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Shape classification based on interpoint distance distributions

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  • Berrendero, José R.
  • Cuevas, Antonio
  • Pateiro-López, Beatriz

Abstract

According to Kendall (1989), in shape theory, The idea is to filter out effects resulting from translations, changes of scale and rotations and to declare that shape is “what is left”. While this statement applies in principle to classical shape theory based on landmarks, the basic idea remains also when other approaches are used. For example, we might consider, for every shape, a suitable associated function which, to a large extent, could be used to characterize the shape. This finally leads to identify the shapes with the elements of a quotient space of sets in such a way that all the sets in the same equivalence class share the same identifying function. In this paper, we explore the use of the interpoint distance distribution (i.e. the distribution of the distance between two independent uniform points) for this purpose. This idea has been previously proposed by other authors [e.g., Osada et al. (2002), Bonetti and Pagano (2005)]. We aim at providing some additional mathematical support for the use of interpoint distances in this context. In particular, we show the Lipschitz continuity of the transformation taking every shape to its corresponding interpoint distance distribution. Also, we obtain a partial identifiability result showing that, under some geometrical restrictions, shapes with different planar area must have different interpoint distance distributions. Finally, we address practical aspects including a real data example on shape classification in marine biology.

Suggested Citation

  • Berrendero, José R. & Cuevas, Antonio & Pateiro-López, Beatriz, 2016. "Shape classification based on interpoint distance distributions," Journal of Multivariate Analysis, Elsevier, vol. 146(C), pages 237-247.
    • Handle: RePEc:eee:jmvana:v:146:y:2016:i:c:p:237-247
    DOI: 10.1016/j.jmva.2015.09.017
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    References listed on IDEAS

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    1. Pietro Tebaldi & Marco Bonetti & Marcello Pagano, 2011. "M statistic commands: Interpoint distance distribution analysis," Stata Journal, StataCorp LP, vol. 11(2), pages 271-289, June.
    2. Delicado, P., 2011. "Dimensionality reduction when data are density functions," Computational Statistics & Data Analysis, Elsevier, vol. 55(1), pages 401-420, January.
    3. Alison L. Gibbs & Francis Edward Su, 2002. "On Choosing and Bounding Probability Metrics," International Statistical Review, International Statistical Institute, vol. 70(3), pages 419-435, December.
    4. Asger Hobolth & Jan Pedersen & Eva Jensen, 2003. "A continuous parametric shape model," Annals of the Institute of Statistical Mathematics, Springer;The Institute of Statistical Mathematics, vol. 55(2), pages 227-242, June.
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    Cited by:

    1. Reza Modarres & Yu Song, 2020. "Multivariate power series interpoint distances," Statistical Methods & Applications, Springer;Società Italiana di Statistica, vol. 29(4), pages 955-982, December.
    2. Yang, Yang & Yang, Yanrong & Shang, Han Lin, 2022. "Feature extraction for functional time series: Theory and application to NIR spectroscopy data," Journal of Multivariate Analysis, Elsevier, vol. 189(C).
    3. Vieu, Philippe, 2018. "On dimension reduction models for functional data," Statistics & Probability Letters, Elsevier, vol. 136(C), pages 134-138.

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