Statistics on diffeomorphisms via tangent space representations

Abstract

In this paper, we present a linear setting for statistical analysis of shape and an optimization approach based on a recent derivation of a conservation of momentum law for the geodesics of diffeomorphic flow. Once a template is fixed, the space of initial momentum becomes an appropriate space for studying shape via geodesic flow since the flow at any point along the geodesic is completely determined by the momentum at the origin through geodesic shooting equations. The space of initial momentum provides a linear representation of the nonlinear diffeomorphic shape space in which linear statistical analysis can be applied. Specializing to the landmark matching problem of Computational Anatomy, we derive an algorithm for solving the variational problem with respect to the initial momentum and demonstrate principal component analysis (PCA) in this setting with three-dimensional face and hippocampus databases.

Keywords

GeodesicTangent spaceDiffeomorphismMathematicsFlow (mathematics)Space (punctuation)Principal component analysisMathematical analysisApplied mathematicsComputer scienceGeometryStatistics

MeSH Terms

AlgorithmsAnatomyComputational BiologyDatabasesFactualFaceHumansLinear ModelsModelsAnatomicModelsStatisticalPrincipal Component Analysis

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Publication Info

Year: 2004
Type: article
Volume: 23
Pages: S161-S169
Citations: 219
Access: Closed

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APA Style

                            
                                    M. Vaillant, 
                                
                                    Michael I. Miller, 
                                
                                    Laurent Younès
                                
                                et al.
                            
                            (2004). 
                            Statistics on diffeomorphisms via tangent space representations. 
                            NeuroImage
                            , 23
                            
                            , S161-S169.
                            https://doi.org/10.1016/j.neuroimage.2004.07.023

Identifiers

DOI: 10.1016/j.neuroimage.2004.07.023
PMID: 15501085

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Data completeness: 86%