gray_skeletongray_skeletonGraySkeletonGraySkeleton (Operator)

Name

gray_skeletongray_skeletonGraySkeletonGraySkeleton — Thinning of gray value images.

Signature

gray_skeleton(Image : GraySkeleton : : )

Herror gray_skeleton(const Hobject Image, Hobject* GraySkeleton)

Herror T_gray_skeleton(const Hobject Image, Hobject* GraySkeleton)

void GraySkeleton(const HObject& Image, HObject* GraySkeleton)

HImage HImage::GraySkeleton() const

static void HOperatorSet.GraySkeleton(HObject image, out HObject graySkeleton)

HImage HImage.GraySkeleton()

Description

gray_skeletongray_skeletonGraySkeletonGraySkeletonGraySkeleton applies a gray value thinning operation to the input image ImageImageImageImageimage. Figuratively, the gray value “mountain range” is reduced to its ridge lines by setting the gray value of “hillsides” to the gray value at the corresponding valley bottom. The resulting ridge lines are at most two pixels wide. This operator is especially useful for thinning edge images, and is thus an alternative to nonmax_suppression_ampnonmax_suppression_ampNonmaxSuppressionAmpNonmaxSuppressionAmpNonmaxSuppressionAmp. In contrast to nonmax_suppression_ampnonmax_suppression_ampNonmaxSuppressionAmpNonmaxSuppressionAmpNonmaxSuppressionAmp, gray_skeletongray_skeletonGraySkeletonGraySkeletonGraySkeleton preserves contours, but is much slower. In contrast to skeletonskeletonSkeletonSkeletonSkeleton, this operator changes the gray values of an image while leaving its region unchanged.

Attention

Note that filter operators may return unexpected results if an image with a reduced domain is used as input. Please refer to the chapter Filters.

Execution Information

Parameters

ImageImageImageImageimage (input_object)  (multichannel-)image(-array) objectHImageHImageHobject (byte / uint2)

Image to be thinned.

GraySkeletonGraySkeletonGraySkeletonGraySkeletongraySkeleton (output_object)  (multichannel-)image(-array) objectHImageHImageHobject * (byte / uint2)

Thinned image.

Example (HDevelop)

* Seeking leafs of a beech tree in an aerial picture:
read_image(Image,'forest')
gray_skeleton(Image,Skelett)
mean_image(Skelett,MeanSkelett,7,7)
dyn_threshold(Skelett,MeanSkelett,Leafs,3,'light')

Example (C)

/* Seeking leafs of a tree in an aerial picture: */
read_image(&Image,"forest");
gray_skeleton(Image&,Skelett);
mean_image(Skelett,&MeanSkelett,7,7);
dyn_threshold(Skelett,MeanSkelett,&Leafs,3.0,"light");

Example (HDevelop)

* Seeking leafs of a beech tree in an aerial picture:
read_image(Image,'forest')
gray_skeleton(Image,Skelett)
mean_image(Skelett,MeanSkelett,7,7)
dyn_threshold(Skelett,MeanSkelett,Leafs,3,'light')

Example (HDevelop)

* Seeking leafs of a beech tree in an aerial picture:
read_image(Image,'forest')
gray_skeleton(Image,Skelett)
mean_image(Skelett,MeanSkelett,7,7)
dyn_threshold(Skelett,MeanSkelett,Leafs,3,'light')

Example (HDevelop)

* Seeking leafs of a beech tree in an aerial picture:
read_image(Image,'forest')
gray_skeleton(Image,Skelett)
mean_image(Skelett,MeanSkelett,7,7)
dyn_threshold(Skelett,MeanSkelett,Leafs,3,'light')

Result

gray_skeletongray_skeletonGraySkeletonGraySkeletonGraySkeleton returns 2 (H_MSG_TRUE) if all parameters are correct. If the input is empty the behavior can be set via set_system('no_object_result',<Result>)set_system("no_object_result",<Result>)SetSystem("no_object_result",<Result>)SetSystem("no_object_result",<Result>)SetSystem("no_object_result",<Result>). If necessary, an exception is raised.

Possible Successors

mean_imagemean_imageMeanImageMeanImageMeanImage

Alternatives

nonmax_suppression_ampnonmax_suppression_ampNonmaxSuppressionAmpNonmaxSuppressionAmpNonmaxSuppressionAmp, nonmax_suppression_dirnonmax_suppression_dirNonmaxSuppressionDirNonmaxSuppressionDirNonmaxSuppressionDir, local_maxlocal_maxLocalMaxLocalMaxLocalMax

See also

skeletonskeletonSkeletonSkeletonSkeleton, gray_dilation_rectgray_dilation_rectGrayDilationRectGrayDilationRectGrayDilationRect

Module

Foundation