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Hauptverfasser: Pal, Susovan, Woods, Roger P., Panjiyar, Suchit, Sowell, Elizabeth, Narr, Katherine L., Joshi, Shantanu H.
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2511.06027
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author Pal, Susovan
Woods, Roger P.
Panjiyar, Suchit
Sowell, Elizabeth
Narr, Katherine L.
Joshi, Shantanu H.
author_facet Pal, Susovan
Woods, Roger P.
Panjiyar, Suchit
Sowell, Elizabeth
Narr, Katherine L.
Joshi, Shantanu H.
contents We present a Riemannian framework for linear and quadratic discriminant classification on the tangent plane of the shape space of curves. The shape space is infinite dimensional and is constructed out of square root velocity functions of curves. We introduce the idea of mean and covariance of shape-valued random variables and samples from a tangent space to the pre-shape space (invariant to translation and scaling) and then extend it to the full shape space (rotational invariance). The shape observations from the population are approximated by coefficients of a Fourier basis of the tangent space. The algorithms for linear and quadratic discriminant analysis are then defined using reduced dimensional features obtained by projecting the original shape observations on to the truncated Fourier basis. We show classification results on synthetic data and shapes of cortical sulci, corpus callosum curves, as well as facial midline curve profiles from patients with fetal alcohol syndrome (FAS).
format Preprint
id arxiv_https___arxiv_org_abs_2511_06027
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Riemannian Framework for Linear and Quadratic Discriminant Analysis on the Tangent Space of Shapes
Pal, Susovan
Woods, Roger P.
Panjiyar, Suchit
Sowell, Elizabeth
Narr, Katherine L.
Joshi, Shantanu H.
Methodology
We present a Riemannian framework for linear and quadratic discriminant classification on the tangent plane of the shape space of curves. The shape space is infinite dimensional and is constructed out of square root velocity functions of curves. We introduce the idea of mean and covariance of shape-valued random variables and samples from a tangent space to the pre-shape space (invariant to translation and scaling) and then extend it to the full shape space (rotational invariance). The shape observations from the population are approximated by coefficients of a Fourier basis of the tangent space. The algorithms for linear and quadratic discriminant analysis are then defined using reduced dimensional features obtained by projecting the original shape observations on to the truncated Fourier basis. We show classification results on synthetic data and shapes of cortical sulci, corpus callosum curves, as well as facial midline curve profiles from patients with fetal alcohol syndrome (FAS).
title A Riemannian Framework for Linear and Quadratic Discriminant Analysis on the Tangent Space of Shapes
topic Methodology
url https://arxiv.org/abs/2511.06027