Watershed Cuts: Thinnings, Shortest Path Forests, and Topological Watersheds

Author

Cousty, Jean ; Bertrand, Gilles ; Najman, Laurent ; Couprie, Michel

Volume

32

Issue

5

fYear

2010

fDate

5/1/2010 12:00:00 AM

Firstpage

925

Lastpage

939

Abstract

We recently introduced watershed cuts, a notion of watershed in edge-weighted graphs. In this paper, our main contribution is a thinning paradigm from which we derive three algorithmic watershed cut strategies: The first one is well suited to parallel implementations, the second one leads to a flexible linear-time sequential implementation, whereas the third one links the watershed cuts and the popular flooding algorithms. We state that watershed cuts preserve a notion of contrast, called connection value, on which several morphological region merging methods are (implicitly) based. We also establish the links and differences between watershed cuts, minimum spanning forests, shortest path forests, and topological watersheds. Finally, we present illustrations of the proposed framework to the segmentation of artwork surfaces and diffusion tensor images.

Keywords

graph theory; image segmentation; tensors; algorithmic watershed cut strategies; artwork surface segmentation; diffusion tensor image segmentation; edge-weighted graphs; flooding algorithms; minimum spanning forests; morphological region merging methods; shortest path forests; thinning paradigm; topological watersheds; Extremities; Floods; Gray-scale; Image segmentation; Merging; Pixel; Surface morphology; Surface topography; Tensile stress; Weight measurement; Watershed; connection value; image segmentation.; minimum spanning forest; shortest path forest; thinning; Algorithms; Artificial Intelligence; Image Interpretation, Computer-Assisted; Pattern Recognition, Automated; Subtraction Technique;

fLanguage

English

Journal_Title

Pattern Analysis and Machine Intelligence, IEEE Transactions on

Publisher

ieee

ISSN

0162-8828

Type

jour

DOI

10.1109/TPAMI.2009.71

Filename

4815259