MILES FORMULAE FOR BOOLEAN MODELS OBSERVED ON LATTICES

MILES FORMULAE FOR BOOLEAN MODELS OBSERVED ON LATTICES

The densities of the intrinsic volumes – in 3D the volume density, surface density, the density of the integral of the mean curvature and the density of the Euler number – are a very useful collection of geometric characteristics of random sets. Combining integral and digital geometry we develop a m...

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Bibliographic Details
Main Authors: Joachim Ohser, Werner Nagel, Katja Schladitz
Format: Article
Language:English
Published: Slovenian Society for Stereology and Quantitative Image Analysis 2011-05-01
Series:Image Analysis and Stereology
Subjects:
Boolean models
digital topology
image analysis
Miles' formulae
Minkowski functionals
quermass densities
volume images
Online Access:http://www.ias-iss.org/ojs/IAS/article/view/851
Description
Summary:The densities of the intrinsic volumes – in 3D the volume density, surface density, the density of the integral of the mean curvature and the density of the Euler number – are a very useful collection of geometric characteristics of random sets. Combining integral and digital geometry we develop a method for efficient and simultaneous calculation of the intrinsic volumes of random sets observed in binary images in arbitrary dimensions. We consider isotropic and reflection invariant Boolean models sampled on homogeneous lattices and compute the expectations of the estimators of the intrinsic volumes. It turns out that the estimator for the surface density is proved to be asymptotically unbiased and thusmultigrid convergent for Boolean models with convex grains. The asymptotic bias of the estimators for the densities of the integral of the mean curvature and of the Euler number is assessed for Boolean models of balls of random diameters. Miles formulae with corresponding correction terms are derived for the 3D case.
ISSN:1580-3139
1854-5165

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