Fast distance transformation on irregular two-dimensional grids

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摘要

In this article, we propose a new fast algorithm to compute the squared Euclidean distance transform (E2DT) on every two-dimensional (2-D) irregular isothetic grids (regular square grids, quadtree based grids, etc.). Our new fast algorithm is an extension of the E2DT method proposed by Breu et al. [3]. It is based on the implicit order of the cells in the grid, and builds a partial Voronoi diagram of the centers of background cells thanks to a data structure of lists. We compare the execution time of our method with the ones of others approaches we developed in previous works. In those experiments, we consider various kinds of classical 2-D grids in imagery to show the interest of our methodology, and to point out its robustness. We also show that our method may be interesting regarding an application where we extract an adaptive medial axis construction based on a quadtree decomposition scheme.

论文关键词:Squared Euclidean distance transformation,Irregular grids,Quadtree,Run length encoding,Voronoi diagram,Medial axis extraction

论文评审过程:Received 13 November 2009, Revised 23 February 2010, Accepted 22 April 2010, Available online 27 April 2010.

论文官网地址:https://doi.org/10.1016/j.patcog.2010.04.018