Title :
A Curvature-Adaptive Implicit Surface Reconstruction for Irregularly Spaced Points
Author :
Zagorchev, Lyubomir G. ; Goshtasby, A. Ardeshir
Abstract :
A curvature-adaptive implicit surface reconstruction for noisy and irregularly spaced points in 3D is introduced. The reconstructed surface traces the zero crossings of a signed field obtained from the sum of first-derivative anisotropic Gaussians centered at the points. The standard deviations of the anisotropic Gaussians are adapted to surface curvatures estimated from local data. A key characteristic of the formulation is its ability to smooth more along edges than across them, thereby preserving shape details while smoothing noise. The behavior of the proposed method under various density and organization of points is investigated and surface reconstruction results are compared with those obtained by well-known methods in the literature.
Keywords :
Gaussian processes; smoothing methods; solid modelling; 3D surface reconstruction; computer graphics; curvature-adaptive implicit surface reconstruction; first-derivative anisotropic Gaussians; irregularly spaced points; local data; noise smoothing; noisy spaced points; shape details preservation; signed field zero crossings; standard deviations; surface curvatures; Image reconstruction; Rough surfaces; Shape; Smoothing methods; Surface reconstruction; Surface roughness; Surface treatment; Computer graphics; implicit surface; point cloud; smoothness parameter.; surface reconstruction;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2011.276
