. 2007:20:333-45.

doi: 10.1007/978-3-540-73273-0_28.

Shape modeling and analysis with entropy-based particle systems

Joshua Cates¹, P Thomas Fletcher, Martin Styner, Martha Shenton, Ross Whitaker

Affiliations

PMID: 17633711
PMCID: PMC2768473
DOI: 10.1007/978-3-540-73273-0_28

Shape modeling and analysis with entropy-based particle systems

Joshua Cates et al. Inf Process Med Imaging. 2007.

. 2007:20:333-45.

doi: 10.1007/978-3-540-73273-0_28.

Authors

Joshua Cates¹, P Thomas Fletcher, Martin Styner, Martha Shenton, Ross Whitaker

Affiliation

¹ School of Computing, University of Utah, Salt Lake City UT, USA.

PMID: 17633711
PMCID: PMC2768473
DOI: 10.1007/978-3-540-73273-0_28

Abstract

This paper presents a new method for constructing compact statistical point-based models of ensembles of similar shapes that does not rely on any specific surface parameterization. The method requires very little preprocessing or parameter tuning, and is applicable to a wider range of problems than existing methods, including nonmanifold surfaces and objects of arbitrary topology. The proposed method is to construct a point-based sampling of the shape ensemble that simultaneously maximizes both the geometric accuracy and the statistical simplicity of the model. Surface point samples, which also define the shape-to-shape correspondences, are modeled as sets of dynamic particles that are constrained to lie on a set of implicit surfaces. Sample positions are optimized by gradient descent on an energy function that balances the negative entropy of the distribution on each shape with the positive entropy of the ensemble of shapes. We also extend the method with a curvature-adaptive sampling strategy in order to better approximate the geometry of the objects. This paper presents the formulation; several synthetic examples in two and three dimensions; and an application to the statistical shape analysis of the caudate and hippocampus brain structures from two clinical studies.

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Figures

**Fig. 1**
A system of 100 particles on a sphere, produced by particle splitting.

**Fig. 3**
The mean and ±3 std. deviations of the top 3 modes of the hand models.

**Fig. 4**
Surface meshes of the mean and two modes of variation at ±3 standard deviations of the right hippocampus model.

**Fig. 5**
P-value maps for the hippocampus and caudate shape analyses, shown on the mean shape. Red indicates significant group differences (p <= .05)

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Shape modeling and analysis with entropy-based particle systems

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