An improved smoothed watershed algorithm for gray-scale skeletonization of thermal vein patterns

Wang, Lingyu; Leedham, Graham

Author(s)

Wang, Lingyu

Leedham, Graham

Publication Date

2007

Abstract

In vein pattern biometrics, analysis of the shape of the vein pattern is the most critical task for person identification. One of best representations of the shape of vein patterns is the skeleton of the pattern. Many traditional skeletonization algorithms are based on binary images. In this paper, we propose a novel technique that utilizes the watershed algorithm to extract the skeletons of vein patterns directly from gray-scale images. It also utilizes a polynomial curve fitting technique to produce smooth skeletons. This approach eliminates the segmentation stage, and hence prevents any error occurring during this process from propagating to the skeletonization stage. Experiments were carried out on a thermal vein pattern images database. Results show that the watershed algorithm is capable of extracting the smooth skeletons of the veins effectively, and also avoids any artifacts introduced by the binarization stage.

Citation

Proceedings of the International Workshop on Advanced Image Technology (IWAIT 2007), p. 405-410

Link

https://hdl.handle.net/1959.11/9755

Language

en

Publisher

Thai Embedded Systems Society (TESA)

Title

An improved smoothed watershed algorithm for gray-scale skeletonization of thermal vein patterns

Type of document

Conference Publication

Entity Type

Publication

Author(s)	Wang, Lingyu Leedham, Graham
Publication Date	2007
Abstract	In vein pattern biometrics, analysis of the shape of the vein pattern is the most critical task for person identification. One of best representations of the shape of vein patterns is the skeleton of the pattern. Many traditional skeletonization algorithms are based on binary images. In this paper, we propose a novel technique that utilizes the watershed algorithm to extract the skeletons of vein patterns directly from gray-scale images. It also utilizes a polynomial curve fitting technique to produce smooth skeletons. This approach eliminates the segmentation stage, and hence prevents any error occurring during this process from propagating to the skeletonization stage. Experiments were carried out on a thermal vein pattern images database. Results show that the watershed algorithm is capable of extracting the smooth skeletons of the veins effectively, and also avoids any artifacts introduced by the binarization stage.
Citation	Proceedings of the International Workshop on Advanced Image Technology (IWAIT 2007), p. 405-410
Link	https://hdl.handle.net/1959.11/9755
Language	en
Publisher	Thai Embedded Systems Society (TESA)
Title	An improved smoothed watershed algorithm for gray-scale skeletonization of thermal vein patterns
Type of document	Conference Publication
Entity Type	Publication

An improved smoothed watershed algorithm for gray-scale skeletonization of thermal vein patterns

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