mitk.views.fiberfoxview";
 
 QmitkFiberfoxView::QmitkFiberfoxView()
     : QmitkAbstractView()
     , m_Controls( 0 )
     , m_SelectedImageNode( NULL )
     , m_Worker(this)
     , m_ThreadIsRunning(false)
 {
     m_Worker.moveToThread(&m_Thread);
     connect(&m_Thread, SIGNAL(started()), this, SLOT(BeforeThread()));
     connect(&m_Thread, SIGNAL(started()), &m_Worker, SLOT(run()));
     connect(&m_Thread, SIGNAL(finished()), this, SLOT(AfterThread()));
     connect(&m_Thread, SIGNAL(terminated()), this, SLOT(AfterThread()));
     m_SimulationTimer = new QTimer(this);
 }
 
 void QmitkFiberfoxView::KillThread()
 {
     MITK_INFO << "Aborting DWI simulation.";
     switch (m_Worker.m_FilterType)
     {
     case 0:
         m_TractsToDwiFilter->SetAbortGenerateData(true);
         break;
     case 1:
         m_ArtifactsToDwiFilter->SetAbortGenerateData(true);
         break;
     }
     m_Controls->m_AbortSimulationButton->setEnabled(false);
     m_Controls->m_AbortSimulationButton->setText("Aborting simulation ...");
 }
 
 void QmitkFiberfoxView::BeforeThread()
 {
     m_SimulationTime = QTime::currentTime();
     m_SimulationTimer->start(100);
     m_Controls->m_AbortSimulationButton->setVisible(true);
     m_Controls->m_GenerateImageButton->setVisible(false);
     m_Controls->m_SimulationStatusText->setVisible(true);
     m_ThreadIsRunning = true;
 }
 
 void QmitkFiberfoxView::AfterThread()
 {
     UpdateSimulationStatus();
     m_SimulationTimer->stop();
     m_Controls->m_AbortSimulationButton->setVisible(false);
     m_Controls->m_AbortSimulationButton->setEnabled(true);
     m_Controls->m_AbortSimulationButton->setText("Abort simulation");
     m_Controls->m_GenerateImageButton->setVisible(true);
     m_ThreadIsRunning = false;
 
     QString statusText;
     FiberfoxParameters<double> parameters;
     mitk::Image::Pointer mitkImage = mitk::Image::New();
     switch (m_Worker.m_FilterType)
     {
     case 0:
     {
         statusText = QString(m_TractsToDwiFilter->GetStatusText().c_str());
         if (m_TractsToDwiFilter->GetAbortGenerateData())
         {
             MITK_INFO << "Simulation aborted.";
             return;
         }
 
         parameters = m_TractsToDwiFilter->GetParameters();
 
         mitkImage = mitk::GrabItkImageMemory( m_TractsToDwiFilter->GetOutput() );
         mitkImage->SetProperty( mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str(), mitk::GradientDirectionsProperty::New(  parameters.m_SignalGen.GetGradientDirections()  ));
         mitkImage->SetProperty( mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str(), mitk::FloatProperty::New( parameters.m_SignalGen.m_Bvalue ));
         mitk::DiffusionPropertyHelper propertyHelper( mitkImage );
         propertyHelper.InitializeImage();
         parameters.m_Misc.m_ResultNode->SetData( mitkImage );
 
         parameters.m_Misc.m_ResultNode->SetName(parameters.m_Misc.m_ParentNode->GetName()
                                                 +"_D"+QString::number(parameters.m_SignalGen.m_ImageRegion.GetSize(0)).toStdString()
                                                 +"-"+QString::number(parameters.m_SignalGen.m_ImageRegion.GetSize(1)).toStdString()
                                                 +"-"+QString::number(parameters.m_SignalGen.m_ImageRegion.GetSize(2)).toStdString()
                                                 +"_S"+QString::number(parameters.m_SignalGen.m_ImageSpacing[0]).toStdString()
                 +"-"+QString::number(parameters.m_SignalGen.m_ImageSpacing[1]).toStdString()
                 +"-"+QString::number(parameters.m_SignalGen.m_ImageSpacing[2]).toStdString()
                 +"_b"+QString::number(parameters.m_SignalGen.m_Bvalue).toStdString()
                 +"_"+parameters.m_Misc.m_SignalModelString
                 +parameters.m_Misc.m_ArtifactModelString);
 
         GetDataStorage()->Add(parameters.m_Misc.m_ResultNode, parameters.m_Misc.m_ParentNode);
 
         parameters.m_Misc.m_ResultNode->SetProperty( "levelwindow", mitk::LevelWindowProperty::New(m_TractsToDwiFilter->GetLevelWindow()) );
 
         if (m_Controls->m_VolumeFractionsBox->isChecked())
         {
             std::vector< itk::TractsToDWIImageFilter< short >::ItkDoubleImgType::Pointer > volumeFractions = m_TractsToDwiFilter->GetVolumeFractions();
             for (unsigned int k=0; k<volumeFractions.size(); k++)
             {
                 mitk::Image::Pointer image = mitk::Image::New();
                 image->InitializeByItk(volumeFractions.at(k).GetPointer());
                 image->SetVolume(volumeFractions.at(k)->GetBufferPointer());
 
                 mitk::DataNode::Pointer node = mitk::DataNode::New();
                 node->SetData( image );
                 node->SetName(parameters.m_Misc.m_ParentNode->GetName()+"_CompartmentVolume-"+QString::number(k).toStdString());
                 GetDataStorage()->Add(node, parameters.m_Misc.m_ParentNode);
             }
         }
         m_TractsToDwiFilter = NULL;
         break;
     }
     case 1:
     {
         statusText = QString(m_ArtifactsToDwiFilter->GetStatusText().c_str());
         if (m_ArtifactsToDwiFilter->GetAbortGenerateData())
         {
             MITK_INFO << "Simulation aborted.";
             return;
         }
 
         parameters = m_ArtifactsToDwiFilter->GetParameters().CopyParameters<double>();
 
         mitk::Image::Pointer diffImg = dynamic_cast<mitk::Image*>(parameters.m_Misc.m_ParentNode->GetData());
         mitkImage = mitk::GrabItkImageMemory( m_ArtifactsToDwiFilter->GetOutput() );
 
         mitkImage->SetProperty( mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str(), mitk::GradientDirectionsProperty::New( static_cast<mitk::GradientDirectionsProperty*>( diffImg->GetProperty(mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str()).GetPointer() )->GetGradientDirectionsContainer() ) );
         mitkImage->SetProperty( mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str(), mitk::FloatProperty::New( static_cast<mitk::FloatProperty*>( diffImg->GetProperty(mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str()).GetPointer() )->GetValue() ) );
         mitk::DiffusionPropertyHelper propertyHelper( mitkImage );
         propertyHelper.InitializeImage();
 
         parameters.m_Misc.m_ResultNode->SetData( mitkImage );
         parameters.m_Misc.m_ResultNode->SetName(parameters.m_Misc.m_ParentNode->GetName()+parameters.m_Misc.m_ArtifactModelString);
         GetDataStorage()->Add(parameters.m_Misc.m_ResultNode, parameters.m_Misc.m_ParentNode);
         m_ArtifactsToDwiFilter = NULL;
         break;
     }
     }
 
     mitk::BaseData::Pointer basedata = parameters.m_Misc.m_ResultNode->GetData();
     if (basedata.IsNotNull())
     {
         mitk::RenderingManager::GetInstance()->InitializeViews(
                     basedata->GetTimeGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, true );
         mitk::RenderingManager::GetInstance()->RequestUpdateAll();
     }
 
     if (!parameters.m_Misc.m_OutputPath.empty())
     {
         try{
             QString outputFileName(parameters.m_Misc.m_OutputPath.c_str());
             outputFileName += parameters.m_Misc.m_ResultNode->GetName().c_str();
             outputFileName.replace(QString("."), QString("_"));
             outputFileName += ".dwi";
             QString status("Saving output image to ");
             status += outputFileName;
             m_Controls->m_SimulationStatusText->append(status);
             mitk::IOUtil::SaveBaseData(mitkImage, outputFileName.toStdString());
             m_Controls->m_SimulationStatusText->append("File saved successfully.");
         }
         catch (itk::ExceptionObject &e)
         {
             QString status("Exception during DWI writing: ");
             status += e.GetDescription();
             m_Controls->m_SimulationStatusText->append(status);
         }
         catch (...)
         {
             m_Controls->m_SimulationStatusText->append("Unknown exception during DWI writing!");
         }
     }
     parameters.m_SignalGen.m_FrequencyMap = NULL;
 }
 
 void QmitkFiberfoxView::UpdateSimulationStatus()
 {
     QString statusText;
     switch (m_Worker.m_FilterType)
     {
     case 0:
         statusText = QString(m_TractsToDwiFilter->GetStatusText().c_str());
         break;
     case 1:
         statusText = QString(m_ArtifactsToDwiFilter->GetStatusText().c_str());
         break;
     }
 
     if (QString::compare(m_SimulationStatusText,statusText)!=0)
     {
         m_Controls->m_SimulationStatusText->clear();
         statusText = "<pre>"+statusText+"</pre>";
         m_Controls->m_SimulationStatusText->setText(statusText);
         QScrollBar *vScrollBar = m_Controls->m_SimulationStatusText->verticalScrollBar();
         vScrollBar->triggerAction(QScrollBar::SliderToMaximum);
     }
 }
 
 // Destructor
 QmitkFiberfoxView::~QmitkFiberfoxView()
 {
     delete m_SimulationTimer;
 }
 
 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 );
 
         // commented out
         m_Controls->m_DiffusionDirectionBox->setVisible(false);
         m_Controls->label_3->setVisible(false);
         m_Controls->m_SeparationAngleBox->setVisible(false);
         m_Controls->label_4->setVisible(false);
         //
 
         m_Controls->m_StickWidget1->setVisible(true);
         m_Controls->m_StickWidget2->setVisible(false);
         m_Controls->m_ZeppelinWidget1->setVisible(false);
         m_Controls->m_ZeppelinWidget2->setVisible(false);
         m_Controls->m_TensorWidget1->setVisible(false);
         m_Controls->m_TensorWidget2->setVisible(false);
 
         m_Controls->m_BallWidget1->setVisible(true);
         m_Controls->m_BallWidget2->setVisible(false);
         m_Controls->m_AstrosticksWidget1->setVisible(false);
         m_Controls->m_AstrosticksWidget2->setVisible(false);
         m_Controls->m_DotWidget1->setVisible(false);
         m_Controls->m_DotWidget2->setVisible(false);
 
         m_Controls->m_PrototypeWidget1->setVisible(false);
         m_Controls->m_PrototypeWidget2->setVisible(false);
         m_Controls->m_PrototypeWidget3->setVisible(false);
         m_Controls->m_PrototypeWidget4->setVisible(false);
 
         m_Controls->m_PrototypeWidget3->SetMinFa(0.0);
         m_Controls->m_PrototypeWidget3->SetMaxFa(0.15);
         m_Controls->m_PrototypeWidget4->SetMinFa(0.0);
         m_Controls->m_PrototypeWidget4->SetMaxFa(0.15);
         m_Controls->m_PrototypeWidget3->SetMinAdc(0.0);
         m_Controls->m_PrototypeWidget3->SetMaxAdc(0.001);
         m_Controls->m_PrototypeWidget4->SetMinAdc(0.003);
         m_Controls->m_PrototypeWidget4->SetMaxAdc(0.004);
 
         m_Controls->m_Comp2FractionFrame->setVisible(false);
         m_Controls->m_Comp4FractionFrame->setVisible(false);
         m_Controls->m_DiffusionPropsMessage->setVisible(false);
         m_Controls->m_GeometryMessage->setVisible(false);
         m_Controls->m_AdvancedSignalOptionsFrame->setVisible(false);
         m_Controls->m_AdvancedFiberOptionsFrame->setVisible(false);
         m_Controls->m_VarianceBox->setVisible(false);
         m_Controls->m_NoiseFrame->setVisible(false);
         m_Controls->m_GhostFrame->setVisible(false);
         m_Controls->m_DistortionsFrame->setVisible(false);
         m_Controls->m_EddyFrame->setVisible(false);
         m_Controls->m_SpikeFrame->setVisible(false);
         m_Controls->m_AliasingFrame->setVisible(false);
         m_Controls->m_MotionArtifactFrame->setVisible(false);
         m_ParameterFile = QDir::currentPath()+"/param.ffp";
 
         m_Controls->m_AbortSimulationButton->setVisible(false);
         m_Controls->m_SimulationStatusText->setVisible(false);
 
         m_Controls->m_FrequencyMapBox->SetDataStorage(this->GetDataStorage());
         m_Controls->m_Comp1VolumeFraction->SetDataStorage(this->GetDataStorage());
         m_Controls->m_Comp2VolumeFraction->SetDataStorage(this->GetDataStorage());
         m_Controls->m_Comp3VolumeFraction->SetDataStorage(this->GetDataStorage());
         m_Controls->m_Comp4VolumeFraction->SetDataStorage(this->GetDataStorage());
         m_Controls->m_MaskComboBox->SetDataStorage(this->GetDataStorage());
         m_Controls->m_TemplateComboBox->SetDataStorage(this->GetDataStorage());
         m_Controls->m_FiberBundleComboBox->SetDataStorage(this->GetDataStorage());
 
         mitk::TNodePredicateDataType<mitk::FiberBundle>::Pointer isFiberBundle = mitk::TNodePredicateDataType<mitk::FiberBundle>::New();
         mitk::TNodePredicateDataType<mitk::Image>::Pointer isMitkImage = mitk::TNodePredicateDataType<mitk::Image>::New();
         mitk::NodePredicateIsDWI::Pointer isDwi = mitk::NodePredicateIsDWI::New( );
         mitk::NodePredicateDataType::Pointer isDti = mitk::NodePredicateDataType::New("TensorImage");
         mitk::NodePredicateDataType::Pointer isQbi = mitk::NodePredicateDataType::New("QBallImage");
         mitk::NodePredicateOr::Pointer isDiffusionImage = mitk::NodePredicateOr::New(isDwi, isDti);
         isDiffusionImage = mitk::NodePredicateOr::New(isDiffusionImage, isQbi);
         mitk::NodePredicateNot::Pointer noDiffusionImage = mitk::NodePredicateNot::New(isDiffusionImage);
         mitk::NodePredicateAnd::Pointer isNonDiffMitkImage = mitk::NodePredicateAnd::New(isMitkImage, noDiffusionImage);
         mitk::NodePredicateProperty::Pointer isBinaryPredicate = mitk::NodePredicateProperty::New("binary", mitk::BoolProperty::New(true));
         mitk::NodePredicateAnd::Pointer isBinaryMitkImage = mitk::NodePredicateAnd::New( isNonDiffMitkImage, isBinaryPredicate );
 
         m_Controls->m_FrequencyMapBox->SetPredicate(isNonDiffMitkImage);
         m_Controls->m_Comp1VolumeFraction->SetPredicate(isNonDiffMitkImage);
         m_Controls->m_Comp1VolumeFraction->SetZeroEntryText("--");
         m_Controls->m_Comp2VolumeFraction->SetPredicate(isNonDiffMitkImage);
         m_Controls->m_Comp2VolumeFraction->SetZeroEntryText("--");
         m_Controls->m_Comp3VolumeFraction->SetPredicate(isNonDiffMitkImage);
         m_Controls->m_Comp3VolumeFraction->SetZeroEntryText("--");
         m_Controls->m_Comp4VolumeFraction->SetPredicate(isNonDiffMitkImage);
         m_Controls->m_Comp4VolumeFraction->SetZeroEntryText("--");
         m_Controls->m_MaskComboBox->SetPredicate(isBinaryMitkImage);
         m_Controls->m_MaskComboBox->SetZeroEntryText("--");
         m_Controls->m_TemplateComboBox->SetPredicate(isMitkImage);
         m_Controls->m_TemplateComboBox->SetZeroEntryText("--");
         m_Controls->m_FiberBundleComboBox->SetPredicate(isFiberBundle);
         m_Controls->m_FiberBundleComboBox->SetZeroEntryText("--");
 
         //        mitk::NodePredicateDimension::Pointer dimensionPredicate = mitk::NodePredicateDimension::New(3);
 
         connect( m_SimulationTimer, SIGNAL(timeout()), this, SLOT(UpdateSimulationStatus()) );
         connect((QObject*) m_Controls->m_AbortSimulationButton, SIGNAL(clicked()), (QObject*) this, SLOT(KillThread()));
         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(double)), (QObject*) this, SLOT(OnFiberSamplingChanged(double)));
         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_AddNoise, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddNoise(int)));
         connect((QObject*) m_Controls->m_AddGhosts, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddGhosts(int)));
         connect((QObject*) m_Controls->m_AddDistortions, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddDistortions(int)));
         connect((QObject*) m_Controls->m_AddEddy, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddEddy(int)));
         connect((QObject*) m_Controls->m_AddSpikes, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddSpikes(int)));
         connect((QObject*) m_Controls->m_AddAliasing, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddAliasing(int)));
         connect((QObject*) m_Controls->m_AddMotion, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddMotion(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_Compartment1Box, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(Comp1ModelFrameVisibility(int)));
         connect((QObject*) m_Controls->m_Compartment2Box, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(Comp2ModelFrameVisibility(int)));
         connect((QObject*) m_Controls->m_Compartment3Box, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(Comp3ModelFrameVisibility(int)));
         connect((QObject*) m_Controls->m_Compartment4Box, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(Comp4ModelFrameVisibility(int)));
 
         connect((QObject*) m_Controls->m_AdvancedOptionsBox, SIGNAL( stateChanged(int)), (QObject*) this, SLOT(ShowAdvancedOptions(int)));
         connect((QObject*) m_Controls->m_AdvancedOptionsBox_2, SIGNAL( stateChanged(int)), (QObject*) this, SLOT(ShowAdvancedOptions(int)));
 
         connect((QObject*) m_Controls->m_SaveParametersButton, SIGNAL(clicked()), (QObject*) this, SLOT(SaveParameters()));
         connect((QObject*) m_Controls->m_LoadParametersButton, SIGNAL(clicked()), (QObject*) this, SLOT(LoadParameters()));
         connect((QObject*) m_Controls->m_OutputPathButton, SIGNAL(clicked()), (QObject*) this, SLOT(SetOutputPath()));
 
         connect((QObject*) m_Controls->m_MaskComboBox, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(OnMaskSelected(int)));
         connect((QObject*) m_Controls->m_TemplateComboBox, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(OnTemplateSelected(int)));
         connect((QObject*) m_Controls->m_FiberBundleComboBox, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(OnFibSelected(int)));
     }
 }
 
 void QmitkFiberfoxView::OnMaskSelected(int value)
 {
     UpdateGui();
 }
 
 void QmitkFiberfoxView::OnTemplateSelected(int value)
 {
     UpdateGui();
 }
 
 void QmitkFiberfoxView::OnFibSelected(int value)
 {
     UpdateGui();
 }
 
 template< class ScalarType >
 FiberfoxParameters< ScalarType > QmitkFiberfoxView::UpdateImageParameters()
 {
     FiberfoxParameters< ScalarType > parameters;
     parameters.m_Misc.m_OutputPath = "";
     parameters.m_Misc.m_CheckAdvancedFiberOptionsBox = m_Controls->m_AdvancedOptionsBox->isChecked();
     parameters.m_Misc.m_CheckAdvancedSignalOptionsBox = m_Controls->m_AdvancedOptionsBox_2->isChecked();
     parameters.m_Misc.m_CheckOutputVolumeFractionsBox = m_Controls->m_VolumeFractionsBox->isChecked();
 
     string outputPath = m_Controls->m_SavePathEdit->text().toStdString();
     if (outputPath.compare("-")!=0)
     {
         parameters.m_Misc.m_OutputPath = outputPath;
         parameters.m_Misc.m_OutputPath += "/";
     }
 
     if (m_Controls->m_MaskComboBox->GetSelectedNode().IsNotNull())
     {
         mitk::Image::Pointer mitkMaskImage = dynamic_cast<mitk::Image*>(m_Controls->m_MaskComboBox->GetSelectedNode()->GetData());
         mitk::CastToItkImage<ItkUcharImgType>(mitkMaskImage, parameters.m_SignalGen.m_MaskImage);
         itk::ImageDuplicator<ItkUcharImgType>::Pointer duplicator = itk::ImageDuplicator<ItkUcharImgType>::New();
         duplicator->SetInputImage(parameters.m_SignalGen.m_MaskImage);
         duplicator->Update();
         parameters.m_SignalGen.m_MaskImage = duplicator->GetOutput();
     }
 
     if (m_Controls->m_TemplateComboBox->GetSelectedNode().IsNotNull() && mitk::DiffusionPropertyHelper::IsDiffusionWeightedImage( m_Controls->m_TemplateComboBox->GetSelectedNode()))  // use parameters of selected DWI
     {
         mitk::Image::Pointer dwi = dynamic_cast<mitk::Image*>(m_Controls->m_TemplateComboBox->GetSelectedNode()->GetData());
 
         ItkDwiType::Pointer itkVectorImagePointer = ItkDwiType::New();
         mitk::CastToItkImage(dwi, itkVectorImagePointer);
 
         parameters.m_SignalGen.m_ImageRegion = itkVectorImagePointer->GetLargestPossibleRegion();
         parameters.m_SignalGen.m_ImageSpacing = itkVectorImagePointer->GetSpacing();
         parameters.m_SignalGen.m_ImageOrigin = itkVectorImagePointer->GetOrigin();
         parameters.m_SignalGen.m_ImageDirection = itkVectorImagePointer->GetDirection();
         parameters.m_SignalGen.m_Bvalue = static_cast<mitk::FloatProperty*>(dwi->GetProperty(mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str()).GetPointer() )->GetValue();
         parameters.m_SignalGen.SetGradienDirections(static_cast<mitk::GradientDirectionsProperty*>( dwi->GetProperty(mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str()).GetPointer() )->GetGradientDirectionsContainer());
     }
     else if (m_Controls->m_TemplateComboBox->GetSelectedNode().IsNotNull())   // use geometry of selected image
     {
         mitk::Image::Pointer img = dynamic_cast<mitk::Image*>(m_Controls->m_TemplateComboBox->GetSelectedNode()->GetData());
         itk::Image< float, 3 >::Pointer itkImg = itk::Image< float, 3 >::New();
         CastToItkImage< itk::Image< float, 3 > >(img, itkImg);
 
         parameters.m_SignalGen.m_ImageRegion = itkImg->GetLargestPossibleRegion();
         parameters.m_SignalGen.m_ImageSpacing = itkImg->GetSpacing();
         parameters.m_SignalGen.m_ImageOrigin = itkImg->GetOrigin();
         parameters.m_SignalGen.m_ImageDirection = itkImg->GetDirection();
         parameters.m_SignalGen.SetNumWeightedVolumes(m_Controls->m_NumGradientsBox->value());
         parameters.m_SignalGen.m_Bvalue = m_Controls->m_BvalueBox->value();
     }
     else if (parameters.m_SignalGen.m_MaskImage.IsNotNull())   // use geometry of mask image
     {
         ItkUcharImgType::Pointer itkImg = parameters.m_SignalGen.m_MaskImage;
         parameters.m_SignalGen.m_ImageRegion = itkImg->GetLargestPossibleRegion();
         parameters.m_SignalGen.m_ImageSpacing = itkImg->GetSpacing();
         parameters.m_SignalGen.m_ImageOrigin = itkImg->GetOrigin();
         parameters.m_SignalGen.m_ImageDirection = itkImg->GetDirection();
         parameters.m_SignalGen.SetNumWeightedVolumes(m_Controls->m_NumGradientsBox->value());
         parameters.m_SignalGen.m_Bvalue = m_Controls->m_BvalueBox->value();
     }
     else    // use GUI parameters
     {
         parameters.m_SignalGen.m_ImageRegion.SetSize(0, m_Controls->m_SizeX->value());
         parameters.m_SignalGen.m_ImageRegion.SetSize(1, m_Controls->m_SizeY->value());
         parameters.m_SignalGen.m_ImageRegion.SetSize(2, m_Controls->m_SizeZ->value());
         parameters.m_SignalGen.m_ImageSpacing[0] = m_Controls->m_SpacingX->value();
         parameters.m_SignalGen.m_ImageSpacing[1] = m_Controls->m_SpacingY->value();
         parameters.m_SignalGen.m_ImageSpacing[2] = m_Controls->m_SpacingZ->value();
         parameters.m_SignalGen.m_ImageOrigin[0] = parameters.m_SignalGen.m_ImageSpacing[0]/2;
         parameters.m_SignalGen.m_ImageOrigin[1] = parameters.m_SignalGen.m_ImageSpacing[1]/2;
         parameters.m_SignalGen.m_ImageOrigin[2] = parameters.m_SignalGen.m_ImageSpacing[2]/2;
         parameters.m_SignalGen.m_ImageDirection.SetIdentity();
         parameters.m_SignalGen.SetNumWeightedVolumes(m_Controls->m_NumGradientsBox->value());
         parameters.m_SignalGen.m_Bvalue = m_Controls->m_BvalueBox->value();
         parameters.m_SignalGen.GenerateGradientHalfShell();
     }
 
     // signal relaxation
     parameters.m_SignalGen.m_DoSimulateRelaxation = m_Controls->m_RelaxationBox->isChecked();
     parameters.m_SignalGen.m_SimulateKspaceAcquisition = parameters.m_SignalGen.m_DoSimulateRelaxation;
     if (parameters.m_SignalGen.m_DoSimulateRelaxation && m_Controls->m_FiberBundleComboBox->GetSelectedNode().IsNotNull() )
         parameters.m_Misc.m_ArtifactModelString += "_RELAX";
 
     // N/2 ghosts
     parameters.m_Misc.m_CheckAddGhostsBox = m_Controls->m_AddGhosts->isChecked();
     if (m_Controls->m_AddGhosts->isChecked())
     {
         parameters.m_SignalGen.m_SimulateKspaceAcquisition = true;
         parameters.m_Misc.m_ArtifactModelString += "_GHOST";
         parameters.m_SignalGen.m_KspaceLineOffset = m_Controls->m_kOffsetBox->value();
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Ghost", DoubleProperty::New(parameters.m_SignalGen.m_KspaceLineOffset));
     }
     else
         parameters.m_SignalGen.m_KspaceLineOffset = 0;
 
     // Aliasing
     parameters.m_Misc.m_CheckAddAliasingBox = m_Controls->m_AddAliasing->isChecked();
     if (m_Controls->m_AddAliasing->isChecked())
     {
         parameters.m_SignalGen.m_SimulateKspaceAcquisition = true;
         parameters.m_Misc.m_ArtifactModelString += "_ALIASING";
         parameters.m_SignalGen.m_CroppingFactor = (100-m_Controls->m_WrapBox->value())/100;
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Aliasing", DoubleProperty::New(m_Controls->m_WrapBox->value()));
     }
 
     // Spikes
     parameters.m_Misc.m_CheckAddSpikesBox = m_Controls->m_AddSpikes->isChecked();
     if (m_Controls->m_AddSpikes->isChecked())
     {
         parameters.m_SignalGen.m_SimulateKspaceAcquisition = true;
         parameters.m_SignalGen.m_Spikes = m_Controls->m_SpikeNumBox->value();
         parameters.m_SignalGen.m_SpikeAmplitude = m_Controls->m_SpikeScaleBox->value();
         parameters.m_Misc.m_ArtifactModelString += "_SPIKES";
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Spikes.Number", IntProperty::New(parameters.m_SignalGen.m_Spikes));
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Spikes.Amplitude", DoubleProperty::New(parameters.m_SignalGen.m_SpikeAmplitude));
     }
 
     // gibbs ringing
     parameters.m_SignalGen.m_DoAddGibbsRinging = m_Controls->m_AddGibbsRinging->isChecked();
     if (m_Controls->m_AddGibbsRinging->isChecked())
     {
         parameters.m_SignalGen.m_SimulateKspaceAcquisition = true;
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Ringing", BoolProperty::New(true));
         parameters.m_Misc.m_ArtifactModelString += "_RINGING";
     }
 
     // add distortions
     parameters.m_Misc.m_CheckAddDistortionsBox = m_Controls->m_AddDistortions->isChecked();
     if (m_Controls->m_AddDistortions->isChecked() && m_Controls->m_FrequencyMapBox->GetSelectedNode().IsNotNull())
     {
         mitk::DataNode::Pointer fMapNode = m_Controls->m_FrequencyMapBox->GetSelectedNode();
         mitk::Image* img = dynamic_cast<mitk::Image*>(fMapNode->GetData());
         ItkDoubleImgType::Pointer itkImg = ItkDoubleImgType::New();
         CastToItkImage< ItkDoubleImgType >(img, itkImg);
 
         if (m_Controls->m_TemplateComboBox->GetSelectedNode().IsNull())   // use geometry of frequency map
         {
             parameters.m_SignalGen.m_ImageRegion = itkImg->GetLargestPossibleRegion();
             parameters.m_SignalGen.m_ImageSpacing = itkImg->GetSpacing();
             parameters.m_SignalGen.m_ImageOrigin = itkImg->GetOrigin();
             parameters.m_SignalGen.m_ImageDirection = itkImg->GetDirection();
         }
 
         if (parameters.m_SignalGen.m_ImageRegion.GetSize(0)==itkImg->GetLargestPossibleRegion().GetSize(0) &&
                 parameters.m_SignalGen.m_ImageRegion.GetSize(1)==itkImg->GetLargestPossibleRegion().GetSize(1) &&
                 parameters.m_SignalGen.m_ImageRegion.GetSize(2)==itkImg->GetLargestPossibleRegion().GetSize(2))
         {
             parameters.m_SignalGen.m_SimulateKspaceAcquisition = true;
             itk::ImageDuplicator<ItkDoubleImgType>::Pointer duplicator = itk::ImageDuplicator<ItkDoubleImgType>::New();
             duplicator->SetInputImage(itkImg);
             duplicator->Update();
             parameters.m_SignalGen.m_FrequencyMap = duplicator->GetOutput();
             parameters.m_Misc.m_ArtifactModelString += "_DISTORTED";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Distortions", BoolProperty::New(true));
         }
     }
 
     parameters.m_SignalGen.m_EddyStrength = 0;
     parameters.m_Misc.m_CheckAddEddyCurrentsBox = m_Controls->m_AddEddy->isChecked();
     if (m_Controls->m_AddEddy->isChecked())
     {
         parameters.m_SignalGen.m_EddyStrength = m_Controls->m_EddyGradientStrength->value();
         parameters.m_Misc.m_ArtifactModelString += "_EDDY";
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Eddy-strength", DoubleProperty::New(parameters.m_SignalGen.m_EddyStrength));
     }
 
     // Motion
     parameters.m_SignalGen.m_DoAddMotion = m_Controls->m_AddMotion->isChecked();
     parameters.m_SignalGen.m_DoRandomizeMotion = m_Controls->m_RandomMotion->isChecked();
     parameters.m_SignalGen.m_Translation[0] = m_Controls->m_MaxTranslationBoxX->value();
     parameters.m_SignalGen.m_Translation[1] = m_Controls->m_MaxTranslationBoxY->value();
     parameters.m_SignalGen.m_Translation[2] = m_Controls->m_MaxTranslationBoxZ->value();
     parameters.m_SignalGen.m_Rotation[0] = m_Controls->m_MaxRotationBoxX->value();
     parameters.m_SignalGen.m_Rotation[1] = m_Controls->m_MaxRotationBoxY->value();
     parameters.m_SignalGen.m_Rotation[2] = m_Controls->m_MaxRotationBoxZ->value();
     if ( m_Controls->m_AddMotion->isChecked() && m_Controls->m_FiberBundleComboBox->GetSelectedNode().IsNotNull() )
     {
         parameters.m_Misc.m_ArtifactModelString += "_MOTION";
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Motion.Random", BoolProperty::New(parameters.m_SignalGen.m_DoRandomizeMotion));
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Motion.Translation-x", DoubleProperty::New(parameters.m_SignalGen.m_Translation[0]));
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Motion.Translation-y", DoubleProperty::New(parameters.m_SignalGen.m_Translation[1]));
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Motion.Translation-z", DoubleProperty::New(parameters.m_SignalGen.m_Translation[2]));
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Motion.Rotation-x", DoubleProperty::New(parameters.m_SignalGen.m_Rotation[0]));
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Motion.Rotation-y", DoubleProperty::New(parameters.m_SignalGen.m_Rotation[1]));
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Motion.Rotation-z", DoubleProperty::New(parameters.m_SignalGen.m_Rotation[2]));
     }
 
     // other imaging parameters
+    parameters.m_SignalGen.m_ReversePhase = m_Controls->m_ReversePhaseBox->isChecked();
     parameters.m_SignalGen.m_tLine = m_Controls->m_LineReadoutTimeBox->value();
     parameters.m_SignalGen.m_tInhom = m_Controls->m_T2starBox->value();
     parameters.m_SignalGen.m_tEcho = m_Controls->m_TEbox->value();
     parameters.m_SignalGen.m_tRep = m_Controls->m_TRbox->value();
     parameters.m_SignalGen.m_DoDisablePartialVolume = m_Controls->m_EnforcePureFiberVoxelsBox->isChecked();
     parameters.m_SignalGen.m_AxonRadius = m_Controls->m_FiberRadius->value();
     parameters.m_SignalGen.m_SignalScale = m_Controls->m_SignalScaleBox->value();
 
     // adjust echo time if needed
     if ( parameters.m_SignalGen.m_tEcho < parameters.m_SignalGen.m_ImageRegion.GetSize(1)*parameters.m_SignalGen.m_tLine )
     {
         this->m_Controls->m_TEbox->setValue( parameters.m_SignalGen.m_ImageRegion.GetSize(1)*parameters.m_SignalGen.m_tLine );
         parameters.m_SignalGen.m_tEcho = m_Controls->m_TEbox->value();
         QMessageBox::information( NULL, "Warning", "Echo time is too short! Time not sufficient to read slice. Automaticall adjusted to "+QString::number(parameters.m_SignalGen.m_tEcho)+" ms");
     }
 
     // Noise
     parameters.m_Misc.m_CheckAddNoiseBox = m_Controls->m_AddNoise->isChecked();
     if (m_Controls->m_AddNoise->isChecked())
     {
         double noiseVariance = m_Controls->m_NoiseLevel->value();
         {
             switch (m_Controls->m_NoiseDistributionBox->currentIndex())
             {
             case 0:
             {
                 parameters.m_NoiseModel = new mitk::RicianNoiseModel<ScalarType>();
                 parameters.m_Misc.m_ArtifactModelString += "_RICIAN-";
                 parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Noise-Distribution", StringProperty::New("Rician"));
                 break;
             }
             case 1:
             {
                 parameters.m_NoiseModel = new mitk::ChiSquareNoiseModel<ScalarType>();
                 parameters.m_Misc.m_ArtifactModelString += "_CHISQUARED-";
                 parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Noise-Distribution", StringProperty::New("Chi-squared"));
                 break;
             }
             default:
             {
                 parameters.m_NoiseModel = new mitk::RicianNoiseModel<ScalarType>();
                 parameters.m_Misc.m_ArtifactModelString += "_RICIAN-";
                 parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Noise-Distribution", StringProperty::New("Rician"));
             }
             }
         }
         parameters.m_NoiseModel->SetNoiseVariance(noiseVariance);
         parameters.m_Misc.m_ArtifactModelString += QString::number(noiseVariance).toStdString();
         parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Noise-Variance", DoubleProperty::New(noiseVariance));
     }
 
     // adjusting line readout time to the adapted image size needed for the DFT
     unsigned int y = parameters.m_SignalGen.m_ImageRegion.GetSize(1);
     y += y%2;
     if ( y>parameters.m_SignalGen.m_ImageRegion.GetSize(1) )
         parameters.m_SignalGen.m_tLine *= (double)parameters.m_SignalGen.m_ImageRegion.GetSize(1)/y;
 
     // signal models
     {
         // compartment 1
         switch (m_Controls->m_Compartment1Box->currentIndex())
         {
         case 0:
         {
             mitk::StickModel<ScalarType>* model = new mitk::StickModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity(m_Controls->m_StickWidget1->GetD());
             model->SetT2(m_Controls->m_StickWidget1->GetT2());
             model->SetT1(m_Controls->m_StickWidget1->GetT1());
             model->m_CompartmentId = 1;
             parameters.m_FiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Stick";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.Description", StringProperty::New("Intra-axonal compartment") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.Model", StringProperty::New("Stick") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.D", DoubleProperty::New(m_Controls->m_StickWidget1->GetD()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         case 1:
         {
             mitk::TensorModel<ScalarType>* model = new mitk::TensorModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity1(m_Controls->m_ZeppelinWidget1->GetD1());
             model->SetDiffusivity2(m_Controls->m_ZeppelinWidget1->GetD2());
             model->SetDiffusivity3(m_Controls->m_ZeppelinWidget1->GetD2());
             model->SetT2(m_Controls->m_ZeppelinWidget1->GetT2());
             model->SetT1(m_Controls->m_ZeppelinWidget1->GetT1());
             model->m_CompartmentId = 1;
             parameters.m_FiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Zeppelin";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.Description", StringProperty::New("Intra-axonal compartment") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.Model", StringProperty::New("Zeppelin") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.D1", DoubleProperty::New(m_Controls->m_ZeppelinWidget1->GetD1()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.D2", DoubleProperty::New(m_Controls->m_ZeppelinWidget1->GetD2()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         case 2:
         {
             mitk::TensorModel<ScalarType>* model = new mitk::TensorModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity1(m_Controls->m_TensorWidget1->GetD1());
             model->SetDiffusivity2(m_Controls->m_TensorWidget1->GetD2());
             model->SetDiffusivity3(m_Controls->m_TensorWidget1->GetD3());
             model->SetT2(m_Controls->m_TensorWidget1->GetT2());
             model->SetT1(m_Controls->m_TensorWidget1->GetT1());
             model->m_CompartmentId = 1;
             parameters.m_FiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Tensor";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.Description", StringProperty::New("Intra-axonal compartment") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.Model", StringProperty::New("Tensor") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.D1", DoubleProperty::New(m_Controls->m_TensorWidget1->GetD1()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.D2", DoubleProperty::New(m_Controls->m_TensorWidget1->GetD2()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.D3", DoubleProperty::New(m_Controls->m_TensorWidget1->GetD3()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         case 3:
         {
             mitk::RawShModel<ScalarType>* model = new mitk::RawShModel<ScalarType>();
             parameters.m_SignalGen.m_DoSimulateRelaxation = false;
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetMaxNumKernels(m_Controls->m_PrototypeWidget1->GetNumberOfSamples());
             model->SetFaRange(m_Controls->m_PrototypeWidget1->GetMinFa(), m_Controls->m_PrototypeWidget1->GetMaxFa());
             model->SetAdcRange(m_Controls->m_PrototypeWidget1->GetMinAdc(), m_Controls->m_PrototypeWidget1->GetMaxAdc());
             model->m_CompartmentId = 1;
             parameters.m_FiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Prototype";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.Description", StringProperty::New("Intra-axonal compartment") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment1.Model", StringProperty::New("Prototype") );
             break;
         }
         }
         if (m_Controls->m_Comp1VolumeFraction->GetSelectedNode().IsNotNull())
         {
             mitk::DataNode::Pointer volumeNode = m_Controls->m_Comp1VolumeFraction->GetSelectedNode();
             ItkDoubleImgType::Pointer comp1VolumeImage = ItkDoubleImgType::New();
             mitk::Image* img = dynamic_cast<mitk::Image*>(volumeNode->GetData());
             CastToItkImage< ItkDoubleImgType >(img, comp1VolumeImage);
             parameters.m_FiberModelList.back()->SetVolumeFractionImage(comp1VolumeImage);
         }
 
         // compartment 2
         switch (m_Controls->m_Compartment2Box->currentIndex())
         {
         case 0:
             break;
         case 1:
         {
             mitk::StickModel<ScalarType>* model = new mitk::StickModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity(m_Controls->m_StickWidget2->GetD());
             model->SetT2(m_Controls->m_StickWidget2->GetT2());
             model->SetT1(m_Controls->m_StickWidget2->GetT1());
             model->m_CompartmentId = 2;
             parameters.m_FiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Stick";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.Description", StringProperty::New("Inter-axonal compartment") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.Model", StringProperty::New("Stick") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.D", DoubleProperty::New(m_Controls->m_StickWidget2->GetD()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         case 2:
         {
             mitk::TensorModel<ScalarType>* model = new mitk::TensorModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity1(m_Controls->m_ZeppelinWidget2->GetD1());
             model->SetDiffusivity2(m_Controls->m_ZeppelinWidget2->GetD2());
             model->SetDiffusivity3(m_Controls->m_ZeppelinWidget2->GetD2());
             model->SetT2(m_Controls->m_ZeppelinWidget2->GetT2());
             model->SetT1(m_Controls->m_ZeppelinWidget2->GetT1());
             model->m_CompartmentId = 2;
             parameters.m_FiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Zeppelin";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.Description", StringProperty::New("Inter-axonal compartment") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.Model", StringProperty::New("Zeppelin") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.D1", DoubleProperty::New(m_Controls->m_ZeppelinWidget2->GetD1()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.D2", DoubleProperty::New(m_Controls->m_ZeppelinWidget2->GetD2()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         case 3:
         {
             mitk::TensorModel<ScalarType>* model = new mitk::TensorModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity1(m_Controls->m_TensorWidget2->GetD1());
             model->SetDiffusivity2(m_Controls->m_TensorWidget2->GetD2());
             model->SetDiffusivity3(m_Controls->m_TensorWidget2->GetD3());
             model->SetT2(m_Controls->m_TensorWidget2->GetT2());
             model->SetT1(m_Controls->m_TensorWidget2->GetT1());
             model->m_CompartmentId = 2;
             parameters.m_FiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Tensor";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.Description", StringProperty::New("Inter-axonal compartment") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.Model", StringProperty::New("Tensor") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.D1", DoubleProperty::New(m_Controls->m_TensorWidget2->GetD1()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.D2", DoubleProperty::New(m_Controls->m_TensorWidget2->GetD2()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.D3", DoubleProperty::New(m_Controls->m_TensorWidget2->GetD3()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment2.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         }
         if (m_Controls->m_Comp2VolumeFraction->GetSelectedNode().IsNotNull() && parameters.m_FiberModelList.size()==2)
         {
             mitk::DataNode::Pointer volumeNode = m_Controls->m_Comp2VolumeFraction->GetSelectedNode();
             ItkDoubleImgType::Pointer comp1VolumeImage = ItkDoubleImgType::New();
             mitk::Image* img = dynamic_cast<mitk::Image*>(volumeNode->GetData());
             CastToItkImage< ItkDoubleImgType >(img, comp1VolumeImage);
             parameters.m_FiberModelList.back()->SetVolumeFractionImage(comp1VolumeImage);
         }
 
         // compartment 3
         switch (m_Controls->m_Compartment3Box->currentIndex())
         {
         case 0:
         {
             mitk::BallModel<ScalarType>* model = new mitk::BallModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity(m_Controls->m_BallWidget1->GetD());
             model->SetT2(m_Controls->m_BallWidget1->GetT2());
             model->SetT1(m_Controls->m_BallWidget1->GetT1());
             model->m_CompartmentId = 3;
             parameters.m_NonFiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Ball";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.Description", StringProperty::New("Extra-axonal compartment 1") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.Model", StringProperty::New("Ball") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.D", DoubleProperty::New(m_Controls->m_BallWidget1->GetD()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         case 1:
         {
             mitk::AstroStickModel<ScalarType>* model = new mitk::AstroStickModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity(m_Controls->m_AstrosticksWidget1->GetD());
             model->SetT2(m_Controls->m_AstrosticksWidget1->GetT2());
             model->SetT1(m_Controls->m_AstrosticksWidget1->GetT1());
             model->SetRandomizeSticks(m_Controls->m_AstrosticksWidget1->GetRandomizeSticks());
             model->m_CompartmentId = 3;
             parameters.m_NonFiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Astrosticks";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.Description", StringProperty::New("Extra-axonal compartment 1") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.Model", StringProperty::New("Astrosticks") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.D", DoubleProperty::New(m_Controls->m_AstrosticksWidget1->GetD()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.T2", DoubleProperty::New(model->GetT2()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.RandomSticks", BoolProperty::New(m_Controls->m_AstrosticksWidget1->GetRandomizeSticks()) );
             break;
         }
         case 2:
         {
             mitk::DotModel<ScalarType>* model = new mitk::DotModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetT2(m_Controls->m_DotWidget1->GetT2());
             model->SetT1(m_Controls->m_DotWidget1->GetT1());
             model->m_CompartmentId = 3;
             parameters.m_NonFiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Dot";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.Description", StringProperty::New("Extra-axonal compartment 1") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.Model", StringProperty::New("Dot") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         case 3:
         {
             mitk::RawShModel<ScalarType>* model = new mitk::RawShModel<ScalarType>();
             parameters.m_SignalGen.m_DoSimulateRelaxation = false;
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetMaxNumKernels(m_Controls->m_PrototypeWidget3->GetNumberOfSamples());
             model->SetFaRange(m_Controls->m_PrototypeWidget3->GetMinFa(), m_Controls->m_PrototypeWidget3->GetMaxFa());
             model->SetAdcRange(m_Controls->m_PrototypeWidget3->GetMinAdc(), m_Controls->m_PrototypeWidget3->GetMaxAdc());
             model->m_CompartmentId = 3;
             parameters.m_NonFiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Prototype";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.Description", StringProperty::New("Extra-axonal compartment 1") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment3.Model", StringProperty::New("Prototype") );
             break;
         }
         }
         if (m_Controls->m_Comp3VolumeFraction->GetSelectedNode().IsNotNull())
         {
             mitk::DataNode::Pointer volumeNode = m_Controls->m_Comp3VolumeFraction->GetSelectedNode();
             ItkDoubleImgType::Pointer comp1VolumeImage = ItkDoubleImgType::New();
             mitk::Image* img = dynamic_cast<mitk::Image*>(volumeNode->GetData());
             CastToItkImage< ItkDoubleImgType >(img, comp1VolumeImage);
             parameters.m_NonFiberModelList.back()->SetVolumeFractionImage(comp1VolumeImage);
         }
 
         switch (m_Controls->m_Compartment4Box->currentIndex())
         {
         case 0:
             break;
         case 1:
         {
             mitk::BallModel<ScalarType>* model = new mitk::BallModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity(m_Controls->m_BallWidget2->GetD());
             model->SetT2(m_Controls->m_BallWidget2->GetT2());
             model->SetT1(m_Controls->m_BallWidget2->GetT1());
             model->m_CompartmentId = 4;
             parameters.m_NonFiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Ball";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.Description", StringProperty::New("Extra-axonal compartment 2") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.Model", StringProperty::New("Ball") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.D", DoubleProperty::New(m_Controls->m_BallWidget2->GetD()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         case 2:
         {
             mitk::AstroStickModel<ScalarType>* model = new mitk::AstroStickModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetBvalue(parameters.m_SignalGen.m_Bvalue);
             model->SetDiffusivity(m_Controls->m_AstrosticksWidget2->GetD());
             model->SetT2(m_Controls->m_AstrosticksWidget2->GetT2());
             model->SetT1(m_Controls->m_AstrosticksWidget2->GetT1());
             model->SetRandomizeSticks(m_Controls->m_AstrosticksWidget2->GetRandomizeSticks());
             model->m_CompartmentId = 4;
             parameters.m_NonFiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Astrosticks";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.Description", StringProperty::New("Extra-axonal compartment 2") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.Model", StringProperty::New("Astrosticks") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.D", DoubleProperty::New(m_Controls->m_AstrosticksWidget2->GetD()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.T2", DoubleProperty::New(model->GetT2()) );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.RandomSticks", BoolProperty::New(m_Controls->m_AstrosticksWidget2->GetRandomizeSticks()) );
             break;
         }
         case 3:
         {
             mitk::DotModel<ScalarType>* model = new mitk::DotModel<ScalarType>();
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetT2(m_Controls->m_DotWidget2->GetT2());
             model->SetT1(m_Controls->m_DotWidget2->GetT1());
             model->m_CompartmentId = 4;
             parameters.m_NonFiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Dot";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.Description", StringProperty::New("Extra-axonal compartment 2") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.Model", StringProperty::New("Dot") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.T2", DoubleProperty::New(model->GetT2()) );
             break;
         }
         case 4:
         {
             mitk::RawShModel<ScalarType>* model = new mitk::RawShModel<ScalarType>();
             parameters.m_SignalGen.m_DoSimulateRelaxation = false;
             model->SetGradientList(parameters.m_SignalGen.GetGradientDirections());
             model->SetMaxNumKernels(m_Controls->m_PrototypeWidget4->GetNumberOfSamples());
             model->SetFaRange(m_Controls->m_PrototypeWidget4->GetMinFa(), m_Controls->m_PrototypeWidget4->GetMaxFa());
             model->SetAdcRange(m_Controls->m_PrototypeWidget4->GetMinAdc(), m_Controls->m_PrototypeWidget4->GetMaxAdc());
             model->m_CompartmentId = 4;
             parameters.m_NonFiberModelList.push_back(model);
             parameters.m_Misc.m_SignalModelString += "Prototype";
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.Description", StringProperty::New("Extra-axonal compartment 2") );
             parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Compartment4.Model", StringProperty::New("Prototype") );
             break;
         }
         }
         if (m_Controls->m_Comp4VolumeFraction->GetSelectedNode().IsNotNull() && parameters.m_NonFiberModelList.size()==2)
         {
             mitk::DataNode::Pointer volumeNode = m_Controls->m_Comp4VolumeFraction->GetSelectedNode();
             ItkDoubleImgType::Pointer compVolumeImage = ItkDoubleImgType::New();
             mitk::Image* img = dynamic_cast<mitk::Image*>(volumeNode->GetData());
             CastToItkImage< ItkDoubleImgType >(img, compVolumeImage);
             parameters.m_NonFiberModelList.back()->SetVolumeFractionImage(compVolumeImage);
         }
     }
 
     // check if comp 3 or 4 volume fraction image is set
     if (parameters.m_NonFiberModelList.size()==2 && (parameters.m_NonFiberModelList[0]->GetVolumeFractionImage()==nullptr || parameters.m_NonFiberModelList[1]->GetVolumeFractionImage()==nullptr))
     {
         m_Controls->m_Compartment4Box->setCurrentIndex(0);
         parameters.m_NonFiberModelList.pop_back();
         QMessageBox::information(NULL, "Compartment 4 disabled", "More than one non-fiber compartment selected but no volume fraction maps set!");
     }
 
-    parameters.m_SignalGen.m_FiberSeparationThreshold = m_Controls->m_SeparationAngleBox->value();
-    switch (m_Controls->m_DiffusionDirectionBox->currentIndex())
-    {
-    case 0:
-        parameters.m_SignalGen.m_DiffusionDirectionMode = SignalGenerationParameters::FIBER_TANGENT_DIRECTIONS;
-        break;
-    case 1:
-        parameters.m_SignalGen.m_DiffusionDirectionMode = SignalGenerationParameters::MAIN_FIBER_DIRECTIONS;
-        break;
-    case 2:
-        parameters.m_SignalGen.m_DiffusionDirectionMode = SignalGenerationParameters::RANDOM_DIRECTIONS;
-        parameters.m_SignalGen.m_DoAddMotion = false;
-        parameters.m_SignalGen.m_DoAddGibbsRinging = false;
-        parameters.m_SignalGen.m_KspaceLineOffset = 0.0;
-        parameters.m_SignalGen.m_FrequencyMap = NULL;
-        parameters.m_SignalGen.m_CroppingFactor = 1.0;
-        parameters.m_SignalGen.m_EddyStrength = 0;
-        break;
-    default:
-        parameters.m_SignalGen.m_DiffusionDirectionMode = SignalGenerationParameters::FIBER_TANGENT_DIRECTIONS;
-    }
+//    RELICT
+//    parameters.m_SignalGen.m_FiberSeparationThreshold = m_Controls->m_SeparationAngleBox->value();
+//    switch (m_Controls->m_DiffusionDirectionBox->currentIndex())
+//    {
+//    case 0:
+//        parameters.m_SignalGen.m_DiffusionDirectionMode = SignalGenerationParameters::FIBER_TANGENT_DIRECTIONS;
+//        break;
+//    case 1:
+//        parameters.m_SignalGen.m_DiffusionDirectionMode = SignalGenerationParameters::MAIN_FIBER_DIRECTIONS;
+//        break;
+//    case 2:
+//        parameters.m_SignalGen.m_DiffusionDirectionMode = SignalGenerationParameters::RANDOM_DIRECTIONS;
+//        parameters.m_SignalGen.m_DoAddMotion = false;
+//        parameters.m_SignalGen.m_DoAddGibbsRinging = false;
+//        parameters.m_SignalGen.m_KspaceLineOffset = 0.0;
+//        parameters.m_SignalGen.m_FrequencyMap = NULL;
+//        parameters.m_SignalGen.m_CroppingFactor = 1.0;
+//        parameters.m_SignalGen.m_EddyStrength = 0;
+//        break;
+//    default:
+//        parameters.m_SignalGen.m_DiffusionDirectionMode = SignalGenerationParameters::FIBER_TANGENT_DIRECTIONS;
+//    }
 
     parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.SignalScale", IntProperty::New(parameters.m_SignalGen.m_SignalScale));
     parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.FiberRadius", IntProperty::New(parameters.m_SignalGen.m_AxonRadius));
     parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Tinhom", DoubleProperty::New(parameters.m_SignalGen.m_tInhom));
     parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Tline", DoubleProperty::New(parameters.m_SignalGen.m_tLine));
     parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.TE", DoubleProperty::New(parameters.m_SignalGen.m_tEcho));
     parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.b-value", DoubleProperty::New(parameters.m_SignalGen.m_Bvalue));
     parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.NoPartialVolume", BoolProperty::New(parameters.m_SignalGen.m_DoDisablePartialVolume));
     parameters.m_Misc.m_ResultNode->AddProperty("Fiberfox.Relaxation", BoolProperty::New(parameters.m_SignalGen.m_DoSimulateRelaxation));
     parameters.m_Misc.m_ResultNode->AddProperty("binary", BoolProperty::New(false));
 
     parameters.m_Misc.m_CheckRealTimeFibersBox = m_Controls->m_RealTimeFibers->isChecked();
     parameters.m_Misc.m_CheckAdvancedFiberOptionsBox = m_Controls->m_AdvancedOptionsBox->isChecked();
     parameters.m_Misc.m_CheckIncludeFiducialsBox = m_Controls->m_IncludeFiducials->isChecked();
     parameters.m_Misc.m_CheckConstantRadiusBox = m_Controls->m_ConstantRadiusBox->isChecked();
 
     switch(m_Controls->m_DistributionBox->currentIndex())
     {
     case 0:
         parameters.m_FiberGen.m_Distribution = FiberGenerationParameters::DISTRIBUTE_UNIFORM;
         break;
     case 1:
         parameters.m_FiberGen.m_Distribution = FiberGenerationParameters::DISTRIBUTE_GAUSSIAN;
         break;
     default:
         parameters.m_FiberGen.m_Distribution = FiberGenerationParameters::DISTRIBUTE_UNIFORM;
     }
     parameters.m_FiberGen.m_Variance = m_Controls->m_VarianceBox->value();
     parameters.m_FiberGen.m_Density = m_Controls->m_FiberDensityBox->value();
     parameters.m_FiberGen.m_Sampling = m_Controls->m_FiberSamplingBox->value();
     parameters.m_FiberGen.m_Tension = m_Controls->m_TensionBox->value();
     parameters.m_FiberGen.m_Continuity = m_Controls->m_ContinuityBox->value();
     parameters.m_FiberGen.m_Bias = m_Controls->m_BiasBox->value();
     parameters.m_FiberGen.m_Rotation[0] = m_Controls->m_XrotBox->value();
     parameters.m_FiberGen.m_Rotation[1] = m_Controls->m_YrotBox->value();
     parameters.m_FiberGen.m_Rotation[2] = m_Controls->m_ZrotBox->value();
     parameters.m_FiberGen.m_Translation[0] = m_Controls->m_XtransBox->value();
     parameters.m_FiberGen.m_Translation[1] = m_Controls->m_YtransBox->value();
     parameters.m_FiberGen.m_Translation[2] = m_Controls->m_ZtransBox->value();
     parameters.m_FiberGen.m_Scale[0] = m_Controls->m_XscaleBox->value();
     parameters.m_FiberGen.m_Scale[1] = m_Controls->m_YscaleBox->value();
     parameters.m_FiberGen.m_Scale[2] = m_Controls->m_ZscaleBox->value();
 
     return parameters;
 }
 
 void QmitkFiberfoxView::SaveParameters()
 {
     FiberfoxParameters<> ffParamaters = UpdateImageParameters<double>();
 
     QString filename = QFileDialog::getSaveFileName(
                 0,
                 tr("Save Parameters"),
                 m_ParameterFile,
                 tr("Fiberfox Parameters (*.ffp)") );
 
     bool ok = true;
     bool first = true;
     bool dosampling = false;
     mitk::Image::Pointer diffImg = NULL;
     itk::Image< itk::DiffusionTensor3D< double >, 3 >::Pointer tensorImage = NULL;
     const int shOrder = 2;
     typedef itk::AnalyticalDiffusionQballReconstructionImageFilter<short,short,float,shOrder,QBALL_ODFSIZE> QballFilterType;
     QballFilterType::CoefficientImageType::Pointer itkFeatureImage = NULL;
     ItkDoubleImgType::Pointer adcImage = NULL;
 
     for (unsigned int i=0; i<ffParamaters.m_FiberModelList.size()+ffParamaters.m_NonFiberModelList.size(); i++)
     {
         mitk::RawShModel<>* model = NULL;
         if (i<ffParamaters.m_FiberModelList.size())
             model = dynamic_cast<  mitk::RawShModel<>* >(ffParamaters.m_FiberModelList.at(i));
         else
             model = dynamic_cast<  mitk::RawShModel<>* >(ffParamaters.m_NonFiberModelList.at(i-ffParamaters.m_FiberModelList.size()));
 
         if (model!=0 && model->GetNumberOfKernels()<=0)
         {
             if (first==true)
             {
                 if (QMessageBox::question(NULL, "Prototype signal sampling", "Do you want to sample prototype signals from the selected diffusion-weighted imag and save them?",QMessageBox::Yes,QMessageBox::No)==QMessageBox::Yes)
                     dosampling = true;
 
                 first = false;
                 if (dosampling && (m_Controls->m_TemplateComboBox->GetSelectedNode().IsNull() || !mitk::DiffusionPropertyHelper::IsDiffusionWeightedImage( dynamic_cast<mitk::Image*>(m_Controls->m_TemplateComboBox->GetSelectedNode()->GetData()))))
                 {
                     QMessageBox::information(NULL, "Parameter file not saved", "No diffusion-weighted image selected to sample signal from.");
                     return;
                 }
                 else if (dosampling)
                 {
                     diffImg = dynamic_cast<mitk::Image*>(m_Controls->m_TemplateComboBox->GetSelectedNode()->GetData());
 
                     typedef itk::DiffusionTensor3DReconstructionImageFilter< short, short, double > TensorReconstructionImageFilterType;
                     TensorReconstructionImageFilterType::Pointer filter = TensorReconstructionImageFilterType::New();
                     ItkDwiType::Pointer itkVectorImagePointer = ItkDwiType::New();
                     mitk::CastToItkImage(diffImg, itkVectorImagePointer);
                     filter->SetGradientImage( static_cast<mitk::GradientDirectionsProperty*>( diffImg->GetProperty(mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str()).GetPointer() )->GetGradientDirectionsContainer(), itkVectorImagePointer );
                     filter->SetBValue( static_cast<mitk::FloatProperty*>(diffImg->GetProperty(mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str()).GetPointer() )->GetValue() );
 
                     filter->Update();
                     tensorImage = filter->GetOutput();
 
                     const int NumCoeffs = (shOrder*shOrder + shOrder + 2)/2 + shOrder;
                     QballFilterType::Pointer qballfilter = QballFilterType::New();
                     qballfilter->SetGradientImage( static_cast<mitk::GradientDirectionsProperty*>( diffImg->GetProperty(mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str()).GetPointer() )->GetGradientDirectionsContainer(), itkVectorImagePointer );
                     qballfilter->SetBValue( static_cast<mitk::FloatProperty*>(diffImg->GetProperty(mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str()).GetPointer() )->GetValue() );
                     qballfilter->SetLambda(0.006);
                     qballfilter->SetNormalizationMethod(QballFilterType::QBAR_RAW_SIGNAL);
                     qballfilter->Update();
                     itkFeatureImage = qballfilter->GetCoefficientImage();
 
                     itk::AdcImageFilter< short, double >::Pointer adcFilter = itk::AdcImageFilter< short, double >::New();
                     adcFilter->SetInput( itkVectorImagePointer );
                     adcFilter->SetGradientDirections( static_cast<mitk::GradientDirectionsProperty*>( diffImg->GetProperty(mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str()).GetPointer() )->GetGradientDirectionsContainer() );
                     adcFilter->SetB_value( static_cast<mitk::FloatProperty*>(diffImg->GetProperty(mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str()).GetPointer() )->GetValue() );
                     adcFilter->Update();
                     adcImage = adcFilter->GetOutput();
                 }
             }
 
             if (dosampling && diffImg.IsNotNull())
             {
                 ok = model->SampleKernels(diffImg, ffParamaters.m_SignalGen.m_MaskImage, tensorImage, itkFeatureImage, adcImage);
                 if (!ok)
                 {
                     QMessageBox::information( NULL, "Parameter file not saved", "No valid prototype signals could be sampled.");
                     return;
                 }
             }
         }
     }
 
     ffParamaters.SaveParameters(filename.toStdString());
     m_ParameterFile = filename;
 }
 
 void QmitkFiberfoxView::LoadParameters()
 {
     QString filename = QFileDialog::getOpenFileName(0, tr("Load Parameters"), QString(itksys::SystemTools::GetFilenamePath(m_ParameterFile.toStdString()).c_str()), tr("Fiberfox Parameters (*.ffp)") );
     if(filename.isEmpty() || filename.isNull())
         return;
 
     m_ParameterFile = filename;
 
     FiberfoxParameters<> parameters;
     parameters.LoadParameters(filename.toStdString());
 
     m_Controls->m_RealTimeFibers->setChecked(parameters.m_Misc.m_CheckRealTimeFibersBox);
     m_Controls->m_AdvancedOptionsBox->setChecked(parameters.m_Misc.m_CheckAdvancedFiberOptionsBox);
     m_Controls->m_IncludeFiducials->setChecked(parameters.m_Misc.m_CheckIncludeFiducialsBox);
     m_Controls->m_ConstantRadiusBox->setChecked(parameters.m_Misc.m_CheckConstantRadiusBox);
 
     m_Controls->m_DistributionBox->setCurrentIndex(parameters.m_FiberGen.m_Distribution);
     m_Controls->m_VarianceBox->setValue(parameters.m_FiberGen.m_Variance);
     m_Controls->m_FiberDensityBox->setValue(parameters.m_FiberGen.m_Density);
     m_Controls->m_FiberSamplingBox->setValue(parameters.m_FiberGen.m_Sampling);
     m_Controls->m_TensionBox->setValue(parameters.m_FiberGen.m_Tension);
     m_Controls->m_ContinuityBox->setValue(parameters.m_FiberGen.m_Continuity);
     m_Controls->m_BiasBox->setValue(parameters.m_FiberGen.m_Bias);
     m_Controls->m_XrotBox->setValue(parameters.m_FiberGen.m_Rotation[0]);
     m_Controls->m_YrotBox->setValue(parameters.m_FiberGen.m_Rotation[1]);
     m_Controls->m_ZrotBox->setValue(parameters.m_FiberGen.m_Rotation[2]);
     m_Controls->m_XtransBox->setValue(parameters.m_FiberGen.m_Translation[0]);
     m_Controls->m_YtransBox->setValue(parameters.m_FiberGen.m_Translation[1]);
     m_Controls->m_ZtransBox->setValue(parameters.m_FiberGen.m_Translation[2]);
     m_Controls->m_XscaleBox->setValue(parameters.m_FiberGen.m_Scale[0]);
     m_Controls->m_YscaleBox->setValue(parameters.m_FiberGen.m_Scale[1]);
     m_Controls->m_ZscaleBox->setValue(parameters.m_FiberGen.m_Scale[2]);
 
     // image generation parameters
     m_Controls->m_SizeX->setValue(parameters.m_SignalGen.m_ImageRegion.GetSize(0));
     m_Controls->m_SizeY->setValue(parameters.m_SignalGen.m_ImageRegion.GetSize(1));
     m_Controls->m_SizeZ->setValue(parameters.m_SignalGen.m_ImageRegion.GetSize(2));
     m_Controls->m_SpacingX->setValue(parameters.m_SignalGen.m_ImageSpacing[0]);
     m_Controls->m_SpacingY->setValue(parameters.m_SignalGen.m_ImageSpacing[1]);
     m_Controls->m_SpacingZ->setValue(parameters.m_SignalGen.m_ImageSpacing[2]);
     m_Controls->m_NumGradientsBox->setValue(parameters.m_SignalGen.GetNumWeightedVolumes());
     m_Controls->m_BvalueBox->setValue(parameters.m_SignalGen.m_Bvalue);
     m_Controls->m_SignalScaleBox->setValue(parameters.m_SignalGen.m_SignalScale);
     m_Controls->m_TEbox->setValue(parameters.m_SignalGen.m_tEcho);
     m_Controls->m_LineReadoutTimeBox->setValue(parameters.m_SignalGen.m_tLine);
     m_Controls->m_T2starBox->setValue(parameters.m_SignalGen.m_tInhom);
     m_Controls->m_FiberRadius->setValue(parameters.m_SignalGen.m_AxonRadius);
     m_Controls->m_RelaxationBox->setChecked(parameters.m_SignalGen.m_DoSimulateRelaxation);
     m_Controls->m_EnforcePureFiberVoxelsBox->setChecked(parameters.m_SignalGen.m_DoDisablePartialVolume);
 
     if (parameters.m_NoiseModel!=NULL)
     {
         m_Controls->m_AddNoise->setChecked(parameters.m_Misc.m_CheckAddNoiseBox);
         if (dynamic_cast<mitk::RicianNoiseModel<double>*>(parameters.m_NoiseModel))
             m_Controls->m_NoiseDistributionBox->setCurrentIndex(0);
         else if (dynamic_cast<mitk::ChiSquareNoiseModel<double>*>(parameters.m_NoiseModel))
             m_Controls->m_NoiseDistributionBox->setCurrentIndex(1);
         m_Controls->m_NoiseLevel->setValue(parameters.m_NoiseModel->GetNoiseVariance());
     }
     else
         m_Controls->m_AddNoise->setChecked(false);
 
     m_Controls->m_VolumeFractionsBox->setChecked(parameters.m_Misc.m_CheckOutputVolumeFractionsBox);
     m_Controls->m_AdvancedOptionsBox_2->setChecked(parameters.m_Misc.m_CheckAdvancedSignalOptionsBox);
     m_Controls->m_AddGhosts->setChecked(parameters.m_Misc.m_CheckAddGhostsBox);
     m_Controls->m_AddAliasing->setChecked(parameters.m_Misc.m_CheckAddAliasingBox);
     m_Controls->m_AddDistortions->setChecked(parameters.m_Misc.m_CheckAddDistortionsBox);
     m_Controls->m_AddSpikes->setChecked(parameters.m_Misc.m_CheckAddSpikesBox);
     m_Controls->m_AddEddy->setChecked(parameters.m_Misc.m_CheckAddEddyCurrentsBox);
 
     m_Controls->m_kOffsetBox->setValue(parameters.m_SignalGen.m_KspaceLineOffset);
     m_Controls->m_WrapBox->setValue(100*(1-parameters.m_SignalGen.m_CroppingFactor));
     m_Controls->m_SpikeNumBox->setValue(parameters.m_SignalGen.m_Spikes);
     m_Controls->m_SpikeScaleBox->setValue(parameters.m_SignalGen.m_SpikeAmplitude);
     m_Controls->m_EddyGradientStrength->setValue(parameters.m_SignalGen.m_EddyStrength);
     m_Controls->m_AddGibbsRinging->setChecked(parameters.m_SignalGen.m_DoAddGibbsRinging);
     m_Controls->m_AddMotion->setChecked(parameters.m_SignalGen.m_DoAddMotion);
     m_Controls->m_RandomMotion->setChecked(parameters.m_SignalGen.m_DoRandomizeMotion);
     m_Controls->m_MaxTranslationBoxX->setValue(parameters.m_SignalGen.m_Translation[0]);
     m_Controls->m_MaxTranslationBoxY->setValue(parameters.m_SignalGen.m_Translation[1]);
     m_Controls->m_MaxTranslationBoxZ->setValue(parameters.m_SignalGen.m_Translation[2]);
     m_Controls->m_MaxRotationBoxX->setValue(parameters.m_SignalGen.m_Rotation[0]);
     m_Controls->m_MaxRotationBoxY->setValue(parameters.m_SignalGen.m_Rotation[1]);
     m_Controls->m_MaxRotationBoxZ->setValue(parameters.m_SignalGen.m_Rotation[2]);
     m_Controls->m_DiffusionDirectionBox->setCurrentIndex(parameters.m_SignalGen.m_DiffusionDirectionMode);
     m_Controls->m_SeparationAngleBox->setValue(parameters.m_SignalGen.m_FiberSeparationThreshold);
 
     m_Controls->m_Compartment1Box->setCurrentIndex(0);
     m_Controls->m_Compartment2Box->setCurrentIndex(0);
     m_Controls->m_Compartment3Box->setCurrentIndex(0);
     m_Controls->m_Compartment4Box->setCurrentIndex(0);
 
     for (unsigned int i=0; i<parameters.m_FiberModelList.size()+parameters.m_NonFiberModelList.size(); i++)
     {
         mitk::DiffusionSignalModel<ScalarType>* signalModel = NULL;
         if (i<parameters.m_FiberModelList.size())
             signalModel = parameters.m_FiberModelList.at(i);
         else
             signalModel = parameters.m_NonFiberModelList.at(i-parameters.m_FiberModelList.size());
 
         switch (signalModel->m_CompartmentId)
         {
         case 1:
         {
             if (dynamic_cast<mitk::StickModel<>*>(signalModel))
             {
                 mitk::StickModel<>* model = dynamic_cast<mitk::StickModel<>*>(signalModel);
                 m_Controls->m_StickWidget1->SetT2(model->GetT2());
                 m_Controls->m_StickWidget1->SetD(model->GetDiffusivity());
                 m_Controls->m_Compartment1Box->setCurrentIndex(0);
                 break;
             }
             else if (dynamic_cast<mitk::TensorModel<>*>(signalModel))
             {
                 mitk::TensorModel<>* model = dynamic_cast<mitk::TensorModel<>*>(signalModel);
                 m_Controls->m_TensorWidget1->SetT2(model->GetT2());
                 m_Controls->m_TensorWidget1->SetD1(model->GetDiffusivity1());
                 m_Controls->m_TensorWidget1->SetD2(model->GetDiffusivity2());
                 m_Controls->m_TensorWidget1->SetD3(model->GetDiffusivity3());
                 m_Controls->m_Compartment1Box->setCurrentIndex(2);
                 break;
             }
             else if (dynamic_cast<mitk::RawShModel<>*>(signalModel))
             {
                 mitk::RawShModel<>* model = dynamic_cast<mitk::RawShModel<>*>(signalModel);
                 m_Controls->m_PrototypeWidget1->SetNumberOfSamples(model->GetMaxNumKernels());
                 m_Controls->m_PrototypeWidget1->SetMinFa(model->GetFaRange().first);
                 m_Controls->m_PrototypeWidget1->SetMaxFa(model->GetFaRange().second);
                 m_Controls->m_PrototypeWidget1->SetMinAdc(model->GetAdcRange().first);
                 m_Controls->m_PrototypeWidget1->SetMaxAdc(model->GetAdcRange().second);
                 m_Controls->m_Compartment1Box->setCurrentIndex(3);
                 break;
             }
             break;
         }
         case 2:
         {
             if (dynamic_cast<mitk::StickModel<>*>(signalModel))
             {
                 mitk::StickModel<>* model = dynamic_cast<mitk::StickModel<>*>(signalModel);
                 m_Controls->m_StickWidget2->SetT2(model->GetT2());
                 m_Controls->m_StickWidget2->SetD(model->GetDiffusivity());
                 m_Controls->m_Compartment2Box->setCurrentIndex(1);
                 break;
             }
             else if (dynamic_cast<mitk::TensorModel<>*>(signalModel))
             {
                 mitk::TensorModel<>* model = dynamic_cast<mitk::TensorModel<>*>(signalModel);
                 m_Controls->m_TensorWidget2->SetT2(model->GetT2());
                 m_Controls->m_TensorWidget2->SetD1(model->GetDiffusivity1());
                 m_Controls->m_TensorWidget2->SetD2(model->GetDiffusivity2());
                 m_Controls->m_TensorWidget2->SetD3(model->GetDiffusivity3());
                 m_Controls->m_Compartment2Box->setCurrentIndex(3);
                 break;
             }
             break;
         }
         case 3:
         {
             if (dynamic_cast<mitk::BallModel<>*>(signalModel))
             {
                 mitk::BallModel<>* model = dynamic_cast<mitk::BallModel<>*>(signalModel);
                 m_Controls->m_BallWidget1->SetT2(model->GetT2());
                 m_Controls->m_BallWidget1->SetD(model->GetDiffusivity());
                 m_Controls->m_Compartment3Box->setCurrentIndex(0);
                 break;
             }
             else if (dynamic_cast<mitk::AstroStickModel<>*>(signalModel))
             {
                 mitk::AstroStickModel<>* model = dynamic_cast<mitk::AstroStickModel<>*>(signalModel);
                 m_Controls->m_AstrosticksWidget1->SetT2(model->GetT2());
                 m_Controls->m_AstrosticksWidget1->SetD(model->GetDiffusivity());
                 m_Controls->m_AstrosticksWidget1->SetRandomizeSticks(model->GetRandomizeSticks());
                 m_Controls->m_Compartment3Box->setCurrentIndex(1);
                 break;
             }
             else if (dynamic_cast<mitk::DotModel<>*>(signalModel))
             {
                 mitk::DotModel<>* model = dynamic_cast<mitk::DotModel<>*>(signalModel);
                 m_Controls->m_DotWidget1->SetT2(model->GetT2());
                 m_Controls->m_Compartment3Box->setCurrentIndex(2);
                 break;
             }
             else if (dynamic_cast<mitk::RawShModel<>*>(signalModel))
             {
                 mitk::RawShModel<>* model = dynamic_cast<mitk::RawShModel<>*>(signalModel);
                 m_Controls->m_PrototypeWidget3->SetNumberOfSamples(model->GetMaxNumKernels());
                 m_Controls->m_PrototypeWidget3->SetMinFa(model->GetFaRange().first);
                 m_Controls->m_PrototypeWidget3->SetMaxFa(model->GetFaRange().second);
                 m_Controls->m_PrototypeWidget3->SetMinAdc(model->GetAdcRange().first);
                 m_Controls->m_PrototypeWidget3->SetMaxAdc(model->GetAdcRange().second);
                 m_Controls->m_Compartment3Box->setCurrentIndex(3);
                 break;
             }
             break;
         }
         case 4:
         {
             if (dynamic_cast<mitk::BallModel<>*>(signalModel))
             {
                 mitk::BallModel<>* model = dynamic_cast<mitk::BallModel<>*>(signalModel);
                 m_Controls->m_BallWidget2->SetT2(model->GetT2());
                 m_Controls->m_BallWidget2->SetD(model->GetDiffusivity());
                 m_Controls->m_Compartment4Box->setCurrentIndex(1);
                 break;
             }
             else if (dynamic_cast<mitk::AstroStickModel<>*>(signalModel))
             {
                 mitk::AstroStickModel<>* model = dynamic_cast<mitk::AstroStickModel<>*>(signalModel);
                 m_Controls->m_AstrosticksWidget2->SetT2(model->GetT2());
                 m_Controls->m_AstrosticksWidget2->SetD(model->GetDiffusivity());
                 m_Controls->m_AstrosticksWidget2->SetRandomizeSticks(model->GetRandomizeSticks());
                 m_Controls->m_Compartment4Box->setCurrentIndex(2);
                 break;
             }
             else if (dynamic_cast<mitk::DotModel<>*>(signalModel))
             {
                 mitk::DotModel<>* model = dynamic_cast<mitk::DotModel<>*>(signalModel);
                 m_Controls->m_DotWidget2->SetT2(model->GetT2());
                 m_Controls->m_Compartment4Box->setCurrentIndex(3);
                 break;
             }
             else if (dynamic_cast<mitk::RawShModel<>*>(signalModel))
             {
                 mitk::RawShModel<>* model = dynamic_cast<mitk::RawShModel<>*>(signalModel);
                 m_Controls->m_PrototypeWidget4->SetNumberOfSamples(model->GetMaxNumKernels());
                 m_Controls->m_PrototypeWidget4->SetMinFa(model->GetFaRange().first);
                 m_Controls->m_PrototypeWidget4->SetMaxFa(model->GetFaRange().second);
                 m_Controls->m_PrototypeWidget4->SetMinAdc(model->GetAdcRange().first);
                 m_Controls->m_PrototypeWidget4->SetMaxAdc(model->GetAdcRange().second);
                 m_Controls->m_Compartment4Box->setCurrentIndex(4);
                 break;
             }
             break;
         }
         }
     }
 }
 
 void QmitkFiberfoxView::ShowAdvancedOptions(int state)
 {
     if (state)
     {
         m_Controls->m_AdvancedFiberOptionsFrame->setVisible(true);
         m_Controls->m_AdvancedSignalOptionsFrame->setVisible(true);
         m_Controls->m_AdvancedOptionsBox->setChecked(true);
         m_Controls->m_AdvancedOptionsBox_2->setChecked(true);
     }
     else
     {
         m_Controls->m_AdvancedFiberOptionsFrame->setVisible(false);
         m_Controls->m_AdvancedSignalOptionsFrame->setVisible(false);
         m_Controls->m_AdvancedOptionsBox->setChecked(false);
         m_Controls->m_AdvancedOptionsBox_2->setChecked(false);
     }
 }
 
 void QmitkFiberfoxView::Comp1ModelFrameVisibility(int index)
 {
     m_Controls->m_StickWidget1->setVisible(false);
     m_Controls->m_ZeppelinWidget1->setVisible(false);
     m_Controls->m_TensorWidget1->setVisible(false);
     m_Controls->m_PrototypeWidget1->setVisible(false);
 
     switch (index)
     {
     case 0:
         m_Controls->m_StickWidget1->setVisible(true);
         break;
     case 1:
         m_Controls->m_ZeppelinWidget1->setVisible(true);
         break;
     case 2:
         m_Controls->m_TensorWidget1->setVisible(true);
         break;
     case 3:
         m_Controls->m_PrototypeWidget1->setVisible(true);
         break;
     }
 }
 
 void QmitkFiberfoxView::Comp2ModelFrameVisibility(int index)
 {
     m_Controls->m_StickWidget2->setVisible(false);
     m_Controls->m_ZeppelinWidget2->setVisible(false);
     m_Controls->m_TensorWidget2->setVisible(false);
     m_Controls->m_Comp2FractionFrame->setVisible(false);
 
     switch (index)
     {
     case 0:
         break;
     case 1:
         m_Controls->m_StickWidget2->setVisible(true);
         m_Controls->m_Comp2FractionFrame->setVisible(true);
         break;
     case 2:
         m_Controls->m_ZeppelinWidget2->setVisible(true);
         m_Controls->m_Comp2FractionFrame->setVisible(true);
         break;
     case 3:
         m_Controls->m_TensorWidget2->setVisible(true);
         m_Controls->m_Comp2FractionFrame->setVisible(true);
         break;
     }
 }
 
 void QmitkFiberfoxView::Comp3ModelFrameVisibility(int index)
 {
     m_Controls->m_BallWidget1->setVisible(false);
     m_Controls->m_AstrosticksWidget1->setVisible(false);
     m_Controls->m_DotWidget1->setVisible(false);
     m_Controls->m_PrototypeWidget3->setVisible(false);
 
     switch (index)
     {
     case 0:
         m_Controls->m_BallWidget1->setVisible(true);
         break;
     case 1:
         m_Controls->m_AstrosticksWidget1->setVisible(true);
         break;
     case 2:
         m_Controls->m_DotWidget1->setVisible(true);
         break;
     case 3:
         m_Controls->m_PrototypeWidget3->setVisible(true);
         break;
     }
 }
 
 void QmitkFiberfoxView::Comp4ModelFrameVisibility(int index)
 {
     m_Controls->m_BallWidget2->setVisible(false);
     m_Controls->m_AstrosticksWidget2->setVisible(false);
     m_Controls->m_DotWidget2->setVisible(false);
     m_Controls->m_PrototypeWidget4->setVisible(false);
     m_Controls->m_Comp4FractionFrame->setVisible(false);
 
     switch (index)
     {
     case 0:
         break;
     case 1:
         m_Controls->m_BallWidget2->setVisible(true);
         m_Controls->m_Comp4FractionFrame->setVisible(true);
         break;
     case 2:
         m_Controls->m_AstrosticksWidget2->setVisible(true);
         m_Controls->m_Comp4FractionFrame->setVisible(true);
         break;
     case 3:
         m_Controls->m_DotWidget2->setVisible(true);
         m_Controls->m_Comp4FractionFrame->setVisible(true);
         break;
     case 4:
         m_Controls->m_PrototypeWidget4->setVisible(true);
         m_Controls->m_Comp4FractionFrame->setVisible(true);
         break;
     }
 }
 
 void QmitkFiberfoxView::OnConstantRadius(int value)
 {
     if (value>0 && m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnAddMotion(int value)
 {
     if (value>0)
         m_Controls->m_MotionArtifactFrame->setVisible(true);
     else
         m_Controls->m_MotionArtifactFrame->setVisible(false);
 }
 
 void QmitkFiberfoxView::OnAddAliasing(int value)
 {
     if (value>0)
         m_Controls->m_AliasingFrame->setVisible(true);
     else
         m_Controls->m_AliasingFrame->setVisible(false);
 }
 
 void QmitkFiberfoxView::OnAddSpikes(int value)
 {
     if (value>0)
         m_Controls->m_SpikeFrame->setVisible(true);
     else
         m_Controls->m_SpikeFrame->setVisible(false);
 }
 
 void QmitkFiberfoxView::OnAddEddy(int value)
 {
     if (value>0)
         m_Controls->m_EddyFrame->setVisible(true);
     else
         m_Controls->m_EddyFrame->setVisible(false);
 }
 
 void QmitkFiberfoxView::OnAddDistortions(int value)
 {
     if (value>0)
         m_Controls->m_DistortionsFrame->setVisible(true);
     else
         m_Controls->m_DistortionsFrame->setVisible(false);
 }
 
 void QmitkFiberfoxView::OnAddGhosts(int value)
 {
     if (value>0)
         m_Controls->m_GhostFrame->setVisible(true);
     else
         m_Controls->m_GhostFrame->setVisible(false);
 }
 
 void QmitkFiberfoxView::OnAddNoise(int value)
 {
     if (value>0)
         m_Controls->m_NoiseFrame->setVisible(true);
     else
         m_Controls->m_NoiseFrame->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)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnFiberDensityChanged(int)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnFiberSamplingChanged(double)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnTensionChanged(double)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnContinuityChanged(double)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::OnBiasChanged(double)
 {
     if (m_Controls->m_RealTimeFibers->isChecked())
         GenerateFibers();
 }
 
 void QmitkFiberfoxView::AlignOnGrid()
 {
     for (unsigned 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::FiberBundle*>(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::BaseGeometry::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(unsigned 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::BaseGeometry::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(unsigned 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::FiberBundle*>(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::BaseGeometry::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/20;
     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_SelectedImageNode.IsNull())
         return;
 
     mitk::DataStorage::SetOfObjects::ConstPointer children = GetDataStorage()->GetDerivations(m_SelectedImageNode);
 
     mitk::FiberBundle::Pointer bundle = mitk::FiberBundle::New();
     mitk::DataNode::Pointer node = mitk::DataNode::New();
     node->SetData( bundle );
     QString name = QString("Bundle_%1").arg(children->size());
     node->SetName(name.toStdString());
     m_SelectedBundles.push_back(node);
     UpdateGui();
 
     GetDataStorage()->Add(node, m_SelectedImageNode);
 }
 
 void QmitkFiberfoxView::OnDrawROI()
 {
     if (m_SelectedBundles.empty())
         OnAddBundle();
     if (m_SelectedBundles.empty())
         return;
 
     mitk::DataStorage::SetOfObjects::ConstPointer children = GetDataStorage()->GetDerivations(m_SelectedBundles.at(0));
 
     mitk::PlanarEllipse::Pointer figure = mitk::PlanarEllipse::New();
 
     mitk::DataNode::Pointer node = mitk::DataNode::New();
     node->SetData( figure );
     node->SetBoolProperty("planarfigure.3drendering", true);
     node->SetBoolProperty("planarfigure.3drendering.fill", true);
 
     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);
 
     this->DisableCrosshairNavigation();
 
     mitk::PlanarFigureInteractor::Pointer figureInteractor = dynamic_cast<mitk::PlanarFigureInteractor*>(node->GetDataInteractor().GetPointer());
     if(figureInteractor.IsNull())
     {
         figureInteractor = mitk::PlanarFigureInteractor::New();
         us::Module* planarFigureModule = us::ModuleRegistry::GetModule( "MitkPlanarFigure" );
         figureInteractor->LoadStateMachine("PlanarFigureInteraction.xml", planarFigureModule );
         figureInteractor->SetEventConfig( "PlanarFigureConfig.xml", planarFigureModule );
         figureInteractor->SetDataNode( node );
     }
 
     UpdateGui();
     GetDataStorage()->Add(node, m_SelectedBundles.at(0));
 }
 
 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::FiberBundle*>((*it)->GetData()))
                 m_SelectedBundles.push_back(*it);
 
         if (m_SelectedBundles.empty())
             return;
     }
 
     FiberfoxParameters<double> parameters; // = UpdateImageParameters<double>();
 
     for (unsigned 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);
                         ellipse->Modified();
                     }
                     else
                     {
                         v.Normalize();
                         v *= radius;
                         ellipse->SetControlPoint(1, c+v);
                         ellipse->Modified();
                     }
                 }
                 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)
         {
             parameters.m_FiberGen.m_Fiducials.push_back(fib);
             parameters.m_FiberGen.m_FlipList.push_back(flip);
         }
         else if (fib.size()>0)
             m_SelectedBundles.at(i)->SetData( mitk::FiberBundle::New() );
 
         mitk::RenderingManager::GetInstance()->RequestUpdateAll();
     }
 
     itk::FibersFromPlanarFiguresFilter::Pointer filter = itk::FibersFromPlanarFiguresFilter::New();
     filter->SetParameters(parameters.m_FiberGen);
     filter->Update();
     vector< mitk::FiberBundle::Pointer > fiberBundles = filter->GetFiberBundles();
 
     for (unsigned 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()
 {
     if (m_Controls->m_FiberBundleComboBox->GetSelectedNode().IsNull() && !mitk::DiffusionPropertyHelper::IsDiffusionWeightedImage( m_Controls->m_TemplateComboBox->GetSelectedNode()))
     {
         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::DataNode::Pointer node = mitk::DataNode::New();
         node->SetData( image );
         node->SetName("Dummy");
         unsigned int window = m_Controls->m_SizeX->value()*m_Controls->m_SizeY->value()*m_Controls->m_SizeZ->value();
         unsigned int level = window/2;
         mitk::LevelWindow lw; lw.SetLevelWindow(level, window);
         node->SetProperty( "levelwindow", mitk::LevelWindowProperty::New( lw ) );
         GetDataStorage()->Add(node);
         m_SelectedImageNode = node;
 
         mitk::BaseData::Pointer basedata = node->GetData();
         if (basedata.IsNotNull())
         {
             mitk::RenderingManager::GetInstance()->InitializeViews( basedata->GetTimeGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, true );
             mitk::RenderingManager::GetInstance()->RequestUpdateAll();
         }
         UpdateGui();
         QMessageBox::information(NULL, "Template image generated", "You have selected no fiber bundle or diffusion-weighted image, which can be used to simulate a new diffusion-weighted image. A template image with the specified geometry has been generated that can be used to draw artificial fibers (see tab 'Fiber Definition').");
     }
     else if (m_Controls->m_FiberBundleComboBox->GetSelectedNode().IsNotNull())
         SimulateImageFromFibers(m_Controls->m_FiberBundleComboBox->GetSelectedNode());
     else if ( mitk::DiffusionPropertyHelper::IsDiffusionWeightedImage( m_Controls->m_TemplateComboBox->GetSelectedNode()) )
         SimulateForExistingDwi(m_Controls->m_TemplateComboBox->GetSelectedNode());
     else
         QMessageBox::information(NULL, "No image generated", "You have selected no fiber bundle or diffusion-weighted image, which can be used to simulate a new diffusion-weighted image.");
 }
 
 void QmitkFiberfoxView::SimulateForExistingDwi(mitk::DataNode* imageNode)
 {
     bool isDiffusionImage( mitk::DiffusionPropertyHelper::IsDiffusionWeightedImage( dynamic_cast<mitk::Image *>(imageNode->GetData())) );
     if ( !isDiffusionImage )
     {
         return;
     }
 
     FiberfoxParameters<short> parameters = UpdateImageParameters<short>();
 
     if (parameters.m_NoiseModel==NULL &&
             parameters.m_SignalGen.m_Spikes==0 &&
             parameters.m_SignalGen.m_FrequencyMap.IsNull() &&
             parameters.m_SignalGen.m_KspaceLineOffset<=0.000001 &&
             !parameters.m_SignalGen.m_DoAddGibbsRinging &&
             !(parameters.m_SignalGen.m_EddyStrength>0) &&
             parameters.m_SignalGen.m_CroppingFactor>0.999)
     {
         QMessageBox::information( NULL, "Simulation cancelled", "No valid artifact enabled! Motion artifacts and relaxation effects can NOT be added to an existing diffusion weighted image.");
         return;
     }
 
     mitk::Image::Pointer diffImg = dynamic_cast<mitk::Image*>(imageNode->GetData());
 
     ItkDwiType::Pointer itkVectorImagePointer = ItkDwiType::New();
     mitk::CastToItkImage(diffImg, itkVectorImagePointer);
 
     m_ArtifactsToDwiFilter = itk::AddArtifactsToDwiImageFilter< short >::New();
     m_ArtifactsToDwiFilter->SetInput(itkVectorImagePointer);
     parameters.m_Misc.m_ParentNode = imageNode;
     m_ArtifactsToDwiFilter->SetParameters(parameters);
     m_Worker.m_FilterType = 1;
     m_Thread.start(QThread::LowestPriority);
 }
 
 void QmitkFiberfoxView::SimulateImageFromFibers(mitk::DataNode* fiberNode)
 {
     mitk::FiberBundle::Pointer fiberBundle = dynamic_cast<mitk::FiberBundle*>(fiberNode->GetData());
     if (fiberBundle->GetNumFibers()<=0)
         return;
 
     FiberfoxParameters<double> parameters = UpdateImageParameters<double>();
 
     m_TractsToDwiFilter = itk::TractsToDWIImageFilter< short >::New();
     parameters.m_Misc.m_ParentNode = fiberNode;
     if (m_Controls->m_TemplateComboBox->GetSelectedNode().IsNotNull() && mitk::DiffusionPropertyHelper::IsDiffusionWeightedImage( dynamic_cast<mitk::Image*>(m_Controls->m_TemplateComboBox->GetSelectedNode()->GetData())))
     {
         bool first = true;
         bool ok = true;
         mitk::Image::Pointer diffImg = dynamic_cast<mitk::Image*>(m_Controls->m_TemplateComboBox->GetSelectedNode()->GetData());
         itk::Image< itk::DiffusionTensor3D< double >, 3 >::Pointer tensorImage = NULL;
         const int shOrder = 2;
         typedef itk::AnalyticalDiffusionQballReconstructionImageFilter<short,short,float,shOrder,QBALL_ODFSIZE> QballFilterType;
         QballFilterType::CoefficientImageType::Pointer itkFeatureImage = NULL;
         ItkDoubleImgType::Pointer adcImage = NULL;
 
         for (unsigned int i=0; i<parameters.m_FiberModelList.size()+parameters.m_NonFiberModelList.size(); i++)
         {
             mitk::RawShModel<>* model = NULL;
             if (i<parameters.m_FiberModelList.size())
                 model = dynamic_cast<  mitk::RawShModel<>* >(parameters.m_FiberModelList.at(i));
             else
                 model = dynamic_cast<  mitk::RawShModel<>* >(parameters.m_NonFiberModelList.at(i-parameters.m_FiberModelList.size()));
 
             if (model!=0 && model->GetNumberOfKernels()<=0)
             {
                 if (first==true)
                 {
                     ItkDwiType::Pointer itkVectorImagePointer = ItkDwiType::New();
                     mitk::CastToItkImage(diffImg, itkVectorImagePointer);
 
                     typedef itk::DiffusionTensor3DReconstructionImageFilter< short, short, double > TensorReconstructionImageFilterType;
                     TensorReconstructionImageFilterType::Pointer filter = TensorReconstructionImageFilterType::New();
                     filter->SetGradientImage( static_cast<mitk::GradientDirectionsProperty*>( diffImg->GetProperty(mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str()).GetPointer() )->GetGradientDirectionsContainer(), itkVectorImagePointer );
                     filter->SetBValue( static_cast<mitk::FloatProperty*>(diffImg->GetProperty(mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str()).GetPointer() )->GetValue() );
                     filter->Update();
                     tensorImage = filter->GetOutput();
 
                     const int NumCoeffs = (shOrder*shOrder + shOrder + 2)/2 + shOrder;
                     QballFilterType::Pointer qballfilter = QballFilterType::New();
                     qballfilter->SetGradientImage( static_cast<mitk::GradientDirectionsProperty*>( diffImg->GetProperty(mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str()).GetPointer() )->GetGradientDirectionsContainer(), itkVectorImagePointer );
                     qballfilter->SetBValue( static_cast<mitk::FloatProperty*>(diffImg->GetProperty(mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str()).GetPointer() )->GetValue() );
                     qballfilter->SetLambda(0.006);
                     qballfilter->SetNormalizationMethod(QballFilterType::QBAR_RAW_SIGNAL);
                     qballfilter->Update();
                     itkFeatureImage = qballfilter->GetCoefficientImage();
 
                     itk::AdcImageFilter< short, double >::Pointer adcFilter = itk::AdcImageFilter< short, double >::New();
                     adcFilter->SetInput( itkVectorImagePointer );
                     adcFilter->SetGradientDirections( static_cast<mitk::GradientDirectionsProperty*>( diffImg->GetProperty(mitk::DiffusionPropertyHelper::GRADIENTCONTAINERPROPERTYNAME.c_str()).GetPointer() )->GetGradientDirectionsContainer() );
                     adcFilter->SetB_value( static_cast<mitk::FloatProperty*>(diffImg->GetProperty(mitk::DiffusionPropertyHelper::REFERENCEBVALUEPROPERTYNAME.c_str()).GetPointer() )->GetValue() );
                     adcFilter->Update();
                     adcImage = adcFilter->GetOutput();
                 }
                 ok = model->SampleKernels(diffImg, parameters.m_SignalGen.m_MaskImage, tensorImage, itkFeatureImage, adcImage);
                 if (!ok)
                     break;
             }
         }
 
         if (!ok)
         {
             QMessageBox::information( NULL, "Simulation cancelled", "No valid prototype signals could be sampled.");
             return;
         }
     }
     else if ( m_Controls->m_Compartment1Box->currentIndex()==3 || m_Controls->m_Compartment3Box->currentIndex()==3 || m_Controls->m_Compartment4Box->currentIndex()==4 )
     {
         QMessageBox::information( NULL, "Simulation cancelled", "Prototype signal but no diffusion-weighted image selected to sample signal from.");
         return;
     }
 
     m_TractsToDwiFilter->SetParameters(parameters);
     m_TractsToDwiFilter->SetFiberBundle(fiberBundle);
     m_Worker.m_FilterType = 0;
     m_Thread.start(QThread::LowestPriority);
 }
 
 void QmitkFiberfoxView::ApplyTransform()
 {
     vector< mitk::DataNode::Pointer > selectedBundles;
     for(unsigned 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::FiberBundle*>(fibNode->GetData()) )
                 selectedBundles.push_back(fibNode);
         }
     }
     if (selectedBundles.empty())
         selectedBundles = m_SelectedBundles2;
 
     if (!selectedBundles.empty())
     {
         for (std::vector<mitk::DataNode::Pointer>::const_iterator it = selectedBundles.begin(); it!=selectedBundles.end(); ++it)
         {
             mitk::FiberBundle::Pointer fib = dynamic_cast<mitk::FiberBundle*>((*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::BaseGeometry* 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< double, 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< double, 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< double, 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< double, 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);
 
                         pe->Modified();
                     }
                 }
             }
         }
     }
     else
     {
         for (unsigned int i=0; i<m_SelectedFiducials.size(); i++)
         {
             mitk::PlanarEllipse* pe = dynamic_cast<mitk::PlanarEllipse*>(m_SelectedFiducials.at(i)->GetData());
             mitk::BaseGeometry* 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< double, 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< double, 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< double, 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< double, 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());
             pe->Modified();
         }
         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("QmitkFiberFoxView") << "Select at least one fiber bundle!";
         return;
     }
 
     for (std::vector<mitk::DataNode::Pointer>::const_iterator it = m_SelectedBundles.begin(); 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::FiberBundle::Pointer fib = dynamic_cast<mitk::FiberBundle*>((*it)->GetData());
         mitk::FiberBundle::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 = dynamic_cast<mitk::PlanarEllipse*>(fiducialNode->GetData())->Clone();
                     mitk::DataNode::Pointer newNode = mitk::DataNode::New();
                     newNode->SetData(pe);
                     newNode->SetName(fiducialNode->GetName());
                     newNode->SetBoolProperty("planarfigure.3drendering", true);
                     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("QmitkFiberFoxView") << "Select at least two fiber bundles!";
         return;
     }
 
     std::vector<mitk::DataNode::Pointer>::const_iterator it = m_SelectedBundles.begin();
     mitk::FiberBundle::Pointer newBundle = dynamic_cast<mitk::FiberBundle*>((*it)->GetData());
     QString name("");
     name += QString((*it)->GetName().c_str());
     ++it;
     for (; it!=m_SelectedBundles.end(); ++it)
     {
         newBundle = newBundle->AddBundle(dynamic_cast<mitk::FiberBundle*>((*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_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);
 
     // Fiber generation gui
     if (m_SelectedFiducial.IsNotNull())
     {
         m_Controls->m_TransformBundlesButton->setEnabled(true);
         m_Controls->m_FlipButton->setEnabled(true);
         m_Controls->m_AlignOnGrid->setEnabled(true);
     }
 
     if (m_SelectedImageNode.IsNotNull() || !m_SelectedBundles.empty())
     {
         m_Controls->m_CircleButton->setEnabled(true);
         m_Controls->m_FiberGenMessage->setVisible(false);
     }
     if (m_SelectedImageNode.IsNotNull() && !m_SelectedBundles.empty())
         m_Controls->m_AlignOnGrid->setEnabled(true);
 
     if (!m_SelectedBundles.empty())
     {
         m_Controls->m_TransformBundlesButton->setEnabled(true);
         m_Controls->m_CopyBundlesButton->setEnabled(true);
         m_Controls->m_GenerateFibersButton->setEnabled(true);
 
         if (m_SelectedBundles.size()>1)
             m_Controls->m_JoinBundlesButton->setEnabled(true);
     }
 
     // Signal generation gui
     if (m_Controls->m_MaskComboBox->GetSelectedNode().IsNotNull() || m_Controls->m_TemplateComboBox->GetSelectedNode().IsNotNull())
     {
         m_Controls->m_GeometryMessage->setVisible(true);
         m_Controls->m_GeometryFrame->setEnabled(false);
     }
 
     if (m_Controls->m_TemplateComboBox->GetSelectedNode().IsNotNull() && mitk::DiffusionPropertyHelper::IsDiffusionWeightedImage( dynamic_cast<mitk::Image*>(m_Controls->m_TemplateComboBox->GetSelectedNode()->GetData())))
     {
         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);
     }
 }
 
 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_SelectedBundles.clear();
     m_SelectedImageNode = NULL;
 
     // iterate all selected objects, adjust warning visibility
     for( int i=0; i<nodes.size(); i++)
     {
         mitk::DataNode::Pointer node = nodes.at(i);
 
         //        bool isDiffusionImage(false);
         //        if ( node.IsNotNull() )
         //        {
         //          isDiffusionImage = mitk::DiffusionPropertyHelper::IsDiffusionWeightedImage( dynamic_cast<mitk::Image *>(node->GetData()));
         //        }
 
         //        if ( node.IsNotNull() && isDiffusionImage )
         //        {
         //            m_SelectedDWI = node;
         //            m_SelectedImage = node;
         //            m_SelectedImages.push_back(node);
         //        }
 
         if( node.IsNotNull() && dynamic_cast<mitk::Image*>(node->GetData()) )
         {
             m_SelectedImages.push_back(node);
             m_SelectedImageNode = node;
         }
         else if ( node.IsNotNull() && dynamic_cast<mitk::FiberBundle*>(node->GetData()) )
         {
             m_SelectedBundles2.push_back(node);
             if (m_Controls->m_RealTimeFibers->isChecked())
             {
                 m_SelectedBundles.push_back(node);
                 mitk::FiberBundle::Pointer newFib = dynamic_cast<mitk::FiberBundle*>(node->GetData());
                 if (newFib->GetNumFibers()!=m_Controls->m_FiberDensityBox->value())
                     GenerateFibers();
             }
             else
                 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::FiberBundle*>(pNode->GetData()) )
                     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)
 {
     mitk::DataNode* nonConstNode = const_cast<mitk::DataNode*>(node);
     std::map<mitk::DataNode*, QmitkPlanarFigureData>::iterator it = m_DataNodeToPlanarFigureData.find(nonConstNode);
 
     if (dynamic_cast<FiberBundle*>(node->GetData()))
     {
         m_SelectedBundles.clear();
         m_SelectedBundles2.clear();
     }
     else if (dynamic_cast<Image*>(node->GetData()))
         m_SelectedImages.clear();
 
     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->GetDataInteractor().GetPointer());
 
         mitk::DataNode* nonConstNode = const_cast<mitk::DataNode*>( node );
         if(figureInteractor.IsNull())
         {
             figureInteractor = mitk::PlanarFigureInteractor::New();
             us::Module* planarFigureModule = us::ModuleRegistry::GetModule( "MitkPlanarFigure" );
             figureInteractor->LoadStateMachine("PlanarFigureInteraction.xml", planarFigureModule );
             figureInteractor->SetEventConfig( "PlanarFigureConfig.xml", planarFigureModule );
             figureInteractor->SetDataNode( nonConstNode );
         }
 
         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();
 }
 
 
 void QmitkFiberfoxView::SetOutputPath()
 {
     // SELECT FOLDER DIALOG
 
     string outputPath = QFileDialog::getExistingDirectory(NULL, "Save images to...", QString(outputPath.c_str())).toStdString();
 
     if (outputPath.empty())
         m_Controls->m_SavePathEdit->setText("-");
     else
     {
         outputPath += "/";
         m_Controls->m_SavePathEdit->setText(QString(outputPath.c_str()));
     }
 }
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 ff7094fa58..6afa25f654 100755
--- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxViewControls.ui
@@ -1,3287 +1,3254 @@
 <?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>524</width>
     <height>2652</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_LoadParametersButton">
      <property name="text">
       <string>Load Parameters</string>
      </property>
      <property name="icon">
       <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
        <normaloff>:/QmitkDiffusionImaging/general_icons/upload.ico</normaloff>:/QmitkDiffusionImaging/general_icons/upload.ico</iconset>
      </property>
     </widget>
    </item>
    <item row="1" column="0">
     <widget class="QTabWidget" name="tabWidget">
      <property name="currentIndex">
-      <number>0</number>
+      <number>1</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>
             <property name="icon">
              <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
               <normaloff>:/QmitkDiffusionImaging/general_icons/right.ico</normaloff>:/QmitkDiffusionImaging/general_icons/right.ico</iconset>
             </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="5" column="0">
            <widget class="QCommandLinkButton" name="m_JoinBundlesButton">
             <property name="enabled">
              <bool>false</bool>
             </property>
             <property name="text">
              <string>Join Bundles</string>
             </property>
             <property name="icon">
              <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
               <normaloff>:/QmitkDiffusionImaging/general_icons/plus.ico</normaloff>:/QmitkDiffusionImaging/general_icons/plus.ico</iconset>
             </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="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <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="decimals">
                 <number>3</number>
                </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="decimals">
                 <number>3</number>
                </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="decimals">
                 <number>3</number>
                </property>
                <property name="minimum">
                 <double>-1000.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>1000.000000000000000</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="decimals">
                 <number>3</number>
                </property>
                <property name="minimum">
                 <double>-1000.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>1000.000000000000000</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="decimals">
                 <number>3</number>
                </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="decimals">
                 <number>3</number>
                </property>
                <property name="minimum">
                 <double>-1000.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>1000.000000000000000</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>10.000000000000000</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>10.000000000000000</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>10.000000000000000</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="4" column="0">
            <widget class="QCommandLinkButton" name="m_CopyBundlesButton">
             <property name="enabled">
              <bool>false</bool>
             </property>
             <property name="text">
              <string>Copy Bundles</string>
             </property>
             <property name="icon">
              <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
               <normaloff>:/QmitkDiffusionImaging/general_icons/copy2.ico</normaloff>:/QmitkDiffusionImaging/general_icons/copy2.ico</iconset>
             </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>
             <property name="icon">
              <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
               <normaloff>:/QmitkDiffusionImaging/general_icons/refresh.ico</normaloff>:/QmitkDiffusionImaging/general_icons/refresh.ico</iconset>
             </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="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <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="leftMargin">
                  <number>0</number>
                 </property>
                 <property name="topMargin">
                  <number>0</number>
                 </property>
                 <property name="rightMargin">
                  <number>0</number>
                 </property>
                 <property name="bottomMargin">
                  <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="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>
                 <item row="0" column="1">
                  <widget class="QDoubleSpinBox" name="m_FiberSamplingBox">
                   <property name="toolTip">
                    <string>Distance of fiber sampling points (in mm)</string>
                   </property>
                   <property name="decimals">
                    <number>1</number>
                   </property>
                   <property name="minimum">
                    <double>0.100000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>0.100000000000000</double>
                   </property>
                   <property name="value">
                    <double>1.000000000000000</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="QGridLayout" name="gridLayout_25">
                 <property name="leftMargin">
                  <number>0</number>
                 </property>
                 <property name="topMargin">
                  <number>0</number>
                 </property>
                 <property name="rightMargin">
                  <number>0</number>
                 </property>
                 <property name="bottomMargin">
                  <number>0</number>
                 </property>
                 <property name="verticalSpacing">
                  <number>6</number>
                 </property>
                 <item row="0" 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="0" 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>
             <property name="icon">
              <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
               <normaloff>:/QmitkDiffusionImaging/general_icons/right.ico</normaloff>:/QmitkDiffusionImaging/general_icons/right.ico</iconset>
             </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="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <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="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <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_AdvancedOptionsBox">
                <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="leftMargin">
            <number>0</number>
           </property>
           <property name="topMargin">
            <number>0</number>
           </property>
           <property name="rightMargin">
            <number>0</number>
           </property>
           <property name="bottomMargin">
            <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="10" column="0">
         <widget class="QGroupBox" name="groupBox_6">
          <property name="title">
           <string>Extra-axonal Compartments</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_14">
           <item row="18" column="0">
            <widget class="QFrame" name="m_Comp4FractionFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_30">
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_NoiseLabel_9">
                <property name="text">
                 <string>Volume Fraction:</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QmitkDataStorageComboBoxWithSelectNone" name="m_Comp4VolumeFraction">
                <property name="toolTip">
                 <string/>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="6" column="0">
            <widget class="QComboBox" name="m_Compartment3Box">
             <property name="toolTip">
              <string>Select signal model for extra-axonal compartment.</string>
             </property>
             <item>
              <property name="text">
               <string>Ball Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Astrosticks Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Dot Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Prototype Signal</string>
              </property>
             </item>
            </widget>
           </item>
           <item row="8" column="0">
            <widget class="QmitkAstrosticksModelParametersWidget" name="m_AstrosticksWidget1" native="true"/>
           </item>
           <item row="10" column="0">
            <widget class="QmitkPrototypeSignalParametersWidget" name="m_PrototypeWidget3" native="true"/>
           </item>
           <item row="16" column="0">
            <widget class="QmitkDotModelParametersWidget" name="m_DotWidget2" native="true"/>
           </item>
           <item row="9" column="0">
            <widget class="QmitkDotModelParametersWidget" name="m_DotWidget1" native="true"/>
           </item>
           <item row="12" column="0">
            <widget class="Line" name="line_2">
             <property name="orientation">
              <enum>Qt::Horizontal</enum>
             </property>
            </widget>
           </item>
           <item row="11" column="0">
            <widget class="QFrame" name="m_Comp3FractionFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_29">
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_NoiseLabel_8">
                <property name="text">
                 <string>Volume Fraction:</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QmitkDataStorageComboBoxWithSelectNone" name="m_Comp3VolumeFraction">
                <property name="toolTip">
                 <string>Optional! If no volume fraction map for this compartment is set, the corresponding volume fractions are calculated from the input fibers.</string>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="14" column="0">
            <widget class="QmitkBallModelParametersWidget" name="m_BallWidget2" native="true"/>
           </item>
           <item row="7" column="0">
            <widget class="QmitkBallModelParametersWidget" name="m_BallWidget1" native="true"/>
           </item>
           <item row="15" column="0">
            <widget class="QmitkAstrosticksModelParametersWidget" name="m_AstrosticksWidget2" native="true"/>
           </item>
           <item row="13" column="0">
            <widget class="QComboBox" name="m_Compartment4Box">
             <property name="toolTip">
              <string>Select signal model for extra-axonal compartment.</string>
             </property>
             <item>
              <property name="text">
               <string>--</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Ball Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Astrosticks Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Dot Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Prototype Signal</string>
              </property>
             </item>
            </widget>
           </item>
           <item row="17" column="0">
            <widget class="QmitkPrototypeSignalParametersWidget" name="m_PrototypeWidget4" native="true"/>
           </item>
          </layout>
         </widget>
        </item>
        <item row="13" 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="7" column="0">
         <widget class="QGroupBox" name="groupBox">
          <property name="title">
           <string>Image Settings</string>
          </property>
          <layout class="QGridLayout" name="gridLayout">
           <item row="6" column="0">
            <widget class="QCheckBox" name="m_AdvancedOptionsBox_2">
             <property name="text">
              <string>Advanced Options</string>
             </property>
            </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="QGridLayout" name="gridLayout_24">
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <property name="spacing">
               <number>6</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWINumDirsLabel">
                <property name="text">
                 <string>Gradient Directions:</string>
                </property>
               </widget>
              </item>
              <item row="0" 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>30</number>
                </property>
               </widget>
              </item>
              <item row="1" 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>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;b-Value&lt;span style=&quot; font-style:italic;&quot;&gt; [s/mm&lt;/span&gt;&lt;span style=&quot; font-style:italic; vertical-align:super;&quot;&gt;2&lt;/span&gt;&lt;span style=&quot; font-style:italic;&quot;&gt;]&lt;/span&gt;:&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="1" column="1">
               <widget class="QSpinBox" name="m_BvalueBox">
                <property name="toolTip">
                 <string>b-value in s/mm²</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>
             </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  geometry of selected image!</string>
             </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="QFrame" name="m_AdvancedSignalOptionsFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_23">
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <property name="horizontalSpacing">
               <number>6</number>
              </property>
+             <item row="6" column="0">
+              <widget class="QCheckBox" name="m_ReversePhaseBox">
+               <property name="toolTip">
+                <string>Output one image per compartment containing the corresponding volume fractions per voxel.</string>
+               </property>
+               <property name="text">
+                <string>Reverse Phase Encoding Direction</string>
+               </property>
+               <property name="checked">
+                <bool>false</bool>
+               </property>
+              </widget>
+             </item>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWINumDirsLabel_5">
                <property name="text">
                 <string>Signal Scale:</string>
                </property>
               </widget>
              </item>
-             <item row="4" column="1">
+             <item row="5" column="1">
               <widget class="QSpinBox" name="m_T2starBox">
                <property name="toolTip">
                 <string>Relaxation time due to magnetic field inhomogeneities (T2', 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>50</number>
                </property>
               </widget>
              </item>
-             <item row="6" column="1">
-              <widget class="QComboBox" name="m_DiffusionDirectionBox">
-               <item>
-                <property name="text">
-                 <string>Fiber tangent</string>
-                </property>
-               </item>
-               <item>
-                <property name="text">
-                 <string>Main fiber directions</string>
-                </property>
-               </item>
-               <item>
-                <property name="text">
-                 <string>Random</string>
-                </property>
-               </item>
-              </widget>
-             </item>
              <item row="10" column="0">
               <widget class="QCheckBox" name="m_VolumeFractionsBox">
                <property name="toolTip">
                 <string>Output one image per compartment containing the corresponding volume fractions per voxel.</string>
                </property>
                <property name="text">
                 <string>Output Volume Fractions</string>
                </property>
                <property name="checked">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
-             <item row="5" column="0">
+             <item row="7" column="0">
               <widget class="QLabel" name="m_TensorsToDWINumDirsLabel_4">
                <property name="text">
                 <string>Fiber Radius:</string>
                </property>
               </widget>
              </item>
-             <item row="8" column="0">
-              <widget class="QCheckBox" name="m_RelaxationBox">
-               <property name="toolTip">
-                <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; font-style:italic;&quot;&gt;TE&lt;/span&gt;, &lt;span style=&quot; font-style:italic;&quot;&gt;T&lt;/span&gt;&lt;span style=&quot; font-style:italic; vertical-align:sub;&quot;&gt;inhom&lt;/span&gt; and &lt;span style=&quot; font-style:italic;&quot;&gt;T2&lt;/span&gt; will have no effect if unchecked.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
-               </property>
-               <property name="text">
-                <string>Simulate Signal Relaxation</string>
-               </property>
-               <property name="checked">
-                <bool>true</bool>
-               </property>
-              </widget>
-             </item>
              <item row="3" column="1">
               <widget class="QDoubleSpinBox" name="m_LineReadoutTimeBox">
                <property name="toolTip">
                 <string>T2* relaxation time (in milliseconds).</string>
                </property>
                <property name="maximum">
                 <double>100.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
                <property name="value">
                 <double>1.000000000000000</double>
                </property>
               </widget>
              </item>
-             <item row="6" column="0">
-              <widget class="QLabel" name="label_3">
-               <property name="text">
-                <string>Diffusion Direction:</string>
-               </property>
-              </widget>
-             </item>
-             <item row="3" column="0">
-              <widget class="QLabel" name="m_TensorsToDWIBValueLabel_15">
+             <item row="8" column="0">
+              <widget class="QCheckBox" name="m_RelaxationBox">
                <property name="toolTip">
-                <string/>
-               </property>
-               <property name="statusTip">
-                <string/>
-               </property>
-               <property name="whatsThis">
-                <string/>
+                <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; font-style:italic;&quot;&gt;TE&lt;/span&gt;, &lt;span style=&quot; font-style:italic;&quot;&gt;T&lt;/span&gt;&lt;span style=&quot; font-style:italic; vertical-align:sub;&quot;&gt;inhom&lt;/span&gt; and &lt;span style=&quot; font-style:italic;&quot;&gt;T2&lt;/span&gt; will have no effect if unchecked.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
                </property>
                <property name="text">
-                <string>Line Readout Time:  </string>
+                <string>Simulate Signal Relaxation</string>
                </property>
-               <property name="wordWrap">
-                <bool>false</bool>
+               <property name="checked">
+                <bool>true</bool>
                </property>
               </widget>
              </item>
-             <item row="5" column="1">
+             <item row="7" column="1">
               <widget class="QSpinBox" name="m_FiberRadius">
                <property name="toolTip">
                 <string>Fiber radius used to calculate volume fractions (in µm). Set to 0 for automatic radius estimation.</string>
                </property>
                <property name="minimum">
                 <number>0</number>
                </property>
                <property name="maximum">
                 <number>1000</number>
                </property>
                <property name="value">
                 <number>0</number>
                </property>
               </widget>
              </item>
              <item row="1" column="1">
               <widget class="QSpinBox" name="m_TEbox">
                <property name="toolTip">
                 <string>TE 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>100</number>
                </property>
               </widget>
              </item>
-             <item row="9" column="0">
-              <widget class="QCheckBox" name="m_EnforcePureFiberVoxelsBox">
-               <property name="toolTip">
-                <string>Disable partial volume. Treat voxel content as fiber-only if at least one fiber is present.</string>
-               </property>
-               <property name="text">
-                <string>Disable Partial Volume Effects</string>
-               </property>
-               <property name="checked">
-                <bool>false</bool>
-               </property>
-              </widget>
-             </item>
-             <item row="7" column="0">
-              <widget class="QLabel" name="label_4">
-               <property name="text">
-                <string>Separation Angle:</string>
-               </property>
-              </widget>
-             </item>
-             <item row="1" column="0">
-              <widget class="QLabel" name="m_TensorsToDWIBValueLabel_13">
+             <item row="3" column="0">
+              <widget class="QLabel" name="m_TensorsToDWIBValueLabel_15">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
-                <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Echo Time &lt;span style=&quot; font-style:italic;&quot;&gt;TE&lt;/span&gt;:  &lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
+                <string>Dwell time:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
-             <item row="4" column="0">
-              <widget class="QLabel" name="m_TensorsToDWIBValueLabel_12">
+             <item row="9" column="0">
+              <widget class="QCheckBox" name="m_EnforcePureFiberVoxelsBox">
+               <property name="toolTip">
+                <string>Disable partial volume. Treat voxel content as fiber-only if at least one fiber is present.</string>
+               </property>
+               <property name="text">
+                <string>Disable Partial Volume Effects</string>
+               </property>
+               <property name="checked">
+                <bool>false</bool>
+               </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>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; font-style:italic;&quot;&gt;T&lt;/span&gt;&lt;span style=&quot; font-style:italic; vertical-align:sub;&quot;&gt;inhom&lt;/span&gt; Relaxation: &lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
+                <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Echo Time &lt;span style=&quot; font-style:italic;&quot;&gt;TE&lt;/span&gt;:  &lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
-             <item row="7" column="1">
-              <widget class="QDoubleSpinBox" name="m_SeparationAngleBox">
-               <property name="decimals">
-                <number>1</number>
-               </property>
-               <property name="maximum">
-                <double>90.000000000000000</double>
-               </property>
-               <property name="value">
-                <double>45.000000000000000</double>
-               </property>
-              </widget>
-             </item>
              <item row="0" column="1">
               <widget class="QSpinBox" name="m_SignalScaleBox">
                <property name="toolTip">
                 <string>TE 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>100</number>
                </property>
               </widget>
              </item>
-             <item row="2" column="0">
-              <widget class="QLabel" name="m_TensorsToDWIBValueLabel_14">
+             <item row="5" column="0">
+              <widget class="QLabel" name="m_TensorsToDWIBValueLabel_12">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
-                <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Repetition Time &lt;span style=&quot; font-style:italic;&quot;&gt;TR&lt;/span&gt;: &lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
+                <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;&lt;span style=&quot; font-style:italic;&quot;&gt;T&lt;/span&gt;&lt;span style=&quot; font-style:italic; vertical-align:sub;&quot;&gt;inhom&lt;/span&gt; Relaxation: &lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="2" column="1">
               <widget class="QSpinBox" name="m_TRbox">
                <property name="toolTip">
                 <string>TR in milliseconds</string>
                </property>
                <property name="minimum">
                 <number>1</number>
                </property>
                <property name="maximum">
                 <number>999999999</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>2000</number>
                </property>
               </widget>
              </item>
+             <item row="2" 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>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Repetition Time &lt;span style=&quot; font-style:italic;&quot;&gt;TR&lt;/span&gt;: &lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
+               </property>
+               <property name="wordWrap">
+                <bool>false</bool>
+               </property>
+              </widget>
+             </item>
             </layout>
            </widget>
           </item>
           <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="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <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>2.000000000000000</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>2.000000000000000</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>2.000000000000000</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>11</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>1000</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>11</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>1000</number>
                </property>
                <property name="singleStep">
                 <number>1</number>
                </property>
                <property name="value">
                 <number>3</number>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="9" column="0">
         <widget class="QGroupBox" name="groupBox_5">
          <property name="title">
           <string>Inter-axonal Compartment</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_17">
           <item row="0" column="0">
            <widget class="QComboBox" name="m_Compartment2Box">
             <property name="toolTip">
              <string>Select signal model for intra-axonal compartment.</string>
             </property>
             <item>
              <property name="text">
               <string>--</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Stick Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Zeppelin Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Tensor Model</string>
              </property>
             </item>
            </widget>
           </item>
           <item row="1" column="0">
            <widget class="QmitkZeppelinModelParametersWidget" name="m_ZeppelinWidget2" native="true"/>
           </item>
           <item row="2" column="0">
            <widget class="QmitkStickModelParametersWidget" name="m_StickWidget2" native="true"/>
           </item>
           <item row="3" column="0">
            <widget class="QmitkTensorModelParametersWidget" name="m_TensorWidget2" native="true"/>
           </item>
           <item row="4" column="0">
            <widget class="QmitkPrototypeSignalParametersWidget" name="m_PrototypeWidget2" native="true"/>
           </item>
           <item row="5" column="0">
            <widget class="QFrame" name="m_Comp2FractionFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_27">
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_NoiseLabel_7">
                <property name="text">
                 <string>Volume Fraction:</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QmitkDataStorageComboBoxWithSelectNone" name="m_Comp2VolumeFraction">
                <property name="toolTip">
                 <string>Optional! If no volume fraction map for this compartment is set, the corresponding volume fractions are calculated from the input fibers.</string>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="3" column="0">
         <widget class="QCommandLinkButton" name="m_AbortSimulationButton">
          <property name="enabled">
           <bool>true</bool>
          </property>
          <property name="toolTip">
           <string>Stop current simulation.</string>
          </property>
          <property name="text">
           <string>Abort Simulation</string>
          </property>
          <property name="icon">
           <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
            <normaloff>:/QmitkDiffusionImaging/general_icons/abort.ico</normaloff>:/QmitkDiffusionImaging/general_icons/abort.ico</iconset>
          </property>
         </widget>
        </item>
        <item row="0" column="0" rowspan="2">
         <widget class="QGroupBox" name="groupBox_2">
          <property name="title">
           <string>Data</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_10">
           <item row="4" column="2">
            <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="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <property name="spacing">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLineEdit" name="m_SavePathEdit">
                <property name="text">
                 <string>-</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QToolButton" name="m_OutputPathButton">
                <property name="text">
                 <string>...</string>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="2" column="2">
            <widget class="QmitkDataStorageComboBoxWithSelectNone" name="m_MaskComboBox">
             <property name="toolTip">
              <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Select a binary image to define the area of signal generation. Outside of the mask image only noise will be actively generated.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
             </property>
             <property name="sizeAdjustPolicy">
              <enum>QComboBox::AdjustToMinimumContentsLength</enum>
             </property>
            </widget>
           </item>
           <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="4" 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>Save path:</string>
             </property>
             <property name="wordWrap">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="2" column="0">
            <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="1" column="2">
            <widget class="QmitkDataStorageComboBoxWithSelectNone" name="m_FiberBundleComboBox">
             <property name="toolTip">
              <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Select a fiber bundle to generate the white matter signal from. You can either use the fiber definition tab to manually define an input fiber bundle or you can also use any existing bundle, e.g. yielded by a tractography algorithm.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
             </property>
             <property name="sizeAdjustPolicy">
              <enum>QComboBox::AdjustToMinimumContentsLength</enum>
             </property>
            </widget>
           </item>
           <item row="3" 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>Template Image:</string>
             </property>
             <property name="wordWrap">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="3" column="2">
            <widget class="QmitkDataStorageComboBoxWithSelectNone" name="m_TemplateComboBox">
             <property name="toolTip">
              <string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;The parameters for the simulation (e.g. spacing, size, diffuison-weighted gradients, b-value) are adopted from this image.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
             </property>
             <property name="sizeAdjustPolicy">
              <enum>QComboBox::AdjustToMinimumContentsLength</enum>
             </property>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
        <item row="4" column="0">
         <widget class="QTextEdit" name="m_SimulationStatusText">
          <property name="font">
           <font>
            <pointsize>8</pointsize>
           </font>
          </property>
          <property name="readOnly">
           <bool>true</bool>
          </property>
         </widget>
        </item>
        <item row="12" column="0">
         <widget class="QGroupBox" name="groupBox_3">
          <property name="title">
           <string>Noise and other Artifacts</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_6">
           <item row="20" column="0">
            <widget class="Line" name="line">
             <property name="orientation">
              <enum>Qt::Horizontal</enum>
             </property>
            </widget>
           </item>
           <item row="0" column="0">
            <widget class="QCheckBox" name="m_AddNoise">
             <property name="text">
              <string>Add Noise</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="21" column="0">
            <widget class="QCheckBox" name="m_AddGibbsRinging">
             <property name="toolTip">
              <string>Add ringing artifacts occuring at strong edges in the image.</string>
             </property>
             <property name="text">
              <string>Add Gibbs Ringing</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="10" column="0">
            <widget class="QFrame" name="m_AliasingFrame">
             <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_10">
              <property name="horizontalSpacing">
               <number>6</number>
              </property>
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_27">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Shrink FOV (%):</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QDoubleSpinBox" name="m_WrapBox">
                <property name="toolTip">
                 <string>Shrink FOV by this percentage.</string>
                </property>
                <property name="decimals">
                 <number>1</number>
                </property>
                <property name="minimum">
                 <double>0.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>90.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
                <property name="value">
                 <double>25.000000000000000</double>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="17" column="0">
            <widget class="Line" name="line_4">
             <property name="orientation">
              <enum>Qt::Horizontal</enum>
             </property>
            </widget>
           </item>
           <item row="4" column="0">
            <widget class="QFrame" name="m_SpikeFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QFormLayout" name="formLayout_9">
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_NoiseLabel_2">
                <property name="text">
                 <string>Num. Spikes:</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QSpinBox" name="m_SpikeNumBox">
                <property name="toolTip">
                 <string>The number of randomly occurring signal spikes.</string>
                </property>
                <property name="value">
                 <number>1</number>
                </property>
               </widget>
              </item>
              <item row="1" column="1">
               <widget class="QDoubleSpinBox" name="m_SpikeScaleBox">
                <property name="toolTip">
                 <string>Spike amplitude relative to the largest signal amplitude of the corresponding k-space slice.</string>
                </property>
                <property name="singleStep">
                 <double>0.100000000000000</double>
                </property>
                <property name="value">
                 <double>0.100000000000000</double>
                </property>
               </widget>
              </item>
              <item row="1" column="0">
               <widget class="QLabel" name="m_NoiseLabel_4">
                <property name="text">
                 <string>Scale:</string>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="18" column="0">
            <widget class="QCheckBox" name="m_AddEddy">
             <property name="toolTip">
              <string>!!!EXPERIMENTAL!!!</string>
             </property>
             <property name="text">
              <string>Add Eddy Current Effects</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="3" column="0">
            <widget class="QCheckBox" name="m_AddSpikes">
             <property name="text">
              <string>Add Spikes</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="1" column="0">
            <widget class="QFrame" name="m_NoiseFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QFormLayout" name="formLayout_5">
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="1" column="0">
               <widget class="QLabel" name="m_NoiseLabel">
                <property name="text">
                 <string>Variance:</string>
                </property>
               </widget>
              </item>
              <item row="1" column="1">
               <widget class="QDoubleSpinBox" name="m_NoiseLevel">
                <property name="toolTip">
                 <string>Variance of selected noise distribution.</string>
                </property>
                <property name="decimals">
                 <number>4</number>
                </property>
                <property name="minimum">
                 <double>0.000000000000000</double>
                </property>
                <property name="maximum">
                 <double>999999999.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.001000000000000</double>
                </property>
                <property name="value">
                 <double>50.000000000000000</double>
                </property>
               </widget>
              </item>
              <item row="0" column="0">
               <widget class="QLabel" name="m_NoiseLabel_5">
                <property name="text">
                 <string>Distribution:</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QComboBox" name="m_NoiseDistributionBox">
                <property name="toolTip">
                 <string>Noise distribution</string>
                </property>
                <item>
                 <property name="text">
                  <string>Rician</string>
                 </property>
                </item>
                <item>
                 <property name="text">
                  <string>Chi-squared</string>
                 </property>
                </item>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="6" column="0">
            <widget class="QCheckBox" name="m_AddGhosts">
             <property name="text">
              <string>Add N/2 Ghosts</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="13" column="0">
            <widget class="QFrame" name="m_DistortionsFrame">
             <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_7">
              <property name="horizontalSpacing">
               <number>6</number>
              </property>
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_25">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Frequency Map:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QmitkDataStorageComboBox" name="m_FrequencyMapBox">
                <property name="toolTip">
                 <string>Select image specifying the frequency inhomogeneities (in Hz).</string>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="14" column="0">
            <widget class="Line" name="line_5">
             <property name="orientation">
              <enum>Qt::Horizontal</enum>
             </property>
            </widget>
           </item>
           <item row="8" column="0">
            <widget class="Line" name="line_7">
             <property name="orientation">
              <enum>Qt::Horizontal</enum>
             </property>
            </widget>
           </item>
           <item row="11" column="0">
            <widget class="Line" name="line_6">
             <property name="orientation">
              <enum>Qt::Horizontal</enum>
             </property>
            </widget>
           </item>
           <item row="16" column="0">
            <widget class="QFrame" name="m_MotionArtifactFrame">
             <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_11">
              <property name="fieldGrowthPolicy">
               <enum>QFormLayout::AllNonFixedFieldsGrow</enum>
              </property>
              <property name="horizontalSpacing">
               <number>6</number>
              </property>
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>6</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QCheckBox" name="m_RandomMotion">
                <property name="toolTip">
                 <string>Toggle between random movement and linear movement.</string>
                </property>
                <property name="text">
                 <string>Randomize motion</string>
                </property>
                <property name="checked">
                 <bool>true</bool>
                </property>
               </widget>
              </item>
              <item row="1" column="0" colspan="2">
               <widget class="QGroupBox" name="m_RotationArtifactFrame">
                <property name="title">
                 <string>Rotation</string>
                </property>
                <layout class="QGridLayout" name="gridLayout_19">
                 <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="1" column="0">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_36">
                   <property name="toolTip">
                    <string/>
                   </property>
                   <property name="statusTip">
                    <string/>
                   </property>
                   <property name="whatsThis">
                    <string/>
                   </property>
                   <property name="text">
                    <string>Degree:</string>
                   </property>
                   <property name="wordWrap">
                    <bool>false</bool>
                   </property>
                  </widget>
                 </item>
                 <item row="0" column="1">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_29">
                   <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="0" column="0">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_28">
                   <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="1" column="1">
                  <widget class="QDoubleSpinBox" name="m_MaxRotationBoxX">
                   <property name="toolTip">
                    <string>Maximum rotation around x-axis.</string>
                   </property>
                   <property name="decimals">
                    <number>1</number>
                   </property>
                   <property name="maximum">
                    <double>360.000000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>1.000000000000000</double>
                   </property>
                   <property name="value">
                    <double>0.000000000000000</double>
                   </property>
                  </widget>
                 </item>
                 <item row="1" column="3">
                  <widget class="QDoubleSpinBox" name="m_MaxRotationBoxZ">
                   <property name="toolTip">
                    <string>Maximum rotation around z-axis.</string>
                   </property>
                   <property name="decimals">
                    <number>1</number>
                   </property>
                   <property name="maximum">
                    <double>360.000000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>1.000000000000000</double>
                   </property>
                   <property name="value">
                    <double>15.000000000000000</double>
                   </property>
                  </widget>
                 </item>
                 <item row="0" column="2">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_30">
                   <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="0" column="3">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_31">
                   <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="1" column="2">
                  <widget class="QDoubleSpinBox" name="m_MaxRotationBoxY">
                   <property name="toolTip">
                    <string>Maximum rotation around y-axis.</string>
                   </property>
                   <property name="decimals">
                    <number>1</number>
                   </property>
                   <property name="maximum">
                    <double>360.000000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>1.000000000000000</double>
                   </property>
                   <property name="value">
                    <double>0.000000000000000</double>
                   </property>
                  </widget>
                 </item>
                </layout>
               </widget>
              </item>
              <item row="2" column="0" colspan="2">
               <widget class="QGroupBox" name="m_TranslationArtifactFrame">
                <property name="title">
                 <string>Translation</string>
                </property>
                <layout class="QGridLayout" name="gridLayout_28">
                 <property name="leftMargin">
                  <number>0</number>
                 </property>
                 <property name="rightMargin">
                  <number>0</number>
                 </property>
                 <property name="bottomMargin">
                  <number>0</number>
                 </property>
                 <item row="1" column="0">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_48">
                   <property name="toolTip">
                    <string/>
                   </property>
                   <property name="statusTip">
                    <string/>
                   </property>
                   <property name="whatsThis">
                    <string/>
                   </property>
                   <property name="text">
                    <string>Distance:</string>
                   </property>
                   <property name="wordWrap">
                    <bool>false</bool>
                   </property>
                  </widget>
                 </item>
                 <item row="0" column="1">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_51">
                   <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="0" column="2">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_52">
                   <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="0" column="0">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_47">
                   <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="0" column="3">
                  <widget class="QLabel" name="m_TensorsToDWIBValueLabel_53">
                   <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="1" column="1">
                  <widget class="QDoubleSpinBox" name="m_MaxTranslationBoxX">
                   <property name="toolTip">
                    <string>Maximum translation along x-axis.</string>
                   </property>
                   <property name="decimals">
                    <number>1</number>
                   </property>
                   <property name="maximum">
                    <double>1000.000000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>1.000000000000000</double>
                   </property>
                   <property name="value">
                    <double>0.000000000000000</double>
                   </property>
                  </widget>
                 </item>
                 <item row="1" column="2">
                  <widget class="QDoubleSpinBox" name="m_MaxTranslationBoxY">
                   <property name="toolTip">
                    <string>Maximum translation along y-axis.</string>
                   </property>
                   <property name="decimals">
                    <number>1</number>
                   </property>
                   <property name="maximum">
                    <double>1000.000000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>1.000000000000000</double>
                   </property>
                   <property name="value">
                    <double>0.000000000000000</double>
                   </property>
                  </widget>
                 </item>
                 <item row="1" column="3">
                  <widget class="QDoubleSpinBox" name="m_MaxTranslationBoxZ">
                   <property name="toolTip">
                    <string>Maximum translation along z-axis.</string>
                   </property>
                   <property name="decimals">
                    <number>1</number>
                   </property>
                   <property name="maximum">
                    <double>1000.000000000000000</double>
                   </property>
                   <property name="singleStep">
                    <double>1.000000000000000</double>
                   </property>
                   <property name="value">
                    <double>0.000000000000000</double>
                   </property>
                  </widget>
                 </item>
                </layout>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="15" column="0">
            <widget class="QCheckBox" name="m_AddMotion">
             <property name="text">
              <string>Add Motion Artifacts</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="12" column="0">
            <widget class="QCheckBox" name="m_AddDistortions">
             <property name="text">
              <string>Add Distortions</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="9" column="0">
            <widget class="QCheckBox" name="m_AddAliasing">
             <property name="text">
              <string>Add Aliasing</string>
             </property>
             <property name="checked">
              <bool>false</bool>
             </property>
            </widget>
           </item>
           <item row="7" column="0">
            <widget class="QFrame" name="m_GhostFrame">
             <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_6">
              <property name="horizontalSpacing">
               <number>6</number>
              </property>
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <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>K-Space Line Offset:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QDoubleSpinBox" name="m_kOffsetBox">
                <property name="toolTip">
                 <string>A larger offset increases the inensity of the ghost image.</string>
                </property>
                <property name="decimals">
                 <number>3</number>
                </property>
                <property name="maximum">
                 <double>1.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.010000000000000</double>
                </property>
                <property name="value">
                 <double>0.250000000000000</double>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="19" column="0">
            <widget class="QFrame" name="m_EddyFrame">
             <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_8">
              <property name="fieldGrowthPolicy">
               <enum>QFormLayout::AllNonFixedFieldsGrow</enum>
              </property>
              <property name="horizontalSpacing">
               <number>6</number>
              </property>
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="1" column="0">
               <widget class="QLabel" name="m_TensorsToDWIBValueLabel_26">
                <property name="toolTip">
                 <string/>
                </property>
                <property name="statusTip">
                 <string/>
                </property>
                <property name="whatsThis">
                 <string/>
                </property>
                <property name="text">
                 <string>Magnitude:</string>
                </property>
                <property name="wordWrap">
                 <bool>false</bool>
                </property>
               </widget>
              </item>
              <item row="1" column="1">
               <widget class="QDoubleSpinBox" name="m_EddyGradientStrength">
                <property name="toolTip">
                 <string>Maximum magnitude of eddy current induced magnetic field inhomogeneities (in mT).</string>
                </property>
                <property name="decimals">
                 <number>5</number>
                </property>
                <property name="maximum">
                 <double>1000.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.001000000000000</double>
                </property>
                <property name="value">
                 <double>0.005000000000000</double>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QLabel" name="m_DiffusionPropsMessage_2">
                <property name="styleSheet">
                 <string notr="true">color: rgb(255, 0, 0);</string>
                </property>
                <property name="text">
                 <string>Experimental!</string>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
           <item row="5" column="0">
            <widget class="Line" name="line_8">
             <property name="orientation">
              <enum>Qt::Horizontal</enum>
             </property>
            </widget>
           </item>
           <item row="2" column="0">
            <widget class="Line" name="line_9">
             <property name="orientation">
              <enum>Qt::Horizontal</enum>
             </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>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Start DWI generation from selected fiber bundle.&lt;/p&gt;&lt;p&gt;If no fiber bundle but an existing diffusion weighted image is selected, the enabled artifacts are added to this image.&lt;/p&gt;&lt;p&gt;If neither a fiber bundle nor a diffusion weighted image is selected, a grayscale image containing a simple gradient is generated.&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
          </property>
          <property name="text">
           <string>Start Simulation</string>
          </property>
          <property name="icon">
           <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
            <normaloff>:/QmitkDiffusionImaging/general_icons/right.ico</normaloff>:/QmitkDiffusionImaging/general_icons/right.ico</iconset>
          </property>
         </widget>
        </item>
        <item row="8" column="0">
         <widget class="QGroupBox" name="m_IntraAxonalGroupBox">
          <property name="title">
           <string>Intra-axonal Compartment</string>
          </property>
          <layout class="QGridLayout" name="gridLayout_13">
           <item row="3" column="0">
            <widget class="QmitkTensorModelParametersWidget" name="m_TensorWidget1" native="true"/>
           </item>
           <item row="1" column="0">
            <widget class="QmitkStickModelParametersWidget" name="m_StickWidget1" native="true"/>
           </item>
           <item row="4" column="0">
            <widget class="QmitkPrototypeSignalParametersWidget" name="m_PrototypeWidget1" native="true"/>
           </item>
           <item row="0" column="0">
            <widget class="QComboBox" name="m_Compartment1Box">
             <property name="toolTip">
              <string>Select signal model for intra-axonal compartment.</string>
             </property>
             <item>
              <property name="text">
               <string>Stick Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Zeppelin Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Tensor Model</string>
              </property>
             </item>
             <item>
              <property name="text">
               <string>Prototype Signal</string>
              </property>
             </item>
            </widget>
           </item>
           <item row="2" column="0">
            <widget class="QmitkZeppelinModelParametersWidget" name="m_ZeppelinWidget1" native="true"/>
           </item>
           <item row="5" column="0">
            <widget class="QFrame" name="m_Comp1FractionFrame">
             <property name="frameShape">
              <enum>QFrame::NoFrame</enum>
             </property>
             <property name="frameShadow">
              <enum>QFrame::Raised</enum>
             </property>
             <layout class="QGridLayout" name="gridLayout_26">
              <property name="leftMargin">
               <number>0</number>
              </property>
              <property name="topMargin">
               <number>0</number>
              </property>
              <property name="rightMargin">
               <number>0</number>
              </property>
              <property name="bottomMargin">
               <number>0</number>
              </property>
              <item row="0" column="0">
               <widget class="QLabel" name="m_NoiseLabel_6">
                <property name="text">
                 <string>Volume Fraction:</string>
                </property>
               </widget>
              </item>
              <item row="0" column="1">
               <widget class="QmitkDataStorageComboBoxWithSelectNone" name="m_Comp1VolumeFraction">
                <property name="toolTip">
                 <string>Optional! If no volume fraction map for this compartment is set, the corresponding volume fractions are calculated from the input fibers.</string>
                </property>
               </widget>
              </item>
             </layout>
            </widget>
           </item>
          </layout>
         </widget>
        </item>
       </layout>
      </widget>
     </widget>
    </item>
    <item row="2" column="0">
     <widget class="QCommandLinkButton" name="m_SaveParametersButton">
      <property name="text">
       <string>Save Parameters</string>
      </property>
      <property name="icon">
       <iconset resource="../../resources/QmitkDiffusionImaging.qrc">
        <normaloff>:/QmitkDiffusionImaging/general_icons/download.ico</normaloff>:/QmitkDiffusionImaging/general_icons/download.ico</iconset>
      </property>
     </widget>
    </item>
   </layout>
  </widget>
  <customwidgets>
   <customwidget>
    <class>QmitkDataStorageComboBox</class>
    <extends>QComboBox</extends>
    <header location="global">QmitkDataStorageComboBox.h</header>
   </customwidget>
   <customwidget>
    <class>QmitkTensorModelParametersWidget</class>
    <extends>QWidget</extends>
    <header location="global">QmitkTensorModelParametersWidget.h</header>
    <container>1</container>
   </customwidget>
   <customwidget>
    <class>QmitkStickModelParametersWidget</class>
    <extends>QWidget</extends>
    <header location="global">QmitkStickModelParametersWidget.h</header>
    <container>1</container>
   </customwidget>
   <customwidget>
    <class>QmitkZeppelinModelParametersWidget</class>
    <extends>QWidget</extends>
    <header location="global">QmitkZeppelinModelParametersWidget.h</header>
    <container>1</container>
   </customwidget>
   <customwidget>
    <class>QmitkBallModelParametersWidget</class>
    <extends>QWidget</extends>
    <header location="global">QmitkBallModelParametersWidget.h</header>
    <container>1</container>
   </customwidget>
   <customwidget>
    <class>QmitkAstrosticksModelParametersWidget</class>
    <extends>QWidget</extends>
    <header location="global">QmitkAstrosticksModelParametersWidget.h</header>
    <container>1</container>
   </customwidget>
   <customwidget>
    <class>QmitkDotModelParametersWidget</class>
    <extends>QWidget</extends>
    <header>QmitkDotModelParametersWidget.h</header>
    <container>1</container>
   </customwidget>
   <customwidget>
    <class>QmitkPrototypeSignalParametersWidget</class>
    <extends>QWidget</extends>
    <header>QmitkPrototypeSignalParametersWidget.h</header>
    <container>1</container>
   </customwidget>
   <customwidget>
    <class>QmitkDataStorageComboBoxWithSelectNone</class>
    <extends>QComboBox</extends>
    <header location="global">QmitkDataStorageComboBoxWithSelectNone.h</header>
   </customwidget>
  </customwidgets>
  <tabstops>
   <tabstop>m_CircleButton</tabstop>
   <tabstop>m_FlipButton</tabstop>
   <tabstop>m_RealTimeFibers</tabstop>
   <tabstop>m_AdvancedOptionsBox</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_AdvancedOptionsBox_2</tabstop>
   <tabstop>m_SignalScaleBox</tabstop>
   <tabstop>m_TEbox</tabstop>
   <tabstop>m_LineReadoutTimeBox</tabstop>
   <tabstop>m_T2starBox</tabstop>
   <tabstop>m_FiberRadius</tabstop>
   <tabstop>m_RelaxationBox</tabstop>
   <tabstop>m_EnforcePureFiberVoxelsBox</tabstop>
   <tabstop>m_VolumeFractionsBox</tabstop>
   <tabstop>m_Compartment1Box</tabstop>
   <tabstop>m_Compartment2Box</tabstop>
   <tabstop>m_Compartment3Box</tabstop>
   <tabstop>m_Compartment4Box</tabstop>
   <tabstop>m_AddNoise</tabstop>
   <tabstop>m_NoiseLevel</tabstop>
   <tabstop>m_AddSpikes</tabstop>
   <tabstop>m_SpikeNumBox</tabstop>
   <tabstop>m_SpikeScaleBox</tabstop>
   <tabstop>m_AddGhosts</tabstop>
   <tabstop>m_kOffsetBox</tabstop>
   <tabstop>m_AddAliasing</tabstop>
   <tabstop>m_WrapBox</tabstop>
   <tabstop>m_AddDistortions</tabstop>
   <tabstop>m_FrequencyMapBox</tabstop>
   <tabstop>m_AddMotion</tabstop>
   <tabstop>m_RandomMotion</tabstop>
   <tabstop>m_MaxRotationBoxX</tabstop>
   <tabstop>m_MaxRotationBoxY</tabstop>
   <tabstop>m_MaxRotationBoxZ</tabstop>
   <tabstop>m_MaxTranslationBoxX</tabstop>
   <tabstop>m_MaxTranslationBoxY</tabstop>
   <tabstop>m_MaxTranslationBoxZ</tabstop>
   <tabstop>m_AddEddy</tabstop>
   <tabstop>m_EddyGradientStrength</tabstop>
   <tabstop>m_AddGibbsRinging</tabstop>
   <tabstop>m_SaveParametersButton</tabstop>
   <tabstop>m_LoadParametersButton</tabstop>
   <tabstop>tabWidget</tabstop>
  </tabstops>
  <resources>
   <include location="../../resources/QmitkDiffusionImaging.qrc"/>
  </resources>
  <connections/>
 </ui>