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Poster

Probabilistic size-and-shape functional mixed models

Fangyi Wang · Karthik Bharath · Oksana Chkrebtii · Sebastian Kurtek

East Exhibit Hall A-C #4209
[ ]
[ Paper [ Poster [ OpenReview
Wed 11 Dec 11 a.m. PST — 2 p.m. PST

Abstract: The reliable recovery and uncertainty quantification of a fixed effect function μ in a functional mixed model, for modeling population- and object-level variability in noisily observed functional data, is a notoriously challenging task: variations along the x and y axes are confounded with additive measurement error, and cannot in general be disentangled. The question then as to what properties of μ may be reliably recovered becomes important. We demonstrate that it is possible to recover the size-and-shape of a square-integrable μ under a Bayesian functional mixed model. The size-and-shape of μ is a geometric property invariant to a family of space-time unitary transformations, viewed as rotations of the Hilbert space, that jointly transform the x and y axes. A random object-level unitary transformation then captures size-and-shape preserving deviations of μ from an individual function, while a random linear term and measurement error capture size-and-shape altering deviations. The model is regularized by appropriate priors on the unitary transformations, posterior summaries of which may then be suitably interpreted as optimal data-driven rotations of a fixed orthonormal basis for the Hilbert space. Our numerical experiments demonstrate utility of the proposed model, and superiority over the current state-of-the-art.

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