OpeningDiskByReconstruction2d
Performs a two-dimensional opening by reconstruction with a structuring element matching with a disk.
Access to parameter description
An opening by reconstruction consists in applying an erosion followed by a morphological reconstruction. In the binary case, opening by reconstruction can be used for removing small objects without modifying edges of the large ones. In the grayscale case, opening by reconstruction can be used for performing a Top Hat by reconstruction for detecting bright small structures without getting artifacts from the boundary concavities of the large ones.
Its 2D binary behavior is illustrated in the OpeningByReconstruction2d documentation (Figure 1).
This algorithm supports two modes: a fast mode that combines erosions and dilations using different neighborhoods, and a precise mode (slower) that ensures a real disk structuring element. The mode can be selected with the precision parameter.
See also
Access to parameter description
An opening by reconstruction consists in applying an erosion followed by a morphological reconstruction. In the binary case, opening by reconstruction can be used for removing small objects without modifying edges of the large ones. In the grayscale case, opening by reconstruction can be used for performing a Top Hat by reconstruction for detecting bright small structures without getting artifacts from the boundary concavities of the large ones.
Its 2D binary behavior is illustrated in the OpeningByReconstruction2d documentation (Figure 1).
This algorithm supports two modes: a fast mode that combines erosions and dilations using different neighborhoods, and a precise mode (slower) that ensures a real disk structuring element. The mode can be selected with the precision parameter.
See also
Function Syntax
This function returns outputImage.
// Function prototype
std::shared_ptr< iolink::ImageView > openingDiskByReconstruction2d( std::shared_ptr< iolink::ImageView > inputImage, uint32_t kernelRadius, OpeningDiskByReconstruction2d::Precision precision, std::shared_ptr< iolink::ImageView > outputImage = NULL );
This function returns outputImage.
// Function prototype. opening_disk_by_reconstruction_2d( input_image, kernel_radius = 3, precision = OpeningDiskByReconstruction2d.Precision.FASTER, output_image = None )
This function returns outputImage.
// Function prototype. public static IOLink.ImageView OpeningDiskByReconstruction2d( IOLink.ImageView inputImage, UInt32 kernelRadius = 3, OpeningDiskByReconstruction2d.Precision precision = ImageDev.OpeningDiskByReconstruction2d.Precision.FASTER, IOLink.ImageView outputImage = null );
Class Syntax
Parameters
Class Name | OpeningDiskByReconstruction2d |
---|
Parameter Name | Description | Type | Supported Values | Default Value | |||||
---|---|---|---|---|---|---|---|---|---|
inputImage |
The input image. | Image | Binary, Label or Grayscale | nullptr | |||||
kernelRadius |
The length of the disk radius in pixels. | UInt32 | >=1 | 3 | |||||
precision |
The precision of the computation method.
|
Enumeration | FASTER | ||||||
outputImage |
The output image. Its dimensions and type are forced to the same values as the input image. | Image | nullptr |
Object Examples
std::shared_ptr< iolink::ImageView > polystyrene = ioformat::readImage( std::string( IMAGEDEVDATA_IMAGES_FOLDER ) + "polystyrene.tif" ); OpeningDiskByReconstruction2d openingDiskByReconstruction2dAlgo; openingDiskByReconstruction2dAlgo.setInputImage( polystyrene ); openingDiskByReconstruction2dAlgo.setKernelRadius( 3 ); openingDiskByReconstruction2dAlgo.setPrecision( OpeningDiskByReconstruction2d::Precision::FASTER ); openingDiskByReconstruction2dAlgo.execute(); std::cout << "outputImage:" << openingDiskByReconstruction2dAlgo.outputImage()->toString();
polystyrene = ioformat.read_image(imagedev_data.get_image_path("polystyrene.tif")) opening_disk_by_reconstruction_2d_algo = imagedev.OpeningDiskByReconstruction2d() opening_disk_by_reconstruction_2d_algo.input_image = polystyrene opening_disk_by_reconstruction_2d_algo.kernel_radius = 3 opening_disk_by_reconstruction_2d_algo.precision = imagedev.OpeningDiskByReconstruction2d.FASTER opening_disk_by_reconstruction_2d_algo.execute() print( "output_image:", str( opening_disk_by_reconstruction_2d_algo.output_image ) )
ImageView polystyrene = ViewIO.ReadImage( @"Data/images/polystyrene.tif" ); OpeningDiskByReconstruction2d openingDiskByReconstruction2dAlgo = new OpeningDiskByReconstruction2d { inputImage = polystyrene, kernelRadius = 3, precision = OpeningDiskByReconstruction2d.Precision.FASTER }; openingDiskByReconstruction2dAlgo.Execute(); Console.WriteLine( "outputImage:" + openingDiskByReconstruction2dAlgo.outputImage.ToString() );
Function Examples
std::shared_ptr< iolink::ImageView > polystyrene = ioformat::readImage( std::string( IMAGEDEVDATA_IMAGES_FOLDER ) + "polystyrene.tif" ); auto result = openingDiskByReconstruction2d( polystyrene, 3, OpeningDiskByReconstruction2d::Precision::FASTER ); std::cout << "outputImage:" << result->toString();
polystyrene = ioformat.read_image(imagedev_data.get_image_path("polystyrene.tif")) result = imagedev.opening_disk_by_reconstruction_2d( polystyrene, 3, imagedev.OpeningDiskByReconstruction2d.FASTER ) print( "output_image:", str( result ) )
ImageView polystyrene = ViewIO.ReadImage( @"Data/images/polystyrene.tif" ); IOLink.ImageView result = Processing.OpeningDiskByReconstruction2d( polystyrene, 3, OpeningDiskByReconstruction2d.Precision.FASTER ); Console.WriteLine( "outputImage:" + result.ToString() );