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Erschienen in:
Colocalization Estimation Using Graphical Modeling and Variational Bayesian Expectation Maximization: Towards a Parameter-Free Approach Kapitel lesen Erstes Kapitel lesen

2015 | OriginalPaper | Buchkapitel

A Riemannian Framework for Intrinsic Comparison of Closed Genus-Zero Shapes

verfasst von : Boris A. Gutman, P. Thomas Fletcher, M. Jorge Cardoso, Greg M. Fleishman, Marco Lorenzi, Paul M. Thompson, Sebastien Ourselin

Erschienen in: Information Processing in Medical Imaging

Verlag: Springer International Publishing

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Abstract

We present a framework for intrinsic comparison of surface metric structures and curvatures. This work parallels the work of Kurtek et al. on parameterization-invariant comparison of genus zero shapes. Here, instead of comparing the embedding of spherically parameterized surfaces in space, we focus on the first fundamental form. To ensure that the distance on spherical metric tensor fields is invariant to parameterization, we apply the conjugation-invariant metric arising from the L 2 norm on symmetric positive definite matrices. As a reparameterization changes the metric tensor by a congruent Jacobian transform, this metric perfectly suits our purpose. The result is an intrinsic comparison of shape metric structure that does not depend on the specifics of a spherical mapping. Further, when restricted to tensors of fixed volume form, the manifold of metric tensor fields and its quotient of the group of unitary diffeomorphisms becomes a proper metric manifold that is geodesically complete. Exploiting this fact, and augmenting the metric with analogous metrics on curvatures, we derive a complete Riemannian framework for shape comparison and reconstruction. A by-product of our framework is a near-isometric and curvature-preserving mapping between surfaces. The correspondence is optimized using the fast spherical fluid algorithm. We validate our framework using several subcortical boundary surface models from the ADNI dataset.

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Vorheriges Kapitel Anisotropic Distributions on Manifolds: Template Estimation and Most Probable Paths
Nächstes Kapitel Multi-atlas Segmentation as a Graph Labelling Problem: Application to Partially Annotated Atlas Data
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Metadaten
Titel
A Riemannian Framework for Intrinsic Comparison of Closed Genus-Zero Shapes
verfasst von
Boris A. Gutman
P. Thomas Fletcher
M. Jorge Cardoso
Greg M. Fleishman
Marco Lorenzi
Paul M. Thompson
Sebastien Ourselin
Copyright-Jahr
2015
Buch
Information Processing in Medical Imaging

Print ISBN: 978-3-319-19991-7

Electronic ISBN: 978-3-319-19992-4

Copyright-Jahr: 2015

DOI
https://doi.org/10.1007/978-3-319-19992-4_16

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