Sciweavers

ICIP
2003
IEEE

K-Voronoi diagrams computing in arbitrary domains

14 years 5 months ago
K-Voronoi diagrams computing in arbitrary domains
We propose a novel algorithm to compute Voronoi diagrams of order k in arbitrary 2D and 3D domains. The algorithm is based on a fast ordered propagation distance transformation called occlusion points propagation geodesic distance transformation (OPPGDT) which is robust and linear in the domain size, and has higher accuracy than other geodesic distance transformations published before. Our approach has proved to have a computational complexity of order O(k.m) with m the domain size and k the order of the diagram. Voronoi diagrams have been extensively used in many areas and we show here that Voronoi diagrams computed in non convex domains, are extremely useful for the segmentation of medical images. We validated our algorithm with a set of 2D and 3D synthetic non convex domains, and with the segmentation of a medical dataset showing its robustness and performance.
Rubén Cárdenes, Simon K. Warfield, A
Added 04 Jul 2010
Updated 04 Jul 2010
Type Conference
Year 2003
Where ICIP
Authors Rubén Cárdenes, Simon K. Warfield, Andrea J. U. Mewes, Juan Ruiz-Alzola
Comments (0)