diff --git a/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingView.cpp b/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingView.cpp
index 9bc572b245..2fb58fb9cb 100644
--- a/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingView.cpp
+++ b/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingView.cpp
@@ -1,1144 +1,1212 @@
 /*===================================================================
 
 The Medical Imaging Interaction Toolkit (MITK)
 
 Copyright (c) German Cancer Research Center,
 Division of Medical and Biological Informatics.
 All rights reserved.
 
 This software is distributed WITHOUT ANY WARRANTY; without
 even the implied warranty of MERCHANTABILITY or FITNESS FOR
 A PARTICULAR PURPOSE.
 
 See LICENSE.txt or http://www.mitk.org for details.
 
 ===================================================================*/
 
 #include "QmitkBasicImageProcessingView.h"
 
 // QT includes (GUI)
 #include <qlabel.h>
 #include <qspinbox.h>
 #include <qpushbutton.h>
 #include <qcheckbox.h>
 #include <qgroupbox.h>
 #include <qradiobutton.h>
 #include <qmessagebox.h>
 
 // Berry includes (selection service)
 #include <berryISelectionService.h>
 #include <berryIWorkbenchWindow.h>
 
 // MITK includes (GUI)
 #include "QmitkStdMultiWidget.h"
 #include "QmitkDataNodeSelectionProvider.h"
 #include "mitkDataNodeObject.h"
 
 // MITK includes (general)
 #include "mitkNodePredicateDataType.h"
 #include "mitkNodePredicateDimension.h"
 #include "mitkNodePredicateAnd.h"
 #include "mitkImageTimeSelector.h"
 #include "mitkVectorImageMapper2D.h"
 #include "mitkProperties.h"
 
 // Includes for image casting between ITK and MITK
 #include "mitkImageCast.h"
 #include "mitkITKImageImport.h"
 
 // ITK includes (general)
 #include <itkVectorImage.h>
 #include <itkImageFileWriter.h>
 
 // Morphological Operations
 #include <itkBinaryBallStructuringElement.h>
 #include <itkGrayscaleDilateImageFilter.h>
 #include <itkGrayscaleErodeImageFilter.h>
 #include <itkGrayscaleMorphologicalOpeningImageFilter.h>
 #include <itkGrayscaleMorphologicalClosingImageFilter.h>
 
 // Smoothing
 #include <itkMedianImageFilter.h>
 #include <itkDiscreteGaussianImageFilter.h>
 #include <itkTotalVariationDenoisingImageFilter.h>
 
 // Threshold
 #include <itkBinaryThresholdImageFilter.h>
 
 // Inversion
 #include <itkInvertIntensityImageFilter.h>
 
 // Derivatives
 #include <itkGradientMagnitudeRecursiveGaussianImageFilter.h>
 #include <itkLaplacianImageFilter.h>
 #include <itkSobelEdgeDetectionImageFilter.h>
 
 // Resampling
 #include <itkResampleImageFilter.h>
 #include <itkNearestNeighborInterpolateImageFunction.h>
 #include <itkCastImageFilter.h>
 
 // Image Arithmetics
 #include <itkAddImageFilter.h>
 #include <itkSubtractImageFilter.h>
 #include <itkMultiplyImageFilter.h>
 #include <itkDivideImageFilter.h>
 
 // Boolean operations
 #include <itkOrImageFilter.h>
 #include <itkAndImageFilter.h>
 #include <itkXorImageFilter.h>
 
 // Flip Image
 #include <itkFlipImageFilter.h>
 
 
 // Convenient Definitions
 typedef itk::Image<short, 3>                                                            ImageType;
 typedef itk::Image<unsigned char, 3>                                                    SegmentationImageType;
 typedef itk::Image<double, 3>                                                           FloatImageType;
 typedef itk::Image<itk::Vector<float,3>, 3>                                             VectorImageType;
 
 typedef itk::BinaryBallStructuringElement<ImageType::PixelType, 3>                      BallType;
 typedef itk::GrayscaleDilateImageFilter<ImageType, ImageType, BallType>                 DilationFilterType;
 typedef itk::GrayscaleErodeImageFilter<ImageType, ImageType, BallType>                  ErosionFilterType;
 typedef itk::GrayscaleMorphologicalOpeningImageFilter<ImageType, ImageType, BallType>   OpeningFilterType;
 typedef itk::GrayscaleMorphologicalClosingImageFilter<ImageType, ImageType, BallType>   ClosingFilterType;
 
 typedef itk::MedianImageFilter< ImageType, ImageType >                                  MedianFilterType;
 typedef itk::DiscreteGaussianImageFilter< ImageType, ImageType>                         GaussianFilterType;
 typedef itk::TotalVariationDenoisingImageFilter<FloatImageType, FloatImageType>         TotalVariationFilterType;
 typedef itk::TotalVariationDenoisingImageFilter<VectorImageType, VectorImageType>       VectorTotalVariationFilterType;
 
 typedef itk::BinaryThresholdImageFilter< ImageType, ImageType >                         ThresholdFilterType;
 typedef itk::InvertIntensityImageFilter< ImageType, ImageType >                         InversionFilterType;
 
 typedef itk::GradientMagnitudeRecursiveGaussianImageFilter< ImageType, ImageType >      GradientFilterType;
 typedef itk::LaplacianImageFilter< FloatImageType, FloatImageType >                     LaplacianFilterType;
 typedef itk::SobelEdgeDetectionImageFilter< FloatImageType, FloatImageType >            SobelFilterType;
 
 typedef itk::ResampleImageFilter< ImageType, ImageType >                                ResampleImageFilterType;
 typedef itk::ResampleImageFilter< ImageType, ImageType >                                ResampleImageFilterType2;
 typedef itk::CastImageFilter< ImageType, FloatImageType >                               ImagePTypeToFloatPTypeCasterType;
 
 typedef itk::AddImageFilter< ImageType, ImageType, ImageType >                          AddFilterType;
 typedef itk::SubtractImageFilter< ImageType, ImageType, ImageType >                     SubtractFilterType;
 typedef itk::MultiplyImageFilter< ImageType, ImageType, ImageType >                     MultiplyFilterType;
 typedef itk::DivideImageFilter< ImageType, ImageType, FloatImageType >                  DivideFilterType;
 
 typedef itk::OrImageFilter< ImageType, ImageType >                                      OrImageFilterType;
 typedef itk::AndImageFilter< ImageType, ImageType >                                     AndImageFilterType;
 typedef itk::XorImageFilter< ImageType, ImageType >                                     XorImageFilterType;
 
 typedef itk::FlipImageFilter< ImageType >                                               FlipImageFilterType;
 
 
 QmitkBasicImageProcessing::QmitkBasicImageProcessing()
 : QmitkFunctionality(),
   m_Controls(NULL),
   m_SelectedImageNode(NULL),
   m_TimeStepperAdapter(NULL),
   m_SelectionListener(NULL)
 {
 }
 
 QmitkBasicImageProcessing::~QmitkBasicImageProcessing()
 {
   //berry::ISelectionService* s = GetSite()->GetWorkbenchWindow()->GetSelectionService();
   //if(s)
   //  s->RemoveSelectionListener(m_SelectionListener);
 }
 
 void QmitkBasicImageProcessing::CreateQtPartControl(QWidget *parent)
 {
   if (m_Controls == NULL)
   {
     m_Controls = new Ui::QmitkBasicImageProcessingViewControls;
     m_Controls->setupUi(parent);
     this->CreateConnections();
 
 
     //setup predictaes for combobox
 
     mitk::NodePredicateDimension::Pointer dimensionPredicate = mitk::NodePredicateDimension::New(3);
     mitk::NodePredicateDataType::Pointer imagePredicate = mitk::NodePredicateDataType::New("Image");
     m_Controls->m_ImageSelector2->SetDataStorage(this->GetDefaultDataStorage());
     m_Controls->m_ImageSelector2->SetPredicate(mitk::NodePredicateAnd::New(dimensionPredicate, imagePredicate));
   }
   m_Controls->gbTwoImageOps->hide();
 
   m_SelectedImageNode = mitk::DataStorageSelection::New(this->GetDefaultDataStorage(), false);
 }
 
 void QmitkBasicImageProcessing::CreateConnections()
 {
   if ( m_Controls )
   {
     connect( (QObject*)(m_Controls->cbWhat1), SIGNAL( activated(int) ), this, SLOT( SelectAction(int) ) );
     connect( (QObject*)(m_Controls->btnDoIt), SIGNAL(clicked()),(QObject*) this, SLOT(StartButtonClicked()));
 
     connect( (QObject*)(m_Controls->cbWhat2), SIGNAL( activated(int) ), this, SLOT( SelectAction2(int) ) );
     connect( (QObject*)(m_Controls->btnDoIt2), SIGNAL(clicked()),(QObject*) this, SLOT(StartButton2Clicked()));
 
     connect( (QObject*)(m_Controls->rBOneImOp), SIGNAL( clicked() ), this, SLOT( ChangeGUI() ) );
     connect( (QObject*)(m_Controls->rBTwoImOp), SIGNAL( clicked() ), this, SLOT( ChangeGUI() ) );
   }
 
   m_TimeStepperAdapter = new QmitkStepperAdapter((QObject*) m_Controls->sliceNavigatorTime,
     GetActiveStdMultiWidget()->GetTimeNavigationController()->GetTime(), "sliceNavigatorTimeFromBIP");
 }
 
 void QmitkBasicImageProcessing::Activated()
 {
   QmitkFunctionality::Activated();
 
   this->m_Controls->cbWhat1->clear();
   this->m_Controls->cbWhat1->insertItem( NOACTIONSELECTED, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Please select operation", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( CATEGORY_DENOISING, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "--- Denoising ---", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( GAUSSIAN, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Gaussian", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( MEDIAN, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Median", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( TOTALVARIATION, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Total Variation", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( CATEGORY_MORPHOLOGICAL, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "--- Morphological ---", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( DILATION, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Dilation", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( EROSION, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Erosion", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( OPENING, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Opening", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( CLOSING, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Closing", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( CATEGORY_EDGE_DETECTION, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "--- Edge Detection ---", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( GRADIENT, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Gradient", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( LAPLACIAN, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Laplacian (2nd Derivative)", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( SOBEL, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Sobel Operator", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( CATEGORY_MISC, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "--- Misc ---", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( THRESHOLD, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Threshold", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( INVERSION, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Image Inversion", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( DOWNSAMPLING, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Downsampling", 0, QApplication::UnicodeUTF8) ));
   this->m_Controls->cbWhat1->insertItem( FLIPPING, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Flipping", 0, QApplication::UnicodeUTF8) ));
+  this->m_Controls->cbWhat1->insertItem( RESAMPLING, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Resample to", 0, QApplication::UnicodeUTF8) ));
 
   this->m_Controls->cbWhat2->clear();
   this->m_Controls->cbWhat2->insertItem( TWOIMAGESNOACTIONSELECTED, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Please select on operation", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( CATEGORY_ARITHMETIC, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "--- Arithmetric operations ---", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( ADD, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Add to Image 1:", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( SUBTRACT, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Subtract from Image 1:", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( MULTIPLY, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Multiply with Image 1:", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( RESAMPLE_TO, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Resample Image 1 to fit geometry:", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( DIVIDE, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "Divide Image 1 by:", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( CATEGORY_BOOLEAN, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "--- Boolean operations ---", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( AND, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "AND", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( OR, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "OR", 0, QApplication::UnicodeUTF8) ) );
   this->m_Controls->cbWhat2->insertItem( XOR, QString( QApplication::translate("QmitkBasicImageProcessingViewControls", "XOR", 0, QApplication::UnicodeUTF8) ) );
 
 }
 
 //datamanager selection changed
 void QmitkBasicImageProcessing::OnSelectionChanged(std::vector<mitk::DataNode*> nodes)
 {
+  m_Controls->dsbParam1->hide();
+  m_Controls->dsbParam2->hide();
+  m_Controls->dsbParam3->hide();
+  m_Controls->tlParam3->hide();
+  m_Controls->tlParam4->hide();
+  m_Controls->sbParam1->show();
+  m_Controls->sbParam2->show();
+  m_Controls->cobParam4->hide();
   //any nodes there?
   if (!nodes.empty())
   {
   // reset GUI
 //  this->ResetOneImageOpPanel();
   m_Controls->sliceNavigatorTime->setEnabled(false);
   m_Controls->leImage1->setText("Select an Image in Data Manager");
   m_Controls->tlWhat1->setEnabled(false);
   m_Controls->cbWhat1->setEnabled(false);
   m_Controls->tlWhat2->setEnabled(false);
   m_Controls->cbWhat2->setEnabled(false);
 
   m_SelectedImageNode->RemoveAllNodes();
   //get the selected Node
   mitk::DataNode* _DataNode = nodes.front();
   *m_SelectedImageNode = _DataNode;
   //try to cast to image
   mitk::Image::Pointer tempImage = dynamic_cast<mitk::Image*>(m_SelectedImageNode->GetNode()->GetData());
 
     //no image
     if( tempImage.IsNull() || (tempImage->IsInitialized() == false) )
     {
       m_Controls->leImage1->setText("Not an image.");
       return;
     }
 
     //2D image
     if( tempImage->GetDimension() < 3)
     {
       m_Controls->leImage1->setText("2D images are not supported.");
       return;
     }
 
     //image
     m_Controls->leImage1->setText(QString(m_SelectedImageNode->GetNode()->GetName().c_str()));
 
     // button coding
     if ( tempImage->GetDimension() > 3 )
     {
       m_Controls->sliceNavigatorTime->setEnabled(true);
       m_Controls->tlTime->setEnabled(true);
     }
     m_Controls->tlWhat1->setEnabled(true);
     m_Controls->cbWhat1->setEnabled(true);
     m_Controls->tlWhat2->setEnabled(true);
     m_Controls->cbWhat2->setEnabled(true);
   }
 }
 
 void QmitkBasicImageProcessing::ChangeGUI()
 {
   if(m_Controls->rBOneImOp->isChecked())
   {
     m_Controls->gbTwoImageOps->hide();
     m_Controls->gbOneImageOps->show();
   }
   else if(m_Controls->rBTwoImOp->isChecked())
   {
     m_Controls->gbOneImageOps->hide();
     m_Controls->gbTwoImageOps->show();
   }
 }
 
 void QmitkBasicImageProcessing::ResetOneImageOpPanel()
 {
   m_Controls->tlParam1->setText("Param1");
   m_Controls->tlParam2->setText("Param2");
 
   m_Controls->cbWhat1->setCurrentIndex(0);
 
   m_Controls->tlTime->setEnabled(false);
 
   this->ResetParameterPanel();
 
   m_Controls->btnDoIt->setEnabled(false);
   m_Controls->cbHideOrig->setEnabled(false);
 }
 
 void QmitkBasicImageProcessing::ResetParameterPanel()
 {
   m_Controls->tlParam->setEnabled(false);
   m_Controls->tlParam1->setEnabled(false);
   m_Controls->tlParam2->setEnabled(false);
+  m_Controls->tlParam3->setEnabled(false);
+  m_Controls->tlParam4->setEnabled(false);
 
   m_Controls->sbParam1->setEnabled(false);
   m_Controls->sbParam2->setEnabled(false);
+  m_Controls->dsbParam1->setEnabled(false);
+  m_Controls->dsbParam2->setEnabled(false);
+  m_Controls->dsbParam3->setEnabled(false);
+  m_Controls->cobParam4->setEnabled(false);
   m_Controls->sbParam1->setValue(0);
   m_Controls->sbParam2->setValue(0);
+  m_Controls->dsbParam1->setValue(0);
+  m_Controls->dsbParam2->setValue(0);
+  m_Controls->dsbParam3->setValue(0);
+
+  m_Controls->sbParam1->show();
+  m_Controls->sbParam2->show();
+  m_Controls->dsbParam1->hide();
+  m_Controls->dsbParam2->hide();
+  m_Controls->dsbParam3->hide();
+  m_Controls->cobParam4->hide();
+  m_Controls->tlParam3->hide();
+  m_Controls->tlParam4->hide();
 }
 
 void QmitkBasicImageProcessing::ResetTwoImageOpPanel()
 {
   m_Controls->cbWhat2->setCurrentIndex(0);
 
   m_Controls->tlImage2->setEnabled(false);
   m_Controls->m_ImageSelector2->setEnabled(false);
 
   m_Controls->btnDoIt2->setEnabled(false);
 }
 
 void QmitkBasicImageProcessing::SelectAction(int action)
 {
   if ( ! m_SelectedImageNode->GetNode() ) return;
 
   // Prepare GUI
   this->ResetParameterPanel();
   m_Controls->btnDoIt->setEnabled(false);
   m_Controls->cbHideOrig->setEnabled(false);
 
   QString text1 = "No Parameters";
   QString text2 = "No Parameters";
+  QString text3 = "No Parameters";
+  QString text4 = "No Parameters";
 
   // check which operation the user has selected and set parameters and GUI accordingly
   switch (action)
   {
   case 2:
     {
       m_SelectedAction = GAUSSIAN;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       text1 = "&Variance:";
 
       m_Controls->sbParam1->setMinimum( 0 );
       m_Controls->sbParam1->setMaximum( 200 );
       m_Controls->sbParam1->setValue( 2 );
       break;
     }
 
   case 3:
     {
       m_SelectedAction = MEDIAN;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       text1 = "&Radius:";
       m_Controls->sbParam1->setMinimum( 0 );
       m_Controls->sbParam1->setMaximum( 200 );
       m_Controls->sbParam1->setValue( 3 );
       break;
     }
 
   case 4:
     {
       m_SelectedAction = TOTALVARIATION;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       m_Controls->tlParam2->setEnabled(true);
       m_Controls->sbParam2->setEnabled(true);
       text1 = "Number Iterations:";
       text2 = "Regularization\n(Lambda/1000):";
       m_Controls->sbParam1->setMinimum( 1 );
       m_Controls->sbParam1->setMaximum( 1000 );
       m_Controls->sbParam1->setValue( 40 );
       m_Controls->sbParam2->setMinimum( 0 );
       m_Controls->sbParam2->setMaximum( 100000 );
       m_Controls->sbParam2->setValue( 1 );
       break;
     }
 
   case 6:
     {
       m_SelectedAction = DILATION;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       text1 = "&Radius:";
       m_Controls->sbParam1->setMinimum( 0 );
       m_Controls->sbParam1->setMaximum( 200 );
       m_Controls->sbParam1->setValue( 3 );
       break;
     }
 
   case 7:
     {
       m_SelectedAction = EROSION;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       text1 = "&Radius:";
       m_Controls->sbParam1->setMinimum( 0 );
       m_Controls->sbParam1->setMaximum( 200 );
       m_Controls->sbParam1->setValue( 3 );
       break;
     }
 
   case 8:
     {
       m_SelectedAction = OPENING;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       text1 = "&Radius:";
       m_Controls->sbParam1->setMinimum( 0 );
       m_Controls->sbParam1->setMaximum( 200 );
       m_Controls->sbParam1->setValue( 3 );
       break;
     }
 
   case 9:
     {
       m_SelectedAction = CLOSING;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       text1 = "&Radius:";
       m_Controls->sbParam1->setMinimum( 0 );
       m_Controls->sbParam1->setMaximum( 200 );
       m_Controls->sbParam1->setValue( 3 );
       break;
     }
 
   case 11:
     {
       m_SelectedAction = GRADIENT;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       text1 = "Sigma of Gaussian Kernel:\n(in Image Spacing Units)";
       m_Controls->sbParam1->setMinimum( 0 );
       m_Controls->sbParam1->setMaximum( 200 );
       m_Controls->sbParam1->setValue( 2 );
       break;
     }
 
   case 12:
     {
       m_SelectedAction = LAPLACIAN;
       break;
     }
 
   case 13:
     {
       m_SelectedAction = SOBEL;
       break;
     }
 
   case 15:
     {
       m_SelectedAction = THRESHOLD;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       m_Controls->tlParam2->setEnabled(true);
       m_Controls->sbParam2->setEnabled(true);
       text1 = "Lower threshold:";
       text2 = "Upper threshold:";
       m_Controls->sbParam1->setMinimum( -100000 );
       m_Controls->sbParam1->setMaximum( 100000 );
       m_Controls->sbParam1->setValue( 0 );
       m_Controls->sbParam2->setMinimum( -100000 );
       m_Controls->sbParam2->setMaximum( 100000 );
       m_Controls->sbParam2->setValue( 300 );
       break;
     }
 
   case 16:
     {
       m_SelectedAction = INVERSION;
       break;
     }
 
   case 17:
     {
       m_SelectedAction = DOWNSAMPLING;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       text1 = "Downsampling by Factor:";
       m_Controls->sbParam1->setMinimum( 1 );
       m_Controls->sbParam1->setMaximum( 100 );
       m_Controls->sbParam1->setValue( 2 );
       break;
     }
 
   case 18:
     {
       m_SelectedAction = FLIPPING;
       m_Controls->tlParam1->setEnabled(true);
       m_Controls->sbParam1->setEnabled(true);
       text1 = "Flip across axis:";
       m_Controls->sbParam1->setMinimum( 0 );
       m_Controls->sbParam1->setMaximum( 2 );
       m_Controls->sbParam1->setValue( 1 );
       break;
     }
 
+  case 19:
+    {
+      m_SelectedAction = RESAMPLING;
+      m_Controls->tlParam1->setEnabled(true);
+      m_Controls->sbParam1->setEnabled(false);
+      m_Controls->sbParam1->hide();
+      m_Controls->dsbParam1->show();
+      m_Controls->dsbParam1->setEnabled(true);
+      m_Controls->tlParam2->setEnabled(true);
+      m_Controls->sbParam2->setEnabled(false);
+      m_Controls->sbParam2->hide();
+      m_Controls->dsbParam2->show();
+      m_Controls->dsbParam2->setEnabled(true);
+      m_Controls->tlParam3->show();
+      m_Controls->tlParam3->setEnabled(true);
+      m_Controls->dsbParam3->show();
+      m_Controls->dsbParam3->setEnabled(true);
+      m_Controls->tlParam4->show();
+      m_Controls->tlParam4->setEnabled(true);
+      m_Controls->cobParam4->show();
+      m_Controls->cobParam4->setEnabled(true);
+
+      text1 = "x-spacing:";
+      text2 = "y-spacing:";
+      text3 = "z-spacing:";
+      text4 = "Interplation:";
+      break;
+    }
+
   default: return;
   }
 
   m_Controls->tlParam->setEnabled(true);
   m_Controls->tlParam1->setText(text1);
   m_Controls->tlParam2->setText(text2);
+  m_Controls->tlParam3->setText(text3);
+  m_Controls->tlParam4->setText(text4);
 
   m_Controls->btnDoIt->setEnabled(true);
   m_Controls->cbHideOrig->setEnabled(true);
 }
 
 void QmitkBasicImageProcessing::StartButtonClicked()
 {
   if(!m_SelectedImageNode->GetNode()) return;
 
   this->BusyCursorOn();
 
   mitk::Image::Pointer newImage;
 
   try
   {
     newImage = dynamic_cast<mitk::Image*>(m_SelectedImageNode->GetNode()->GetData());
   }
   catch ( std::exception &e )
   {
   QString exceptionString = "An error occured during image loading:\n";
   exceptionString.append( e.what() );
     QMessageBox::warning( NULL, "Basic Image Processing", exceptionString , QMessageBox::Ok, QMessageBox::NoButton );
     this->BusyCursorOff();
     return;
   }
 
   // check if input image is valid, casting does not throw exception when casting from 'NULL-Object'
   if ( (! newImage) || (newImage->IsInitialized() == false) )
   {
     this->BusyCursorOff();
 
     QMessageBox::warning( NULL, "Basic Image Processing", "Input image is broken or not initialized. Returning.", QMessageBox::Ok, QMessageBox::NoButton );
     return;
   }
 
   // check if operation is done on 4D a image time step
   if(newImage->GetDimension() > 3)
   {
     mitk::ImageTimeSelector::Pointer timeSelector = mitk::ImageTimeSelector::New();
     timeSelector->SetInput(newImage);
     timeSelector->SetTimeNr( ((QmitkSliderNavigatorWidget*)m_Controls->sliceNavigatorTime)->GetPos() );
     timeSelector->Update();
     newImage = timeSelector->GetOutput();
   }
 
 
 
   // check if image or vector image
   ImageType::Pointer itkImage = ImageType::New();
   VectorImageType::Pointer itkVecImage = VectorImageType::New();
 
   int isVectorImage = newImage->GetPixelType().GetNumberOfComponents();
 
   if(isVectorImage > 1)
   {
     CastToItkImage( newImage, itkVecImage );
   }
   else
   {
     CastToItkImage( newImage, itkImage );
   }
 
   std::stringstream nameAddition("");
 
   int param1 = m_Controls->sbParam1->value();
   int param2 = m_Controls->sbParam2->value();
+  double dparam1 = m_Controls->dsbParam1->value();
+  double dparam2 = m_Controls->dsbParam2->value();
+  double dparam3 = m_Controls->dsbParam3->value();
 
   try{
 
   switch (m_SelectedAction)
   {
 
   case GAUSSIAN:
     {
       GaussianFilterType::Pointer gaussianFilter = GaussianFilterType::New();
       gaussianFilter->SetInput( itkImage );
       gaussianFilter->SetVariance( param1 );
       gaussianFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(gaussianFilter->GetOutput());
       nameAddition << "_Gaussian_var_" << param1;
       std::cout << "Gaussian filtering successful." << std::endl;
       break;
     }
 
   case MEDIAN:
     {
       MedianFilterType::Pointer medianFilter = MedianFilterType::New();
       MedianFilterType::InputSizeType size;
       size.Fill(param1);
       medianFilter->SetRadius( size );
       medianFilter->SetInput(itkImage);
       medianFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(medianFilter->GetOutput());
       nameAddition << "_Median_radius_" << param1;
       std::cout << "Median Filtering successful." << std::endl;
       break;
     }
 
   case TOTALVARIATION:
     {
       if(isVectorImage > 1)
       {
         VectorTotalVariationFilterType::Pointer TVFilter
           = VectorTotalVariationFilterType::New();
         TVFilter->SetInput( itkVecImage.GetPointer() );
         TVFilter->SetNumberIterations(param1);
         TVFilter->SetLambda(double(param2)/1000.);
         TVFilter->UpdateLargestPossibleRegion();
 
         newImage = mitk::ImportItkImage(TVFilter->GetOutput());
       }
       else
       {
         FloatImageType::Pointer fImage = FloatImageType::New();
         CastToItkImage( newImage, fImage );
         TotalVariationFilterType::Pointer TVFilter
           = TotalVariationFilterType::New();
         TVFilter->SetInput( fImage.GetPointer() );
         TVFilter->SetNumberIterations(param1);
         TVFilter->SetLambda(double(param2)/1000.);
         TVFilter->UpdateLargestPossibleRegion();
 
         newImage = mitk::ImportItkImage(TVFilter->GetOutput());
       }
 
       nameAddition << "_TV_Iter_" << param1 << "_L_" << param2;
       std::cout << "Total Variation Filtering successful." << std::endl;
       break;
     }
 
   case DILATION:
     {
       BallType binaryBall;
       binaryBall.SetRadius( param1 );
       binaryBall.CreateStructuringElement();
 
       DilationFilterType::Pointer dilationFilter = DilationFilterType::New();
       dilationFilter->SetInput( itkImage );
       dilationFilter->SetKernel( binaryBall );
       dilationFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(dilationFilter->GetOutput());
       nameAddition << "_Dilated_by_" << param1;
       std::cout << "Dilation successful." << std::endl;
       break;
     }
 
   case EROSION:
     {
       BallType binaryBall;
       binaryBall.SetRadius( param1 );
       binaryBall.CreateStructuringElement();
 
       ErosionFilterType::Pointer erosionFilter = ErosionFilterType::New();
       erosionFilter->SetInput( itkImage );
       erosionFilter->SetKernel( binaryBall );
       erosionFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(erosionFilter->GetOutput());
       nameAddition << "_Eroded_by_" << param1;
       std::cout << "Erosion successful." << std::endl;
       break;
     }
 
   case OPENING:
     {
       BallType binaryBall;
       binaryBall.SetRadius( param1 );
       binaryBall.CreateStructuringElement();
 
       OpeningFilterType::Pointer openFilter = OpeningFilterType::New();
       openFilter->SetInput( itkImage );
       openFilter->SetKernel( binaryBall );
       openFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(openFilter->GetOutput());
       nameAddition << "_Opened_by_" << param1;
       std::cout << "Opening successful." << std::endl;
       break;
     }
 
   case CLOSING:
     {
       BallType binaryBall;
       binaryBall.SetRadius( param1 );
       binaryBall.CreateStructuringElement();
 
       ClosingFilterType::Pointer closeFilter = ClosingFilterType::New();
       closeFilter->SetInput( itkImage );
       closeFilter->SetKernel( binaryBall );
       closeFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(closeFilter->GetOutput());
       nameAddition << "_Closed_by_" << param1;
       std::cout << "Closing successful." << std::endl;
       break;
     }
 
   case GRADIENT:
     {
       GradientFilterType::Pointer gradientFilter = GradientFilterType::New();
       gradientFilter->SetInput( itkImage );
       gradientFilter->SetSigma( param1 );
       gradientFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(gradientFilter->GetOutput());
       nameAddition << "_Gradient_sigma_" << param1;
       std::cout << "Gradient calculation successful." << std::endl;
       break;
     }
 
   case LAPLACIAN:
     {
       // the laplace filter requires a float type image as input, we need to cast the itkImage
       // to correct type
       ImagePTypeToFloatPTypeCasterType::Pointer caster = ImagePTypeToFloatPTypeCasterType::New();
       caster->SetInput( itkImage );
       caster->Update();
       FloatImageType::Pointer fImage = caster->GetOutput();
 
       LaplacianFilterType::Pointer laplacianFilter = LaplacianFilterType::New();
       laplacianFilter->SetInput( fImage );
       laplacianFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(laplacianFilter->GetOutput());
       nameAddition << "_Second_Derivative";
       std::cout << "Laplacian filtering successful." << std::endl;
       break;
     }
 
   case SOBEL:
     {
       // the sobel filter requires a float type image as input, we need to cast the itkImage
       // to correct type
       ImagePTypeToFloatPTypeCasterType::Pointer caster = ImagePTypeToFloatPTypeCasterType::New();
       caster->SetInput( itkImage );
       caster->Update();
       FloatImageType::Pointer fImage = caster->GetOutput();
 
       SobelFilterType::Pointer sobelFilter = SobelFilterType::New();
       sobelFilter->SetInput( fImage );
       sobelFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(sobelFilter->GetOutput());
       nameAddition << "_Sobel";
       std::cout << "Edge Detection successful." << std::endl;
       break;
     }
 
   case THRESHOLD:
     {
       ThresholdFilterType::Pointer thFilter = ThresholdFilterType::New();
       thFilter->SetLowerThreshold(param1 < param2 ? param1 : param2);
       thFilter->SetUpperThreshold(param2 > param1 ? param2 : param1);
       thFilter->SetInsideValue(1);
       thFilter->SetOutsideValue(0);
       thFilter->SetInput(itkImage);
       thFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(thFilter->GetOutput());
       nameAddition << "_Threshold";
       std::cout << "Thresholding successful." << std::endl;
       break;
     }
 
   case INVERSION:
     {
       InversionFilterType::Pointer invFilter = InversionFilterType::New();
       mitk::ScalarType min = newImage->GetScalarValueMin();
       mitk::ScalarType max = newImage->GetScalarValueMax();
       invFilter->SetMaximum( max + min );
       invFilter->SetInput(itkImage);
       invFilter->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(invFilter->GetOutput());
       nameAddition << "_Inverted";
       std::cout << "Image inversion successful." << std::endl;
       break;
     }
 
   case DOWNSAMPLING:
     {
       ResampleImageFilterType::Pointer downsampler = ResampleImageFilterType::New();
       downsampler->SetInput( itkImage );
 
       typedef itk::NearestNeighborInterpolateImageFunction< ImageType, double > InterpolatorType;
       InterpolatorType::Pointer interpolator = InterpolatorType::New();
       downsampler->SetInterpolator( interpolator );
 
       downsampler->SetDefaultPixelValue( 0 );
 
       ResampleImageFilterType::SpacingType spacing = itkImage->GetSpacing();
       spacing *= (double) param1;
       downsampler->SetOutputSpacing( spacing );
 
       downsampler->SetOutputOrigin( itkImage->GetOrigin() );
       downsampler->SetOutputDirection( itkImage->GetDirection() );
 
       ResampleImageFilterType::SizeType size = itkImage->GetLargestPossibleRegion().GetSize();
       for ( int i = 0; i < 3; ++i )
       {
         size[i] /= param1;
       }
       downsampler->SetSize( size );
       downsampler->UpdateLargestPossibleRegion();
 
       newImage = mitk::ImportItkImage(downsampler->GetOutput());
       nameAddition << "_Downsampled_by_" << param1;
       std::cout << "Downsampling successful." << std::endl;
       break;
     }
 
   case FLIPPING:
     {
       FlipImageFilterType::Pointer flipper = FlipImageFilterType::New();
       flipper->SetInput( itkImage );
       itk::FixedArray<bool, 3> flipAxes;
       for(int i=0; i<3; ++i)
       {
         if(i == param1)
         {
           flipAxes[i] = true;
         }
         else
         {
           flipAxes[i] = false;
         }
       }
       flipper->SetFlipAxes(flipAxes);
       flipper->UpdateLargestPossibleRegion();
       newImage = mitk::ImportItkImage(flipper->GetOutput());
       std::cout << "Image flipping successful." << std::endl;
       break;
     }
 
+  case RESAMPLING
+  {
+    break;
+  }
+
   default:
     this->BusyCursorOff();
     return;
   }
   }
   catch (...)
   {
     this->BusyCursorOff();
     QMessageBox::warning(NULL, "Warning", "Problem when applying filter operation. Check your input...");
     return;
   }
 
   newImage->DisconnectPipeline();
 
   // adjust level/window to new image
   mitk::LevelWindow levelwindow;
   levelwindow.SetAuto( newImage );
   mitk::LevelWindowProperty::Pointer levWinProp = mitk::LevelWindowProperty::New();
   levWinProp->SetLevelWindow( levelwindow );
 
   // compose new image name
   std::string name = m_SelectedImageNode->GetNode()->GetName();
   if (name.find(".pic.gz") == name.size() -7 )
   {
     name = name.substr(0,name.size() -7);
   }
   name.append( nameAddition.str() );
 
   // create final result MITK data storage node
   mitk::DataNode::Pointer result = mitk::DataNode::New();
   result->SetProperty( "levelwindow", levWinProp );
   result->SetProperty( "name", mitk::StringProperty::New( name.c_str() ) );
   result->SetData( newImage );
 
   // for vector images, a different mapper is needed
   if(isVectorImage > 1)
   {
     mitk::VectorImageMapper2D::Pointer mapper =
       mitk::VectorImageMapper2D::New();
     result->SetMapper(1,mapper);
   }
 
   // reset GUI to ease further processing
 //  this->ResetOneImageOpPanel();
 
   // add new image to data storage and set as active to ease further processing
   GetDefaultDataStorage()->Add( result, m_SelectedImageNode->GetNode() );
   if ( m_Controls->cbHideOrig->isChecked() == true )
     m_SelectedImageNode->GetNode()->SetProperty( "visible", mitk::BoolProperty::New(false) );
   // TODO!! m_Controls->m_ImageSelector1->SetSelectedNode(result);
 
   // show the results
   mitk::RenderingManager::GetInstance()->RequestUpdateAll();
   this->BusyCursorOff();
 }
 
 void QmitkBasicImageProcessing::SelectAction2(int operation)
 {
   // check which operation the user has selected and set parameters and GUI accordingly
   switch (operation)
   {
   case 2:
     m_SelectedOperation = ADD;
     break;
   case 3:
     m_SelectedOperation = SUBTRACT;
     break;
   case 4:
     m_SelectedOperation = MULTIPLY;
     break;
   case 5:
     m_SelectedOperation = DIVIDE;
     break;
   case 6:
     m_SelectedOperation = RESAMPLE_TO;
     break;
   case 8:
     m_SelectedOperation = AND;
     break;
   case 9:
     m_SelectedOperation = OR;
     break;
   case 10:
     m_SelectedOperation = XOR;
     break;
   default:
 //    this->ResetTwoImageOpPanel();
     return;
   }
   m_Controls->tlImage2->setEnabled(true);
   m_Controls->m_ImageSelector2->setEnabled(true);
   m_Controls->btnDoIt2->setEnabled(true);
 }
 
 void QmitkBasicImageProcessing::StartButton2Clicked()
 {
   mitk::Image::Pointer newImage1 = dynamic_cast<mitk::Image*>
     (m_SelectedImageNode->GetNode()->GetData());
   mitk::Image::Pointer newImage2 = dynamic_cast<mitk::Image*>
     (m_Controls->m_ImageSelector2->GetSelectedNode()->GetData());
 
   // check if images are valid
   if( (!newImage1) || (!newImage2) || (newImage1->IsInitialized() == false) || (newImage2->IsInitialized() == false) )
   {
     itkGenericExceptionMacro(<< "At least one of the input images are broken or not initialized. Returning");
     return;
   }
 
   this->BusyCursorOn();
 //  this->ResetTwoImageOpPanel();
 
   // check if 4D image and use filter on correct time step
   int time = ((QmitkSliderNavigatorWidget*)m_Controls->sliceNavigatorTime)->GetPos();
   if(time>=0)
   {
     mitk::ImageTimeSelector::Pointer timeSelector = mitk::ImageTimeSelector::New();
 
     timeSelector->SetInput(newImage1);
     timeSelector->SetTimeNr( time );
     timeSelector->UpdateLargestPossibleRegion();
     newImage1 = timeSelector->GetOutput();
     newImage1->DisconnectPipeline();
 
     timeSelector->SetInput(newImage2);
     timeSelector->SetTimeNr( time );
     timeSelector->UpdateLargestPossibleRegion();
     newImage2 = timeSelector->GetOutput();
     newImage2->DisconnectPipeline();
   }
 
   // reset GUI for better usability
 //  this->ResetTwoImageOpPanel();
 
   ImageType::Pointer itkImage1 = ImageType::New();
   ImageType::Pointer itkImage2 = ImageType::New();
 
   CastToItkImage( newImage1, itkImage1 );
   CastToItkImage( newImage2, itkImage2 );
 
   // Remove temp image
   newImage2 = NULL;
 
   std::string nameAddition = "";
 
   try
   {
   switch (m_SelectedOperation)
   {
   case ADD:
     {
       AddFilterType::Pointer addFilter = AddFilterType::New();
       addFilter->SetInput1( itkImage1 );
       addFilter->SetInput2( itkImage2 );
       addFilter->UpdateLargestPossibleRegion();
       newImage1 = mitk::ImportItkImage(addFilter->GetOutput());
       nameAddition = "_Added";
     }
     break;
 
   case SUBTRACT:
     {
       SubtractFilterType::Pointer subFilter = SubtractFilterType::New();
       subFilter->SetInput1( itkImage1 );
       subFilter->SetInput2( itkImage2 );
       subFilter->UpdateLargestPossibleRegion();
       newImage1 = mitk::ImportItkImage(subFilter->GetOutput());
       nameAddition = "_Subtracted";
     }
     break;
 
   case MULTIPLY:
     {
       MultiplyFilterType::Pointer multFilter = MultiplyFilterType::New();
       multFilter->SetInput1( itkImage1 );
       multFilter->SetInput2( itkImage2 );
       multFilter->UpdateLargestPossibleRegion();
       newImage1 = mitk::ImportItkImage(multFilter->GetOutput());
       nameAddition = "_Multiplied";
     }
     break;
 
   case DIVIDE:
     {
       DivideFilterType::Pointer divFilter = DivideFilterType::New();
       divFilter->SetInput1( itkImage1 );
       divFilter->SetInput2( itkImage2 );
       divFilter->UpdateLargestPossibleRegion();
       newImage1 = mitk::ImportItkImage<FloatImageType>(divFilter->GetOutput());
       nameAddition = "_Divided";
     }
     break;
 
   case AND:
     {
       AndImageFilterType::Pointer andFilter = AndImageFilterType::New();
       andFilter->SetInput1( itkImage1 );
       andFilter->SetInput2( itkImage2 );
       andFilter->UpdateLargestPossibleRegion();
       newImage1 = mitk::ImportItkImage(andFilter->GetOutput());
       nameAddition = "_AND";
       break;
     }
 
   case OR:
     {
       OrImageFilterType::Pointer orFilter = OrImageFilterType::New();
       orFilter->SetInput1( itkImage1 );
       orFilter->SetInput2( itkImage2 );
       orFilter->UpdateLargestPossibleRegion();
       newImage1 = mitk::ImportItkImage(orFilter->GetOutput());
       nameAddition = "_OR";
       break;
     }
 
   case XOR:
     {
       XorImageFilterType::Pointer xorFilter = XorImageFilterType::New();
       xorFilter->SetInput1( itkImage1 );
       xorFilter->SetInput2( itkImage2 );
       xorFilter->UpdateLargestPossibleRegion();
       newImage1 = mitk::ImportItkImage(xorFilter->GetOutput());
       nameAddition = "_XOR";
       break;
     }
 
   case RESAMPLE_TO:
     {
 
       itk::NearestNeighborInterpolateImageFunction<ImageType>::Pointer nn_interpolator
         = itk::NearestNeighborInterpolateImageFunction<ImageType>::New();
 
       ResampleImageFilterType2::Pointer resampleFilter = ResampleImageFilterType2::New();
       resampleFilter->SetInput( itkImage1 );
       resampleFilter->SetReferenceImage( itkImage2 );
       resampleFilter->SetUseReferenceImage( true );
       resampleFilter->SetInterpolator( nn_interpolator );
       resampleFilter->SetDefaultPixelValue( 0 );
 
       ImageType::Pointer resampledImage = resampleFilter->GetOutput();
 
       try
       {
         resampleFilter->UpdateLargestPossibleRegion();
       }
       catch( const itk::ExceptionObject &e)
       {
         MITK_WARN << "Updating resampling filter failed. ";
         MITK_WARN << "REASON: " << e.what();
       }
 
       newImage1 = mitk::ImportItkImage( resampledImage );
       nameAddition = "_Resampled";
       break;
     }
 
   default:
     std::cout << "Something went wrong..." << std::endl;
     this->BusyCursorOff();
     return;
   }
   }
   catch (const itk::ExceptionObject& e )
   {
     this->BusyCursorOff();
     QMessageBox::warning(NULL, "ITK Exception", e.what() );
     QMessageBox::warning(NULL, "Warning", "Problem when applying arithmetic operation to two images. Check dimensions of input images.");
     return;
   }
 
   // disconnect pipeline; images will not be reused
   newImage1->DisconnectPipeline();
   itkImage1 = NULL;
   itkImage2 = NULL;
 
   // adjust level/window to new image and compose new image name
   mitk::LevelWindow levelwindow;
   levelwindow.SetAuto( newImage1 );
   mitk::LevelWindowProperty::Pointer levWinProp = mitk::LevelWindowProperty::New();
   levWinProp->SetLevelWindow( levelwindow );
   std::string name = m_SelectedImageNode->GetNode()->GetName();
   if (name.find(".pic.gz") == name.size() -7 )
   {
     name = name.substr(0,name.size() -7);
   }
 
   // create final result MITK data storage node
   mitk::DataNode::Pointer result = mitk::DataNode::New();
   result->SetProperty( "levelwindow", levWinProp );
   result->SetProperty( "name", mitk::StringProperty::New( (name + nameAddition ).c_str() ));
   result->SetData( newImage1 );
   GetDefaultDataStorage()->Add( result, m_SelectedImageNode->GetNode() );
 
   // show only the newly created image
   m_SelectedImageNode->GetNode()->SetProperty( "visible", mitk::BoolProperty::New(false) );
   m_Controls->m_ImageSelector2->GetSelectedNode()->SetProperty( "visible", mitk::BoolProperty::New(false) );
 
   // show the newly created image
   mitk::RenderingManager::GetInstance()->RequestUpdateAll();
   this->BusyCursorOff();
 }
 
diff --git a/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingView.h b/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingView.h
index 8f6e707ce4..6f2a3cd6ad 100644
--- a/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingView.h
+++ b/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingView.h
@@ -1,186 +1,187 @@
 /*===================================================================
 
 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.
 
 ===================================================================*/
 
 #if !defined(QmitkBasicImageProcessingView_H__INCLUDED)
 #define QmitkBasicImageProcessingView_H__INCLUDED
 
 #include "QmitkFunctionality.h"
 #include <org_mitk_gui_qt_basicimageprocessing_Export.h>
 #include "ui_QmitkBasicImageProcessingViewControls.h"
 
 #include "QmitkStepperAdapter.h"
 
 #include <berryISelectionListener.h>
 
 #include <mitkDataStorageSelection.h>
 
 /*!
 \brief This module allows to use some basic image processing filters for preprocessing, image enhancement and testing purposes
 
 Several basic ITK image processing filters, like denoising, morphological and edge detection
 are encapsulated in this module and can be selected via a list and an intuitive parameter input.
 The selected filter will be applied on the image, and a new image showing the output is displayed
 as result.
 Also, some image arithmetic operations are available.
 
 Images can be 3D or 4D.
 In the 4D case, the filters work on the 3D image selected via the
 time slider. The result is also a 3D image.
 
 \sa QmitkFunctionality, QObject
 
 \class QmitkBasicImageProcessing
 \author Tobias Schwarz
 \version 1.0 (3M3)
 \date 2009-05-10
 \ingroup Bundles
 */
 
 class BASICIMAGEPROCESSING_EXPORT QmitkBasicImageProcessing : public QmitkFunctionality
 {
   Q_OBJECT
 
 public:
 
   /*!
   \brief default constructor
   */
   QmitkBasicImageProcessing();
   QmitkBasicImageProcessing(const QmitkBasicImageProcessing& other)
   {
     Q_UNUSED(other)
       throw std::runtime_error("Copy constructor not implemented");
   }
 
   /*!
   \brief default destructor
   */
   virtual ~QmitkBasicImageProcessing();
 
   /*!
   \brief method for creating the widget containing the application controls, like sliders, buttons etc.
   */
   virtual void CreateQtPartControl(QWidget *parent);
 
   /*!
   \brief method for creating the connections of main and control widget
   */
   virtual void CreateConnections();
 
   virtual void Activated();
 
   /*!
   \brief Invoked when the DataManager selection changed
   */
   virtual void OnSelectionChanged(std::vector<mitk::DataNode*> nodes);
 
 
   protected slots:
 
     /*
     * When an action is selected in the "one image ops" list box
     */
     void SelectAction(int action);
 
     /*
     * When an action is selected in the "two image ops" list box
     */
     void SelectAction2(int operation);
 
     /*
     * The "Execute" button in the "one image ops" box was triggered
     */
     void StartButtonClicked();
 
     /*
     * The "Execute" button in the "two image ops" box was triggered
     */
     void StartButton2Clicked();
 
     /*
     *  Switch between the one and the two image operations GUI
     */
     void ChangeGUI();
 
 private:
 
   /*
   * After a one image operation, reset the "one image ops" panel
   */
   void ResetOneImageOpPanel();
 
   /*
   * Helper method to reset the parameter set panel
   */
   void ResetParameterPanel();
 
   /*
   * After a two image operation, reset the "two image ops" panel
   */
   void ResetTwoImageOpPanel();
 
   /*!
   * controls containing sliders for scrolling through the slices
   */
   Ui::QmitkBasicImageProcessingViewControls *m_Controls;
 
   //mitk::DataNode*       m_SelectedImageNode;
   mitk::DataStorageSelection::Pointer m_SelectedImageNode;
   QmitkStepperAdapter*      m_TimeStepperAdapter;
 
   berry::ISelectionListener::Pointer m_SelectionListener;
 
   enum ActionType {
     NOACTIONSELECTED,
     CATEGORY_DENOISING,
     GAUSSIAN,
     MEDIAN,
     TOTALVARIATION,
     CATEGORY_MORPHOLOGICAL,
     DILATION,
     EROSION,
     OPENING,
     CLOSING,
     CATEGORY_EDGE_DETECTION,
     GRADIENT,
     LAPLACIAN,
     SOBEL,
     CATEGORY_MISC,
     THRESHOLD,
     INVERSION,
     DOWNSAMPLING,
-    FLIPPING
+    FLIPPING,
+    RESAMPLING
   } m_SelectedAction;
 
   enum OperationType{
     TWOIMAGESNOACTIONSELECTED,
     CATEGORY_ARITHMETIC,
     ADD,
     SUBTRACT,
     MULTIPLY,
     DIVIDE,
     RESAMPLE_TO,
     CATEGORY_BOOLEAN,
     AND,
     OR,
     XOR
   } m_SelectedOperation;
 
 };
 
 #endif // !defined(QmitkBasicImageProcessing_H__INCLUDED)
 
 
diff --git a/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingViewControls.ui b/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingViewControls.ui
index ae1765e459..dacb87c620 100644
--- a/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingViewControls.ui
+++ b/Plugins/org.mitk.gui.qt.basicimageprocessing/src/internal/QmitkBasicImageProcessingViewControls.ui
@@ -1,344 +1,437 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
  <class>QmitkBasicImageProcessingViewControls</class>
  <widget class="QWidget" name="QmitkBasicImageProcessingViewControls">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>272</width>
     <height>980</height>
    </rect>
   </property>
   <property name="windowTitle">
    <string>Form</string>
   </property>
   <layout class="QGridLayout" name="gridLayout_4">
    <item row="0" column="0">
     <widget class="QGroupBox" name="groupBox">
      <property name="title">
       <string/>
      </property>
      <property name="flat">
       <bool>true</bool>
      </property>
      <layout class="QGridLayout" name="gridLayout_3">
       <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>6</number>
       </property>
       <item row="0" column="0">
        <widget class="QRadioButton" name="rBOneImOp">
         <property name="text">
          <string>Filters
 (One Image)</string>
         </property>
         <property name="checked">
          <bool>true</bool>
         </property>
        </widget>
       </item>
       <item row="0" column="1">
        <widget class="QRadioButton" name="rBTwoImOp">
         <property name="text">
          <string>Arithmetic
 (Two Images)</string>
         </property>
        </widget>
       </item>
       <item row="1" column="0" colspan="2">
        <widget class="QLineEdit" name="leImage1">
         <property name="text">
          <string>Select an Image in Data Manager</string>
         </property>
         <property name="readOnly">
          <bool>true</bool>
         </property>
        </widget>
       </item>
       <item row="2" column="0">
        <widget class="QLabel" name="tlTime">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Output image will be 3D</string>
         </property>
         <property name="text">
          <string>Choose time step if 4D
 (Slider for both images)</string>
         </property>
         <property name="wordWrap">
          <bool>false</bool>
         </property>
        </widget>
       </item>
       <item row="2" column="1">
        <widget class="QmitkSliderNavigatorWidget" name="sliceNavigatorTime" native="true">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="toolTip">
          <string>Output image will be 3D</string>
         </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
+   <item row="2" column="0">
+    <widget class="QGroupBox" name="gbTwoImageOps">
+     <property name="enabled">
+      <bool>true</bool>
+     </property>
+     <property name="title">
+      <string/>
+     </property>
+     <property name="flat">
+      <bool>true</bool>
+     </property>
+     <property name="checkable">
+      <bool>false</bool>
+     </property>
+     <property name="checked">
+      <bool>false</bool>
+     </property>
+     <layout class="QGridLayout" name="gridLayout_2">
+      <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="2" column="0" colspan="2">
+       <widget class="QLabel" name="tlImage2">
+        <property name="enabled">
+         <bool>false</bool>
+        </property>
+        <property name="text">
+         <string>Select second image:</string>
+        </property>
+        <property name="wordWrap">
+         <bool>false</bool>
+        </property>
+        <property name="buddy">
+         <cstring>m_ImageSelector2</cstring>
+        </property>
+       </widget>
+      </item>
+      <item row="3" column="0" colspan="3">
+       <widget class="QmitkDataStorageComboBox" name="m_ImageSelector2">
+        <property name="enabled">
+         <bool>false</bool>
+        </property>
+       </widget>
+      </item>
+      <item row="6" column="0" colspan="3">
+       <widget class="QPushButton" name="btnDoIt2">
+        <property name="enabled">
+         <bool>false</bool>
+        </property>
+        <property name="text">
+         <string>E&amp;xecute</string>
+        </property>
+       </widget>
+      </item>
+      <item row="0" column="0">
+       <widget class="QLabel" name="tlWhat2">
+        <property name="enabled">
+         <bool>false</bool>
+        </property>
+        <property name="text">
+         <string>Select an operation:</string>
+        </property>
+        <property name="wordWrap">
+         <bool>false</bool>
+        </property>
+        <property name="buddy">
+         <cstring>cbWhat2</cstring>
+        </property>
+       </widget>
+      </item>
+      <item row="1" column="0" colspan="3">
+       <widget class="QComboBox" name="cbWhat2">
+        <property name="enabled">
+         <bool>false</bool>
+        </property>
+       </widget>
+      </item>
+     </layout>
+    </widget>
+   </item>
+   <item row="3" column="0">
+    <spacer name="verticalSpacer">
+     <property name="orientation">
+      <enum>Qt::Vertical</enum>
+     </property>
+     <property name="sizeHint" stdset="0">
+      <size>
+       <width>254</width>
+       <height>403</height>
+      </size>
+     </property>
+    </spacer>
+   </item>
    <item row="1" column="0">
     <widget class="QGroupBox" name="gbOneImageOps">
      <property name="title">
       <string/>
      </property>
      <property name="flat">
       <bool>true</bool>
      </property>
      <layout class="QGridLayout" name="gridLayout">
       <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" colspan="2">
+      <item row="0" column="0" colspan="3">
        <widget class="QLabel" name="tlWhat1">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>Select an operation:</string>
         </property>
         <property name="wordWrap">
          <bool>false</bool>
         </property>
         <property name="buddy">
          <cstring>cbWhat1</cstring>
         </property>
        </widget>
       </item>
-      <item row="1" column="0" colspan="2">
+      <item row="1" column="0" colspan="3">
        <widget class="QComboBox" name="cbWhat1">
         <property name="enabled">
          <bool>false</bool>
         </property>
        </widget>
       </item>
-      <item row="2" column="0" colspan="2">
+      <item row="2" column="0" colspan="3">
        <widget class="QLabel" name="tlParam">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>... and parameters:</string>
         </property>
         <property name="wordWrap">
          <bool>false</bool>
         </property>
        </widget>
       </item>
       <item row="3" column="0">
        <widget class="QLabel" name="tlParam1">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>Parameter 1:</string>
         </property>
         <property name="wordWrap">
          <bool>false</bool>
         </property>
         <property name="buddy">
          <cstring>sbParam1</cstring>
         </property>
        </widget>
       </item>
-      <item row="3" column="1">
-       <widget class="QSpinBox" name="sbParam1">
-        <property name="enabled">
-         <bool>false</bool>
-        </property>
-       </widget>
-      </item>
       <item row="4" column="0">
        <widget class="QLabel" name="tlParam2">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>Parameter 2:</string>
         </property>
         <property name="wordWrap">
          <bool>false</bool>
         </property>
         <property name="buddy">
          <cstring>sbParam2</cstring>
         </property>
        </widget>
       </item>
-      <item row="4" column="1">
-       <widget class="QSpinBox" name="sbParam2">
-        <property name="enabled">
-         <bool>false</bool>
-        </property>
-       </widget>
-      </item>
-      <item row="6" column="0" colspan="2">
+      <item row="8" column="0" colspan="3">
        <widget class="QPushButton" name="btnDoIt">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>&amp;Execute</string>
         </property>
        </widget>
       </item>
-      <item row="5" column="0">
+      <item row="7" column="0">
        <widget class="QCheckBox" name="cbHideOrig">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
          <string>Hide Original Image</string>
         </property>
         <property name="checked">
          <bool>true</bool>
         </property>
        </widget>
       </item>
-     </layout>
-    </widget>
-   </item>
-   <item row="2" column="0">
-    <widget class="QGroupBox" name="gbTwoImageOps">
-     <property name="enabled">
-      <bool>true</bool>
-     </property>
-     <property name="title">
-      <string/>
-     </property>
-     <property name="flat">
-      <bool>true</bool>
-     </property>
-     <property name="checkable">
-      <bool>false</bool>
-     </property>
-     <property name="checked">
-      <bool>false</bool>
-     </property>
-     <layout class="QGridLayout" name="gridLayout_2">
-      <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="2" column="0" colspan="2">
-       <widget class="QLabel" name="tlImage2">
+      <item row="5" column="0">
+       <widget class="QLabel" name="tlParam3">
         <property name="enabled">
          <bool>false</bool>
         </property>
         <property name="text">
-         <string>Select second image:</string>
+         <string>Parameter 3:</string>
         </property>
-        <property name="wordWrap">
+       </widget>
+      </item>
+      <item row="6" column="0">
+       <widget class="QLabel" name="tlParam4">
+        <property name="enabled">
          <bool>false</bool>
         </property>
-        <property name="buddy">
-         <cstring>m_ImageSelector2</cstring>
+        <property name="text">
+         <string>Parameter 4:</string>
         </property>
        </widget>
       </item>
-      <item row="3" column="0" colspan="3">
-       <widget class="QmitkDataStorageComboBox" name="m_ImageSelector2">
+      <item row="6" column="2">
+       <widget class="QComboBox" name="cobParam4">
         <property name="enabled">
          <bool>false</bool>
         </property>
+        <property name="sizePolicy">
+         <sizepolicy hsizetype="Expanding" vsizetype="Fixed">
+          <horstretch>0</horstretch>
+          <verstretch>0</verstretch>
+         </sizepolicy>
+        </property>
        </widget>
       </item>
-      <item row="6" column="0" colspan="3">
-       <widget class="QPushButton" name="btnDoIt2">
+      <item row="5" column="2">
+       <widget class="QDoubleSpinBox" name="dsbParam3">
         <property name="enabled">
          <bool>false</bool>
         </property>
-        <property name="text">
-         <string>E&amp;xecute</string>
+        <property name="sizePolicy">
+         <sizepolicy hsizetype="Expanding" vsizetype="Fixed">
+          <horstretch>0</horstretch>
+          <verstretch>0</verstretch>
+         </sizepolicy>
+        </property>
+        <property name="layoutDirection">
+         <enum>Qt::LeftToRight</enum>
+        </property>
+        <property name="alignment">
+         <set>Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter</set>
         </property>
        </widget>
       </item>
-      <item row="0" column="0">
-       <widget class="QLabel" name="tlWhat2">
+      <item row="4" column="2">
+       <widget class="QDoubleSpinBox" name="dsbParam2">
         <property name="enabled">
          <bool>false</bool>
         </property>
-        <property name="text">
-         <string>Select an operation:</string>
+        <property name="sizePolicy">
+         <sizepolicy hsizetype="Expanding" vsizetype="Fixed">
+          <horstretch>0</horstretch>
+          <verstretch>0</verstretch>
+         </sizepolicy>
         </property>
-        <property name="wordWrap">
+       </widget>
+      </item>
+      <item row="3" column="2">
+       <widget class="QDoubleSpinBox" name="dsbParam1">
+        <property name="enabled">
          <bool>false</bool>
         </property>
-        <property name="buddy">
-         <cstring>cbWhat2</cstring>
+        <property name="sizePolicy">
+         <sizepolicy hsizetype="Expanding" vsizetype="Fixed">
+          <horstretch>0</horstretch>
+          <verstretch>0</verstretch>
+         </sizepolicy>
+        </property>
+        <property name="decimals">
+         <number>2</number>
         </property>
        </widget>
       </item>
-      <item row="1" column="0" colspan="3">
-       <widget class="QComboBox" name="cbWhat2">
+      <item row="3" column="1">
+       <widget class="QSpinBox" name="sbParam1">
         <property name="enabled">
          <bool>false</bool>
         </property>
+        <property name="sizePolicy">
+         <sizepolicy hsizetype="Expanding" vsizetype="Fixed">
+          <horstretch>0</horstretch>
+          <verstretch>0</verstretch>
+         </sizepolicy>
+        </property>
+       </widget>
+      </item>
+      <item row="4" column="1">
+       <widget class="QSpinBox" name="sbParam2">
+        <property name="enabled">
+         <bool>false</bool>
+        </property>
+        <property name="sizePolicy">
+         <sizepolicy hsizetype="Expanding" vsizetype="Fixed">
+          <horstretch>0</horstretch>
+          <verstretch>0</verstretch>
+         </sizepolicy>
+        </property>
        </widget>
       </item>
      </layout>
     </widget>
    </item>
-   <item row="3" column="0">
-    <spacer name="verticalSpacer">
-     <property name="orientation">
-      <enum>Qt::Vertical</enum>
-     </property>
-     <property name="sizeHint" stdset="0">
-      <size>
-       <width>254</width>
-       <height>403</height>
-      </size>
-     </property>
-    </spacer>
-   </item>
   </layout>
  </widget>
  <customwidgets>
   <customwidget>
    <class>QmitkDataStorageComboBox</class>
    <extends>QComboBox</extends>
    <header location="global">QmitkDataStorageComboBox.h</header>
   </customwidget>
   <customwidget>
    <class>QmitkSliderNavigatorWidget</class>
    <extends>QWidget</extends>
    <header location="global">QmitkSliderNavigatorWidget.h</header>
   </customwidget>
  </customwidgets>
  <resources/>
  <connections/>
 </ui>