Mathematical Foundations of Data Cohesion
Abstract
Data cohesion, a recently introduced measure inspired by social interactions, uses distance comparisons to assess relative proximity. In this work, we provide a collection of results which can guide the development of cohesion-based methods in exploratory data analysis and human-aided computation. Here, we observe the important role of highly clustered "point-like" sets and the ways in which cohesion allows such sets to take on qualities of a single weighted point. In doing so, we see how cohesion complements metric-adjacent measures of dissimilarity and responds to local density. We conclude by proving that cohesion is the unique function with (i) average value equal to one-half and (ii) the property that the influence of an outlier is proportional to its mass. Properties of cohesion are illustrated with examples throughout.
Cite
@article{arxiv.2308.02546,
title = {Mathematical Foundations of Data Cohesion},
author = {Katherine E. Moore},
journal= {arXiv preprint arXiv:2308.02546},
year = {2023}
}
Comments
20 pages, 5 figures