English

Vector-Valued Spectral Analysis of Space-Time Data

Data Analysis, Statistics and Probability 2018-05-24 v1

Abstract

Identifying coherent spatiotemporal patterns generated by complex dynamical systems is a central problem in many science and engineering disciplines. Here, we combine ideas from the theory of operator-valued kernels with delay-embedding techniques in dynamical systems to develop of a method for objective identification of spatiotemporal coherent patterns, without prior knowledge of the state space and/or the dynamical laws of the system generating the data. A key aspect of this method is that it operates on a space of vector-valued observables using a kernel measure of similarity that takes into account both temporal and spatial degrees of freedom (in contrast, classical kernel techniques such as PCA utilize aggregate measures of similarity between 'snapshots'). As a result, spectral decomposition of data via our approach yields a significantly more efficient and physically meaningful representation of complex spatiotemporal signals than conventional methods based on scalar-valued kernels. We demonstrate this behavior with applications to an oscillator model and sea surface temperature data from a climate model.

Keywords

Cite

@article{arxiv.1805.09134,
  title  = {Vector-Valued Spectral Analysis of Space-Time Data},
  author = {Dimitrios Giannakis and Joanna Slawinska and Abbas Ourmazd and Zhizhen Zhao},
  journal= {arXiv preprint arXiv:1805.09134},
  year   = {2018}
}
R2 v1 2026-06-23T02:05:40.080Z