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Estimation of Correlation Matrices from Limited time series Data using Machine Learning

Machine Learning 2023-03-14 v4

Abstract

Correlation matrices contain a wide variety of spatio-temporal information about a dynamical system. Predicting correlation matrices from partial time series information of a few nodes characterizes the spatio-temporal dynamics of the entire underlying system. This information can help to predict the underlying network structure, e.g., inferring neuronal connections from spiking data, deducing causal dependencies between genes from expression data, and discovering long spatial range influences in climate variations. Traditional methods of predicting correlation matrices utilize time series data of all the nodes of the underlying networks. Here, we use a supervised machine learning technique to predict the correlation matrix of entire systems from finite time series information of a few randomly selected nodes. The accuracy of the prediction validates that only a limited time series of a subset of the entire system is enough to make good correlation matrix predictions. Furthermore, using an unsupervised learning algorithm, we furnish insights into the success of the predictions from our model. Finally, we employ the machine learning model developed here to real-world data sets.

Keywords

Cite

@article{arxiv.2209.01198,
  title  = {Estimation of Correlation Matrices from Limited time series Data using Machine Learning},
  author = {Nikhil Easaw and Woo Seok Lee and Prashant Singh Lohiya and Sarika Jalan and Priodyuti Pradhan},
  journal= {arXiv preprint arXiv:2209.01198},
  year   = {2023}
}

Comments

17 pages, 7 figures

R2 v1 2026-06-28T00:39:09.846Z