English

Gaussian process models for periodicity detection

Statistics Theory 2016-08-22 v3 Statistics Theory

Abstract

We consider the problem of detecting and quantifying the periodic component of a function given noise-corrupted observations of a limited number of input/output tuples. Our approach is based on Gaussian process regression which provides a flexible non-parametric framework for modelling periodic data. We introduce a novel decomposition of the covariance function as the sum of periodic and aperiodic kernels. This decomposition allows for the creation of sub-models which capture the periodic nature of the signal and its complement. To quantify the periodicity of the signal, we derive a periodicity ratio which reflects the uncertainty in the fitted sub-models. Although the method can be applied to many kernels, we give a special emphasis to the Mat\'ern family, from the expression of the reproducing kernel Hilbert space inner product to the implementation of the associated periodic kernels in a Gaussian process toolkit. The proposed method is illustrated by considering the detection of periodically expressed genes in the arabidopsis genome.

Keywords

Cite

@article{arxiv.1303.7090,
  title  = {Gaussian process models for periodicity detection},
  author = {Nicolas Durrande and James Hensman and Magnus Rattray and Neil D. Lawrence},
  journal= {arXiv preprint arXiv:1303.7090},
  year   = {2016}
}

Comments

in PeerJ Computer Science, 2016

R2 v1 2026-06-21T23:49:40.511Z