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Learning Locally Adaptive Metrics that Enhance Structural Representation with $\texttt{LAMINAR}$

Authors :
Kleiber, Christian
Oliver, William H.
Buck, Tobias
Publication Year :
2024

Abstract

We present $\texttt{LAMINAR}$, a novel unsupervised machine learning pipeline designed to enhance the representation of structure within data via producing a more-informative distance metric. Analysis methods in the physical sciences often rely on standard metrics to define geometric relationships in data, which may fail to capture the underlying structure of complex data sets. $\texttt{LAMINAR}$ addresses this by using a continuous-normalising-flow and inverse-transform-sampling to define a Riemannian manifold in the data space without the need for the user to specify a metric over the data a-priori. The result is a locally-adaptive-metric that produces structurally-informative density-based distances. We demonstrate the utility of $\texttt{LAMINAR}$ by comparing its output to the Euclidean metric for structured data sets.<br />Comment: Accepted to the NeurIPS 2024 Machine Learning and the Physical Sciences workshop. 6 pages, 6 figures

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2411.08557
Document Type :
Working Paper