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Bioinspired parallel 2D or 3D skeletonization

 

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Opened Access Bioinspired parallel 2D or 3D skeletonization
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Author: Reina Molina, Raúl
Díaz Pernil, Daniel
Department: Universidad de Sevilla. Departamento de Matemática Aplicada I
Date: 2013
Published in: Image-A : Applicable Mathematics in Image Engineering, 3 (6), 41-44
Document type: Article
Abstract: Algebraic Topology has been proved to be an useful tool to be used in image processing. In this case we will borrow some elements from Algebraic Topology in order to show a parallel algorithm for thinning a binary 3D image respecting its shape information. The parallelization of the thinning algorithm is based on Membrane Computing. This research area has already been proved to be useful in the development of parallel image processing algorithms. We present here the main guidelines of the algorithms along with a slight introduction about some basic required knowledge about Algebraic Topology and Membrane Computing.
Cite: Reina Molina, R. y Díaz Pernil, D. (2013). Bioinspired parallel 2D or 3D skeletonization. Image-A : Applicable Mathematics in Image Engineering, 3 (6), 41-44.
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Format: PDF

URI: http://hdl.handle.net/11441/26542

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