Transfer entropy for finite data
Abstract
Transfer entropy is a widely used measure for quantifying directed information flows in complex systems. While the challenges of estimating transfer entropy for continuous data are well known, it has two major shortcomings for data of finite cardinality: it exhibits a substantial positive bias for sparse bin counts, and it has no clear means to assess statistical significance. By computing information content in finite data streams without explicitly considering symbols as instances of random variables, we derive a transfer entropy measure which is asymptotically equivalent to the standard plug-in estimator but remedies these issues for time series of small size and/or high cardinality, permitting a fully nonparametric assessment of statistical significance without simulation.
Cite
@article{arxiv.2506.16215,
title = {Transfer entropy for finite data},
author = {Alec Kirkley},
journal= {arXiv preprint arXiv:2506.16215},
year = {2025}
}
Comments
Added link to code at https://github.com/aleckirkley/Reduced-Transfer-Entropy