Phase-Amplitude Separation and Modeling of Spherical Trajectories

The problems of analysis and modeling of spherical trajectories, that is, continuous longitudinal data on S2, are important in several disciplines. These problems are challenging for two reasons: (1) nonlinear geometry of S2 and (2) the presence of phase variability in given data. This article devel...

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Bibliographic Details
Published in:Journal of computational and graphical statistics 2018-01, Vol.27 (1), p.85-97
Main Authors: Zhang, Zhengwu, Klassen, Eric, Srivastava, Anuj
Format: Article
Language:English
Subjects:
Modeling
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Summary:The problems of analysis and modeling of spherical trajectories, that is, continuous longitudinal data on S2, are important in several disciplines. These problems are challenging for two reasons: (1) nonlinear geometry of S2 and (2) the presence of phase variability in given data. This article develops a geometric framework for separating phase variability from given trajectories, leaving only the shape or the amplitude variability. The key idea is to represent each trajectory with a pair of variables, a starting point, and a transported square-root velocity curve (TSRVC), a curve in the tangent (vector) space at the starting point. The space of all such curves forms a vector bundle and the L2 norm, along with the standard Riemannian metric on S2, provides a natural, warping-invariant metric on this vector bundle. This leads to an efficient algorithm for registration of trajectories, that is, phase-amplitude separation, and computational tools, such as clustering, sample means, and principal component analysis (PCA) of the two components separately. It also helps derive simple statistical models of phase-amplitude components of spherical trajectories. This comprehensive framework is demonstrated using two dataseis: a set of bird-migration trajectories and a set of hurricane paths in the Atlantic ocean.
ISSN:1061-8600
1537-2715
DOI:10.1080/10618600.2017.1340892