English

Point pattern analysis and classification on compact two-point homogeneous spaces evolving time

Methodology 2022-10-21 v1

Abstract

This paper introduces a new modeling framework for the statistical analysis of point patterns on a manifold M_{d}, defined by a connected and compact two-point homogeneous space, including the special case of the sphere. The presented approach is based on temporal Cox processes driven by a L^{2}(\mathbb{M}_{d})-valued log-intensity. Different aggregation schemes on the manifold of the spatiotemporal point-referenced data are implemented in terms of the time-varying discrete Jacobi polynomial transform of the log-risk process. The n-dimensional microscale point pattern evolution in time at different manifold spatial scales is then characterized from such a transform. The simulation study undertaken illustrates the construction of spherical point process models displaying aggregation at low Legendre polynomial transform frequencies (large scale), while regularity is observed at high frequencies (small scale). K-function analysis supports these results under temporal short-, intermediate- and long-range dependence of the log-risk process.

Keywords

Cite

@article{arxiv.2210.11134,
  title  = {Point pattern analysis and classification on compact two-point homogeneous spaces evolving time},
  author = {M. P. Frías and A. Torres and M. D. Ruiz-Medina},
  journal= {arXiv preprint arXiv:2210.11134},
  year   = {2022}
}

Comments

22 pages, 9 figures

R2 v1 2026-06-28T04:04:18.180Z