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Global Segmentation And Curvature Analysis of Volumetric Data Sets Using Trivariate B-Spline Functions

Octavian Soldea, Gershon Elber, and Ehud Rivlin.
Global Segmentation and Curvature Analysis of Volumetric Data Sets Using Trivariate B-Spline Functions.
IEEE Trans. Pattern Anal. Mach. Intell., 28(2):265-278, 2006

Online Version

A pdf version is available for download.

Abstract

This paper presents a method to globally segment volumetric images into regions that contain convex or concave (elliptic) iso-surfaces, planar or cylindrical (parabolic) iso-surfaces, and volumetric regions with saddle-like (hyperbolic) iso-surfaces, regardless of the value of the iso-surface level. The proposed scheme relies on a novel approach to globally compute, bound, and analyze the Gaussian and mean curvatures of an entire volumetric data set, using a trivariate B-spline volumetric representation. This scheme derives a new differential scalar field for a given volumetric scalar field, which could easily be adapted to other differential properties. Moreover, this scheme can set the basis for more precise and accurate segmentation of data sets targeting the identification of primitive parts. Since the proposed scheme employs piecewise continuous functions, it is precise and insensitive to aliasing.

Keywords

• Function.

Co-authors

• Soldea, Octavian,
• Elber, Gershon.

Bibtex Entry

@article{SoldeaER06a,
  title = {Global Segmentation and Curvature Analysis of Volumetric Data Sets Using Trivariate B-Spline Functions.},
  author = {Octavian Soldea and Gershon Elber and Ehud Rivlin},
  year = {2006},
  month = {February},
  journal = {IEEE Trans. Pattern Anal. Mach. Intell.},
  volume = {28},
  number = {2},
  pages = {265-278},
  keywords = {Function},
  abstract = {This paper presents a method to globally segment volumetric images into regions that contain convex or concave (elliptic) iso-surfaces, planar or cylindrical (parabolic) iso-surfaces, and volumetric regions with saddle-like (hyperbolic) iso-surfaces, regardless of the value of the iso-surface level. The proposed scheme relies on a novel approach to globally compute, bound, and analyze the Gaussian and mean curvatures of an entire volumetric data set, using a trivariate B-spline volumetric representation. This scheme derives a new differential scalar field for a given volumetric scalar field, which could easily be adapted to other differential properties. Moreover, this scheme can set the basis for more precise and accurate segmentation of data sets targeting the identification of primitive parts. Since the proposed scheme employs piecewise continuous functions, it is precise and insensitive to aliasing.}
}