Additive Gaussian Processes Revisited
Abstract
Gaussian Process (GP) models are a class of flexible non-parametric models that have rich representational power. By using a Gaussian process with additive structure, complex responses can be modelled whilst retaining interpretability. Previous work showed that additive Gaussian process models require high-dimensional interaction terms. We propose the orthogonal additive kernel (OAK), which imposes an orthogonality constraint on the additive functions, enabling an identifiable, low-dimensional representation of the functional relationship. We connect the OAK kernel to functional ANOVA decomposition, and show improved convergence rates for sparse computation methods. With only a small number of additive low-dimensional terms, we demonstrate the OAK model achieves similar or better predictive performance compared to black-box models, while retaining interpretability.
Cite
@article{arxiv.2206.09861,
title = {Additive Gaussian Processes Revisited},
author = {Xiaoyu Lu and Alexis Boukouvalas and James Hensman},
journal= {arXiv preprint arXiv:2206.09861},
year = {2022}
}
Comments
39th International Conference on Machine Learning (ICML 2022)