English

The Bayesian Gaussian Process Latent Variable Model for Spatio-Temporal Stream Networks

Methodology 2026-05-21 v1

Abstract

A variational inference-based framework for training a multi-output Gaussian process latent variable model, specifically tailored to the tails-up spatio-temporal stream network, is developed. Training, given a censored observational data set subject to missing values, proceeds by maximising a secondary variational lower bound on the model log marginal likelihood using gradient-based optimisation. Consequently, the theoretical development for a new family of tails-up spatio-temporal stream network models is introduced which rely on the sparse Gaussian process inducing variable framework, the Bayesian Gaussian process latent variable model, and local variational methods. These spatio-temporal models use stream distance instead of Euclidean distance and capture spatial and temporal dependencies using auto/cross-correlation and process convolution, respectively, which allows for the development of valid separable spatio-temporal stream network-based covariance functions. Results from the simulation-based case studies indicate that the proposed framework performs well when considering benchmark comparisons and several performance metrics.

Keywords

Cite

@article{arxiv.2605.21307,
  title  = {The Bayesian Gaussian Process Latent Variable Model for Spatio-Temporal Stream Networks},
  author = {Marno Basson and Tobias M. Louw and Theresa R. Smith},
  journal= {arXiv preprint arXiv:2605.21307},
  year   = {2026}
}