Package org.opencv.xfeatures2d
Class PCTSignatures
- java.lang.Object
-
- org.opencv.core.Algorithm
-
- org.opencv.xfeatures2d.PCTSignatures
-
public class PCTSignatures extends Algorithm
Class implementing PCT (position-color-texture) signature extraction as described in CITE: KrulisLS16. The algorithm is divided to a feature sampler and a clusterizer. Feature sampler produces samples at given set of coordinates. Clusterizer then produces clusters of these samples using k-means algorithm. Resulting set of clusters is the signature of the input image. A signature is an array of SIGNATURE_DIMENSION-dimensional points. Used dimensions are: weight, x, y position; lab color, contrast, entropy. CITE: KrulisLS16 CITE: BeecksUS10
-
-
Constructor Summary
Constructors Modifier Constructor Description protected
PCTSignatures(long addr)
-
Method Summary
All Methods Static Methods Instance Methods Concrete Methods Modifier and Type Method Description static PCTSignatures
__fromPtr__(long addr)
void
computeSignature(Mat image, Mat signature)
Computes signature of given image.void
computeSignatures(java.util.List<Mat> images, java.util.List<Mat> signatures)
Computes signatures for multiple images in parallel.static PCTSignatures
create()
Creates PCTSignatures algorithm using sample and seed count.static PCTSignatures
create(int initSampleCount)
Creates PCTSignatures algorithm using sample and seed count.static PCTSignatures
create(int initSampleCount, int initSeedCount)
Creates PCTSignatures algorithm using sample and seed count.static PCTSignatures
create(int initSampleCount, int initSeedCount, int pointDistribution)
Creates PCTSignatures algorithm using sample and seed count.static PCTSignatures
create(MatOfPoint2f initSamplingPoints, int initSeedCount)
Creates PCTSignatures algorithm using pre-generated sampling points and number of clusterization seeds.static PCTSignatures
create(MatOfPoint2f initSamplingPoints, MatOfInt initClusterSeedIndexes)
Creates PCTSignatures algorithm using pre-generated sampling points and clusterization seeds indexes.static void
drawSignature(Mat source, Mat signature, Mat result)
Draws signature in the source image and outputs the result.static void
drawSignature(Mat source, Mat signature, Mat result, float radiusToShorterSideRatio)
Draws signature in the source image and outputs the result.static void
drawSignature(Mat source, Mat signature, Mat result, float radiusToShorterSideRatio, int borderThickness)
Draws signature in the source image and outputs the result.protected void
finalize()
static void
generateInitPoints(MatOfPoint2f initPoints, int count, int pointDistribution)
Generates initial sampling points according to selected point distribution.int
getClusterMinSize()
This parameter multiplied by the index of iteration gives lower limit for cluster size.int
getDistanceFunction()
Distance function selector used for measuring distance between two points in k-means.float
getDropThreshold()
Remove centroids in k-means whose weight is lesser or equal to given threshold.int
getGrayscaleBits()
Color resolution of the greyscale bitmap represented in allocated bits (i.e., value 4 means that 16 shades of grey are used).int
getInitSeedCount()
Number of initial seeds (initial number of clusters) for the k-means algorithm.MatOfInt
getInitSeedIndexes()
Initial seeds (initial number of clusters) for the k-means algorithm.int
getIterationCount()
Number of iterations of the k-means clustering.float
getJoiningDistance()
Threshold euclidean distance between two centroids.int
getMaxClustersCount()
Maximal number of generated clusters.int
getSampleCount()
Number of initial samples taken from the image.MatOfPoint2f
getSamplingPoints()
Initial samples taken from the image.float
getWeightA()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.float
getWeightB()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.float
getWeightContrast()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.float
getWeightEntropy()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.float
getWeightL()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.float
getWeightX()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.float
getWeightY()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.int
getWindowRadius()
Size of the texture sampling window used to compute contrast and entropy (center of the window is always in the pixel selected by x,y coordinates of the corresponding feature sample).void
setClusterMinSize(int clusterMinSize)
This parameter multiplied by the index of iteration gives lower limit for cluster size.void
setDistanceFunction(int distanceFunction)
Distance function selector used for measuring distance between two points in k-means.void
setDropThreshold(float dropThreshold)
Remove centroids in k-means whose weight is lesser or equal to given threshold.void
setGrayscaleBits(int grayscaleBits)
Color resolution of the greyscale bitmap represented in allocated bits (i.e., value 4 means that 16 shades of grey are used).void
setInitSeedIndexes(MatOfInt initSeedIndexes)
Initial seed indexes for the k-means algorithm.void
setIterationCount(int iterationCount)
Number of iterations of the k-means clustering.void
setJoiningDistance(float joiningDistance)
Threshold euclidean distance between two centroids.void
setMaxClustersCount(int maxClustersCount)
Maximal number of generated clusters.void
setSamplingPoints(MatOfPoint2f samplingPoints)
Sets sampling points used to sample the input image.void
setTranslation(int idx, float value)
Translations of the individual axes of the feature space.void
setTranslations(MatOfFloat translations)
Translations of the individual axes of the feature space.void
setWeight(int idx, float value)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space.void
setWeightA(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.void
setWeightB(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.void
setWeightContrast(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.void
setWeightEntropy(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.void
setWeightL(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.void
setWeights(MatOfFloat weights)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space.void
setWeightX(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.void
setWeightY(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast.void
setWindowRadius(int radius)
Size of the texture sampling window used to compute contrast and entropy (center of the window is always in the pixel selected by x,y coordinates of the corresponding feature sample).-
Methods inherited from class org.opencv.core.Algorithm
clear, empty, getDefaultName, getNativeObjAddr, save
-
-
-
-
Field Detail
-
UNIFORM
public static final int UNIFORM
- See Also:
- Constant Field Values
-
REGULAR
public static final int REGULAR
- See Also:
- Constant Field Values
-
NORMAL
public static final int NORMAL
- See Also:
- Constant Field Values
-
L0_25
public static final int L0_25
- See Also:
- Constant Field Values
-
L0_5
public static final int L0_5
- See Also:
- Constant Field Values
-
L1
public static final int L1
- See Also:
- Constant Field Values
-
L2
public static final int L2
- See Also:
- Constant Field Values
-
L2SQUARED
public static final int L2SQUARED
- See Also:
- Constant Field Values
-
L5
public static final int L5
- See Also:
- Constant Field Values
-
L_INFINITY
public static final int L_INFINITY
- See Also:
- Constant Field Values
-
MINUS
public static final int MINUS
- See Also:
- Constant Field Values
-
GAUSSIAN
public static final int GAUSSIAN
- See Also:
- Constant Field Values
-
HEURISTIC
public static final int HEURISTIC
- See Also:
- Constant Field Values
-
-
Method Detail
-
__fromPtr__
public static PCTSignatures __fromPtr__(long addr)
-
create
public static PCTSignatures create(int initSampleCount, int initSeedCount, int pointDistribution)
Creates PCTSignatures algorithm using sample and seed count. It generates its own sets of sampling points and clusterization seed indexes.- Parameters:
initSampleCount
- Number of points used for image sampling.initSeedCount
- Number of initial clusterization seeds. Must be lower or equal to initSampleCountpointDistribution
- Distribution of generated points. Default: UNIFORM. Available: UNIFORM, REGULAR, NORMAL.- Returns:
- Created algorithm.
-
create
public static PCTSignatures create(int initSampleCount, int initSeedCount)
Creates PCTSignatures algorithm using sample and seed count. It generates its own sets of sampling points and clusterization seed indexes.- Parameters:
initSampleCount
- Number of points used for image sampling.initSeedCount
- Number of initial clusterization seeds. Must be lower or equal to initSampleCount Available: UNIFORM, REGULAR, NORMAL.- Returns:
- Created algorithm.
-
create
public static PCTSignatures create(int initSampleCount)
Creates PCTSignatures algorithm using sample and seed count. It generates its own sets of sampling points and clusterization seed indexes.- Parameters:
initSampleCount
- Number of points used for image sampling. Must be lower or equal to initSampleCount Available: UNIFORM, REGULAR, NORMAL.- Returns:
- Created algorithm.
-
create
public static PCTSignatures create()
Creates PCTSignatures algorithm using sample and seed count. It generates its own sets of sampling points and clusterization seed indexes. Must be lower or equal to initSampleCount Available: UNIFORM, REGULAR, NORMAL.- Returns:
- Created algorithm.
-
create
public static PCTSignatures create(MatOfPoint2f initSamplingPoints, int initSeedCount)
Creates PCTSignatures algorithm using pre-generated sampling points and number of clusterization seeds. It uses the provided sampling points and generates its own clusterization seed indexes.- Parameters:
initSamplingPoints
- Sampling points used in image sampling.initSeedCount
- Number of initial clusterization seeds. Must be lower or equal to initSamplingPoints.size().- Returns:
- Created algorithm.
-
create
public static PCTSignatures create(MatOfPoint2f initSamplingPoints, MatOfInt initClusterSeedIndexes)
Creates PCTSignatures algorithm using pre-generated sampling points and clusterization seeds indexes.- Parameters:
initSamplingPoints
- Sampling points used in image sampling.initClusterSeedIndexes
- Indexes of initial clusterization seeds. Its size must be lower or equal to initSamplingPoints.size().- Returns:
- Created algorithm.
-
getDropThreshold
public float getDropThreshold()
Remove centroids in k-means whose weight is lesser or equal to given threshold.- Returns:
- automatically generated
-
getJoiningDistance
public float getJoiningDistance()
Threshold euclidean distance between two centroids. If two cluster centers are closer than this distance, one of the centroid is dismissed and points are reassigned.- Returns:
- automatically generated
-
getWeightA
public float getWeightA()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Returns:
- automatically generated
-
getWeightB
public float getWeightB()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Returns:
- automatically generated
-
getWeightContrast
public float getWeightContrast()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Returns:
- automatically generated
-
getWeightEntropy
public float getWeightEntropy()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Returns:
- automatically generated
-
getWeightL
public float getWeightL()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Returns:
- automatically generated
-
getWeightX
public float getWeightX()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Returns:
- automatically generated
-
getWeightY
public float getWeightY()
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Returns:
- automatically generated
-
getClusterMinSize
public int getClusterMinSize()
This parameter multiplied by the index of iteration gives lower limit for cluster size. Clusters containing fewer points than specified by the limit have their centroid dismissed and points are reassigned.- Returns:
- automatically generated
-
getDistanceFunction
public int getDistanceFunction()
Distance function selector used for measuring distance between two points in k-means.- Returns:
- automatically generated
-
getGrayscaleBits
public int getGrayscaleBits()
Color resolution of the greyscale bitmap represented in allocated bits (i.e., value 4 means that 16 shades of grey are used). The greyscale bitmap is used for computing contrast and entropy values.- Returns:
- automatically generated
-
getInitSeedCount
public int getInitSeedCount()
Number of initial seeds (initial number of clusters) for the k-means algorithm.- Returns:
- automatically generated
-
getIterationCount
public int getIterationCount()
Number of iterations of the k-means clustering. We use fixed number of iterations, since the modified clustering is pruning clusters (not iteratively refining k clusters).- Returns:
- automatically generated
-
getMaxClustersCount
public int getMaxClustersCount()
Maximal number of generated clusters. If the number is exceeded, the clusters are sorted by their weights and the smallest clusters are cropped.- Returns:
- automatically generated
-
getSampleCount
public int getSampleCount()
Number of initial samples taken from the image.- Returns:
- automatically generated
-
getWindowRadius
public int getWindowRadius()
Size of the texture sampling window used to compute contrast and entropy (center of the window is always in the pixel selected by x,y coordinates of the corresponding feature sample).- Returns:
- automatically generated
-
getSamplingPoints
public MatOfPoint2f getSamplingPoints()
Initial samples taken from the image. These sampled features become the input for clustering.- Returns:
- automatically generated
-
getInitSeedIndexes
public MatOfInt getInitSeedIndexes()
Initial seeds (initial number of clusters) for the k-means algorithm.- Returns:
- automatically generated
-
computeSignature
public void computeSignature(Mat image, Mat signature)
Computes signature of given image.- Parameters:
image
- Input image of CV_8U type.signature
- Output computed signature.
-
computeSignatures
public void computeSignatures(java.util.List<Mat> images, java.util.List<Mat> signatures)
Computes signatures for multiple images in parallel.- Parameters:
images
- Vector of input images of CV_8U type.signatures
- Vector of computed signatures.
-
drawSignature
public static void drawSignature(Mat source, Mat signature, Mat result, float radiusToShorterSideRatio, int borderThickness)
Draws signature in the source image and outputs the result. Signatures are visualized as a circle with radius based on signature weight and color based on signature color. Contrast and entropy are not visualized.- Parameters:
source
- Source image.signature
- Image signature.result
- Output result.radiusToShorterSideRatio
- Determines maximal radius of signature in the output image.borderThickness
- Border thickness of the visualized signature.
-
drawSignature
public static void drawSignature(Mat source, Mat signature, Mat result, float radiusToShorterSideRatio)
Draws signature in the source image and outputs the result. Signatures are visualized as a circle with radius based on signature weight and color based on signature color. Contrast and entropy are not visualized.- Parameters:
source
- Source image.signature
- Image signature.result
- Output result.radiusToShorterSideRatio
- Determines maximal radius of signature in the output image.
-
drawSignature
public static void drawSignature(Mat source, Mat signature, Mat result)
Draws signature in the source image and outputs the result. Signatures are visualized as a circle with radius based on signature weight and color based on signature color. Contrast and entropy are not visualized.- Parameters:
source
- Source image.signature
- Image signature.result
- Output result.
-
generateInitPoints
public static void generateInitPoints(MatOfPoint2f initPoints, int count, int pointDistribution)
Generates initial sampling points according to selected point distribution.- Parameters:
initPoints
- Output vector where the generated points will be saved.count
- Number of points to generate.pointDistribution
- Point distribution selector. Available: UNIFORM, REGULAR, NORMAL. Note: Generated coordinates are in range [0..1)
-
setClusterMinSize
public void setClusterMinSize(int clusterMinSize)
This parameter multiplied by the index of iteration gives lower limit for cluster size. Clusters containing fewer points than specified by the limit have their centroid dismissed and points are reassigned.- Parameters:
clusterMinSize
- automatically generated
-
setDistanceFunction
public void setDistanceFunction(int distanceFunction)
Distance function selector used for measuring distance between two points in k-means. Available: L0_25, L0_5, L1, L2, L2SQUARED, L5, L_INFINITY.- Parameters:
distanceFunction
- automatically generated
-
setDropThreshold
public void setDropThreshold(float dropThreshold)
Remove centroids in k-means whose weight is lesser or equal to given threshold.- Parameters:
dropThreshold
- automatically generated
-
setGrayscaleBits
public void setGrayscaleBits(int grayscaleBits)
Color resolution of the greyscale bitmap represented in allocated bits (i.e., value 4 means that 16 shades of grey are used). The greyscale bitmap is used for computing contrast and entropy values.- Parameters:
grayscaleBits
- automatically generated
-
setInitSeedIndexes
public void setInitSeedIndexes(MatOfInt initSeedIndexes)
Initial seed indexes for the k-means algorithm.- Parameters:
initSeedIndexes
- automatically generated
-
setIterationCount
public void setIterationCount(int iterationCount)
Number of iterations of the k-means clustering. We use fixed number of iterations, since the modified clustering is pruning clusters (not iteratively refining k clusters).- Parameters:
iterationCount
- automatically generated
-
setJoiningDistance
public void setJoiningDistance(float joiningDistance)
Threshold euclidean distance between two centroids. If two cluster centers are closer than this distance, one of the centroid is dismissed and points are reassigned.- Parameters:
joiningDistance
- automatically generated
-
setMaxClustersCount
public void setMaxClustersCount(int maxClustersCount)
Maximal number of generated clusters. If the number is exceeded, the clusters are sorted by their weights and the smallest clusters are cropped.- Parameters:
maxClustersCount
- automatically generated
-
setSamplingPoints
public void setSamplingPoints(MatOfPoint2f samplingPoints)
Sets sampling points used to sample the input image.- Parameters:
samplingPoints
- Vector of sampling points in range [0..1) Note: Number of sampling points must be greater or equal to clusterization seed count.
-
setTranslation
public void setTranslation(int idx, float value)
Translations of the individual axes of the feature space.- Parameters:
idx
- ID of the translationvalue
- Value of the translation Note: WEIGHT_IDX = 0; X_IDX = 1; Y_IDX = 2; L_IDX = 3; A_IDX = 4; B_IDX = 5; CONTRAST_IDX = 6; ENTROPY_IDX = 7;
-
setTranslations
public void setTranslations(MatOfFloat translations)
Translations of the individual axes of the feature space.- Parameters:
translations
- Values of all translations. Note: WEIGHT_IDX = 0; X_IDX = 1; Y_IDX = 2; L_IDX = 3; A_IDX = 4; B_IDX = 5; CONTRAST_IDX = 6; ENTROPY_IDX = 7;
-
setWeight
public void setWeight(int idx, float value)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space.- Parameters:
idx
- ID of the weightvalue
- Value of the weight Note: WEIGHT_IDX = 0; X_IDX = 1; Y_IDX = 2; L_IDX = 3; A_IDX = 4; B_IDX = 5; CONTRAST_IDX = 6; ENTROPY_IDX = 7;
-
setWeightA
public void setWeightA(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Parameters:
weight
- automatically generated
-
setWeightB
public void setWeightB(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Parameters:
weight
- automatically generated
-
setWeightContrast
public void setWeightContrast(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Parameters:
weight
- automatically generated
-
setWeightEntropy
public void setWeightEntropy(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Parameters:
weight
- automatically generated
-
setWeightL
public void setWeightL(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Parameters:
weight
- automatically generated
-
setWeightX
public void setWeightX(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Parameters:
weight
- automatically generated
-
setWeightY
public void setWeightY(float weight)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space (x,y = position; L,a,b = color in CIE Lab space; c = contrast. e = entropy)- Parameters:
weight
- automatically generated
-
setWeights
public void setWeights(MatOfFloat weights)
Weights (multiplicative constants) that linearly stretch individual axes of the feature space.- Parameters:
weights
- Values of all weights. Note: WEIGHT_IDX = 0; X_IDX = 1; Y_IDX = 2; L_IDX = 3; A_IDX = 4; B_IDX = 5; CONTRAST_IDX = 6; ENTROPY_IDX = 7;
-
setWindowRadius
public void setWindowRadius(int radius)
Size of the texture sampling window used to compute contrast and entropy (center of the window is always in the pixel selected by x,y coordinates of the corresponding feature sample).- Parameters:
radius
- automatically generated
-
-