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An Iterative Morphological Decomposition Algorithm for Reduction of Skeleton Points


Affiliations
1 Dept. of IT, R.V.R & J.C College of Eng. Guntur, India
2 Dept. of CSE, AMRITA School of Eng., Coimbatore, India
3 Dept. of IT, R.V.R & J.C College of Eng., Guntur, India
 

Shape representation is an important aspect in image processing and computer vision. There are several skeleton transforms that lead to morphological shape representation algorithm. One of the main problems with these algorithms is in selecting the skeleton points that represent the shape component. If the numbers of skeleton subsets are reduced then the reconstruction process will be easy and time consuming. The present paper proposes a skeleton scheme that selects skeleton points based on the largest shape element. By this, overall skeleton subsets will be reduced. The present method is applied on various images and is compared with generalized skeleton transform and octagon-generating decomposition algorithm.

Keywords

Skeleton Subsets, Reconstruction, Shape Component, Structuring Element, Shape Representation.
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  • An Iterative Morphological Decomposition Algorithm for Reduction of Skeleton Points

Abstract Views: 316  |  PDF Views: 146

Authors

A. Sri Krishna
Dept. of IT, R.V.R & J.C College of Eng. Guntur, India
G. L. K. Vasista
Dept. of CSE, AMRITA School of Eng., Coimbatore, India
N. Neelima
Dept. of IT, R.V.R & J.C College of Eng., Guntur, India

Abstract


Shape representation is an important aspect in image processing and computer vision. There are several skeleton transforms that lead to morphological shape representation algorithm. One of the main problems with these algorithms is in selecting the skeleton points that represent the shape component. If the numbers of skeleton subsets are reduced then the reconstruction process will be easy and time consuming. The present paper proposes a skeleton scheme that selects skeleton points based on the largest shape element. By this, overall skeleton subsets will be reduced. The present method is applied on various images and is compared with generalized skeleton transform and octagon-generating decomposition algorithm.

Keywords


Skeleton Subsets, Reconstruction, Shape Component, Structuring Element, Shape Representation.