详细说明

类
类	cv::AffineTransformer
	OpenCV仿射变换算法的包装类。 : 更多...

类	cv::ChiHistogramCostExtractor
	基于Chi的成本提取。 : 更多...

类	cv::EMDHistogramCostExtractor
	基于EMD的成本提取。 : 更多...

类	cv::EMDL1HistogramCostExtractor
	基于EMD-L1的成本提取。 : 更多...

类	cv::HausdorffDistanceExtractor
	简单地测量由轮廓定义的形状之间的 Hausdorff 距离。更多...

类	cv::HistogramCostExtractor
	直方图成本算法的抽象基类。更多...

类	cv::NormHistogramCostExtractor
	基于范数的成本提取。 : 更多...

类	cv::ShapeContextDistanceExtractor
	形状上下文描述符和匹配算法的实现。更多...

类	cv::ShapeDistanceExtractor
	形状距离算法的抽象基类。更多...

类	cv::ShapeTransformer
	形状变换算法的抽象基类。更多...

类	cv::ThinPlateSplineShapeTransformer
	变换的定义。更多...

函数
Ptr< AffineTransformer >	cv::createAffineTransformer (bool fullAffine)

Ptr< HistogramCostExtractor >	cv::createChiHistogramCostExtractor (int nDummies=25, float defaultCost=0.2f)

Ptr< HistogramCostExtractor >	cv::createEMDHistogramCostExtractor (int flag=DIST_L2, int nDummies=25, float defaultCost=0.2f)

Ptr< HistogramCostExtractor >	cv::createEMDL1HistogramCostExtractor (int nDummies=25, float defaultCost=0.2f)

Ptr< HausdorffDistanceExtractor >	cv::createHausdorffDistanceExtractor (int distanceFlag=cv::NORM_L2, float rankProp=0.6f)

Ptr< HistogramCostExtractor >	cv::createNormHistogramCostExtractor (int flag=DIST_L2, int nDummies=25, float defaultCost=0.2f)

Ptr< ShapeContextDistanceExtractor >	cv::createShapeContextDistanceExtractor (int nAngularBins=12, int nRadialBins=4, float innerRadius=0.2f, float outerRadius=2, int iterations=3, const Ptr< HistogramCostExtractor > &comparer=createChiHistogramCostExtractor(), const Ptr< ShapeTransformer > &transformer=createThinPlateSplineShapeTransformer())

Ptr< ThinPlateSplineShapeTransformer >	cv::createThinPlateSplineShapeTransformer (double regularizationParameter=0)

float	cv::EMDL1 (InputArray signature1, InputArray signature2)
	计算两个加权点配置之间的“最小工作”距离，基于论文“EMD-L1：一种高效鲁棒的直方图描述符比较算法”，作者：Haibin Ling 和 Kazunori Okuda；以及“Earth Mover's Distance是Mallows Distance：来自统计学的一些见解”，作者：Elizaveta Levina 和 Peter Bickel。

函数文档 (Function Documentation)

◆ createAffineTransformer()

Ptr< AffineTransformer > cv::createAffineTransformer ( bool fullAffine )

Python
	cv.createAffineTransformer(	fullAffine	) ->	retval

#include <opencv2/shape/shape_transformer.hpp>

完整构造函数

◆ createChiHistogramCostExtractor()

Ptr< HistogramCostExtractor > cv::createChiHistogramCostExtractor	(	int	nDummies = 25,
		float	defaultCost = 0.2f )

Python
	cv.createChiHistogramCostExtractor(	[, nDummies[, defaultCost]]	) ->	retval

#include <opencv2/shape/hist_cost.hpp>

◆ createEMDHistogramCostExtractor()

Ptr< HistogramCostExtractor > cv::createEMDHistogramCostExtractor	(	int	flag = DIST_L2,
		int	nDummies = 25,
		float	defaultCost = 0.2f )

Python
	cv.createEMDHistogramCostExtractor(	[, flag[, nDummies[, defaultCost]]]	) ->	retval

#include <opencv2/shape/hist_cost.hpp>

◆ createEMDL1HistogramCostExtractor()

Ptr< HistogramCostExtractor > cv::createEMDL1HistogramCostExtractor	(	int	nDummies = 25,
		float	defaultCost = 0.2f )

Python
	cv.createEMDL1HistogramCostExtractor(	[, nDummies[, defaultCost]]	) ->	retval

#include <opencv2/shape/hist_cost.hpp>

◆ createHausdorffDistanceExtractor()

Ptr< HausdorffDistanceExtractor > cv::createHausdorffDistanceExtractor	(	int	distanceFlag = cv::NORM_L2,
		float	rankProp = 0.6f )

Python
	cv.createHausdorffDistanceExtractor(	[, distanceFlag[, rankProp]]	) ->	retval

#include <opencv2/shape/shape_distance.hpp>

◆ createNormHistogramCostExtractor()

Ptr< HistogramCostExtractor > cv::createNormHistogramCostExtractor	(	int	flag = DIST_L2,
		int	nDummies = 25,
		float	defaultCost = 0.2f )

Python
	cv.createNormHistogramCostExtractor(	[, flag[, nDummies[, defaultCost]]]	) ->	retval

#include <opencv2/shape/hist_cost.hpp>

◆ createShapeContextDistanceExtractor()

Ptr< ShapeContextDistanceExtractor > cv::createShapeContextDistanceExtractor	(	int	nAngularBins = 12,
		int	nRadialBins = 4,
		float	innerRadius = 0.2f,
		float	outerRadius = 2,
		int	iterations = 3,
		const Ptr< HistogramCostExtractor > &	comparer = createChiHistogramCostExtractor(),
		const Ptr< ShapeTransformer > &	transformer = createThinPlateSplineShapeTransformer() )

Python
	cv.createShapeContextDistanceExtractor(	[, nAngularBins[, nRadialBins[, innerRadius[, outerRadius[, iterations[, comparer[, transformer]]]]]]]	) ->	retval

#include <opencv2/shape/shape_distance.hpp>

示例: modules/shape/samples/shape_example.cpp.

◆ createThinPlateSplineShapeTransformer()

Ptr< ThinPlateSplineShapeTransformer > cv::createThinPlateSplineShapeTransformer ( double regularizationParameter = 0 )

Python
	cv.createThinPlateSplineShapeTransformer(	[, regularizationParameter]	) ->	retval

#include <opencv2/shape/shape_transformer.hpp>

完整构造函数

◆ EMDL1()

float cv::EMDL1	(	InputArray	signature1,
		InputArray	signature2 )

#include <opencv2/shape/emdL1.hpp>

计算两个加权点配置之间的“最小工作”距离，基于论文“EMD-L1：一种高效鲁棒的直方图描述符比较算法”，作者：Haibin Ling 和 Kazunori Okuda；以及“Earth Mover's Distance是Mallows Distance：来自统计学的一些见解”，作者：Elizaveta Levina 和 Peter Bickel。

参数

signature1	第一个签名，单列浮点矩阵。每一行是每个 bin 的直方图值。
signature2	第二个签名，格式和大小与 signature1 相同。

详细说明

类

函数

函数文档 (Function Documentation)

◆ createAffineTransformer()

◆ createChiHistogramCostExtractor()

◆ createEMDHistogramCostExtractor()

◆ createEMDL1HistogramCostExtractor()

◆ createHausdorffDistanceExtractor()

◆ createNormHistogramCostExtractor()

◆ createShapeContextDistanceExtractor()

◆ createThinPlateSplineShapeTransformer()

◆ EMDL1()