AutoThresholdingDark
Computes and applies an automatic threshold on a gray level image to detect dark particles on a bright background.
Access to parameter description
For an introduction:
The computed threshold is returned in the AutoThresholdingMsr object.
See also
Access to parameter description
For an introduction:
- section Image Segmentation
- section Binarization
- section AutoThresholdingBright
- $C_0=[I_1,T]$ represents the object or foreground pixels for which the output intensity is set to 1. Intensities lower than $I_1$ are also set to 1.
- $C_1=[T+1,I_2]$ represents the background pixels for which the output intensity is set to 0. Intensities greater than $I_2$ are also set to 0.
The computed threshold is returned in the AutoThresholdingMsr object.
See also
Function Syntax
This function returns a AutoThresholdingDarkOutput structure containing the outputBinaryImage and outputMeasurement output parameters.
// Output structure. struct AutoThresholdingDarkOutput { std::shared_ptr< iolink::ImageView > outputBinaryImage; AutoThresholdingMsr::Ptr outputMeasurement; }; // Function prototype. AutoThresholdingDarkOutput autoThresholdingDark( std::shared_ptr< iolink::ImageView > inputGrayImage, AutoThresholdingDark::RangeMode rangeMode, iolink::Vector2d intensityInputRange, AutoThresholdingDark::ThresholdCriterion thresholdCriterion, std::shared_ptr< iolink::ImageView > outputBinaryImage = NULL, AutoThresholdingMsr::Ptr outputMeasurement = NULL );
This function returns a tuple containing the output_binary_image and output_measurement output parameters.
// Function prototype. auto_thresholding_dark( input_gray_image, range_mode = AutoThresholdingDark.RangeMode.MIN_MAX, intensity_input_range = [0, 255], threshold_criterion = AutoThresholdingDark.ThresholdCriterion.ENTROPY, output_binary_image = None, output_measurement = None )
This function returns a AutoThresholdingDarkOutput structure containing the outputBinaryImage and outputMeasurement output parameters.
/// Output structure of the AutoThresholdingDark function. public struct AutoThresholdingDarkOutput { public IOLink.ImageView outputBinaryImage; public AutoThresholdingMsr outputMeasurement; }; // Function prototype. public static AutoThresholdingDarkOutput AutoThresholdingDark( IOLink.ImageView inputGrayImage, AutoThresholdingDark.RangeMode rangeMode = ImageDev.AutoThresholdingDark.RangeMode.MIN_MAX, double[] intensityInputRange = null, AutoThresholdingDark.ThresholdCriterion thresholdCriterion = ImageDev.AutoThresholdingDark.ThresholdCriterion.ENTROPY, IOLink.ImageView outputBinaryImage = null, AutoThresholdingMsr outputMeasurement = null );
Class Syntax
Parameters
Class Name | AutoThresholdingDark |
---|
Parameter Name | Description | Type | Supported Values | Default Value | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
inputGrayImage |
The input grayscale image. | Image | Grayscale | nullptr | |||||||||
rangeMode |
The way to determine the input intensity range.
|
Enumeration | MIN_MAX | ||||||||||
intensityInputRange |
The input intensity range [a,b] inside which the threshold is searched. This parameter is ignored if the range mode is set to MIN_MAX. | Vector2d | Any value | {0.f, 255.f} | |||||||||
thresholdCriterion |
The criterion to compute the threshold from the histogram.
|
Enumeration | ENTROPY | ||||||||||
outputBinaryImage |
The output binary image. Its dimensions are forced to the same values as the input. | Image | nullptr | ||||||||||
outputMeasurement |
The computed threshold value. | AutoThresholdingMsr | nullptr |
Object Examples
std::shared_ptr< iolink::ImageView > polystyrene = ioformat::readImage( std::string( IMAGEDEVDATA_IMAGES_FOLDER ) + "polystyrene.tif" ); AutoThresholdingDark autoThresholdingDarkAlgo; autoThresholdingDarkAlgo.setInputGrayImage( polystyrene ); autoThresholdingDarkAlgo.setRangeMode( AutoThresholdingDark::RangeMode::MIN_MAX ); autoThresholdingDarkAlgo.setIntensityInputRange( {0, 255} ); autoThresholdingDarkAlgo.setThresholdCriterion( AutoThresholdingDark::ThresholdCriterion::ENTROPY ); autoThresholdingDarkAlgo.execute(); std::cout << "outputBinaryImage:" << autoThresholdingDarkAlgo.outputBinaryImage()->toString(); std::cout << "threshold: " << autoThresholdingDarkAlgo.outputMeasurement()->threshold( 0 ) ;
polystyrene = ioformat.read_image(imagedev_data.get_image_path("polystyrene.tif")) auto_thresholding_dark_algo = imagedev.AutoThresholdingDark() auto_thresholding_dark_algo.input_gray_image = polystyrene auto_thresholding_dark_algo.range_mode = imagedev.AutoThresholdingDark.MIN_MAX auto_thresholding_dark_algo.intensity_input_range = [0, 255] auto_thresholding_dark_algo.threshold_criterion = imagedev.AutoThresholdingDark.ENTROPY auto_thresholding_dark_algo.execute() print( "output_binary_image:", str( auto_thresholding_dark_algo.output_binary_image ) ) print( "threshold: ", str( auto_thresholding_dark_algo.output_measurement.threshold( 0 ) ) )
ImageView polystyrene = ViewIO.ReadImage( @"Data/images/polystyrene.tif" ); AutoThresholdingDark autoThresholdingDarkAlgo = new AutoThresholdingDark { inputGrayImage = polystyrene, rangeMode = AutoThresholdingDark.RangeMode.MIN_MAX, intensityInputRange = new double[]{0, 255}, thresholdCriterion = AutoThresholdingDark.ThresholdCriterion.ENTROPY }; autoThresholdingDarkAlgo.Execute(); Console.WriteLine( "outputBinaryImage:" + autoThresholdingDarkAlgo.outputBinaryImage.ToString() ); Console.WriteLine( "threshold: " + autoThresholdingDarkAlgo.outputMeasurement.threshold( 0 ) );
Function Examples
std::shared_ptr< iolink::ImageView > polystyrene = ioformat::readImage( std::string( IMAGEDEVDATA_IMAGES_FOLDER ) + "polystyrene.tif" ); auto result = autoThresholdingDark( polystyrene, AutoThresholdingDark::RangeMode::MIN_MAX, {0, 255}, AutoThresholdingDark::ThresholdCriterion::ENTROPY ); std::cout << "outputBinaryImage:" << result.outputBinaryImage->toString(); std::cout << "threshold: " << result.outputMeasurement->threshold( 0 ) ;
polystyrene = ioformat.read_image(imagedev_data.get_image_path("polystyrene.tif")) result_output_binary_image, result_output_measurement = imagedev.auto_thresholding_dark( polystyrene, imagedev.AutoThresholdingDark.MIN_MAX, [0, 255], imagedev.AutoThresholdingDark.ENTROPY ) print( "output_binary_image:", str( result_output_binary_image ) ) print( "threshold: ", str( result_output_measurement.threshold( 0 ) ) )
ImageView polystyrene = ViewIO.ReadImage( @"Data/images/polystyrene.tif" ); Processing.AutoThresholdingDarkOutput result = Processing.AutoThresholdingDark( polystyrene, AutoThresholdingDark.RangeMode.MIN_MAX, new double[]{0, 255}, AutoThresholdingDark.ThresholdCriterion.ENTROPY ); Console.WriteLine( "outputBinaryImage:" + result.outputBinaryImage.ToString() ); Console.WriteLine( "threshold: " + result.outputMeasurement.threshold( 0 ) );