Computational Topology Techniques for Characterizing Time-Series Data
Abstract
Topological data analysis (TDA), while abstract, allows a characterization of time-series data obtained from nonlinear and complex dynamical systems. Though it is surprising that such an abstract measure of structure - counting pieces and holes - could be useful for real-world data, TDA lets us compare different systems, and even do membership testing or change-point detection. However, TDA is computationally expensive and involves a number of free parameters. This complexity can be obviated by coarse-graining, using a construct called the witness complex. The parametric dependence gives rise to the concept of persistent homology: how shape changes with scale. Its results allow us to distinguish time-series data from different systems - e.g., the same note played on different musical instruments.
Cite
@article{arxiv.1708.09359,
title = {Computational Topology Techniques for Characterizing Time-Series Data},
author = {Nicole Sanderson and Elliott Shugerman and Samantha Molnar and James D. Meiss and Elizabeth Bradley},
journal= {arXiv preprint arXiv:1708.09359},
year = {2020}
}
Comments
12 pages, 6 Figures, 1 Table, The Sixteenth International Symposium on Intelligent Data Analysis (IDA 2017)