Leveraging Probabilistic Circuits for Nonparametric Multi-Output Regression
Abstract
Inspired by recent advances in the field of expert-based approximations of Gaussian processes (GPs), we present an expert-based approach to large-scale multi-output regression using single-output GP experts. Employing a deeply structured mixture of single-output GPs encoded via a probabilistic circuit allows us to capture correlations between multiple output dimensions accurately. By recursively partitioning the covariate space and the output space, posterior inference in our model reduces to inference on single-output GP experts, which only need to be conditioned on a small subset of the observations. We show that inference can be performed exactly and efficiently in our model, that it can capture correlations between output dimensions and, hence, often outperforms approaches that do not incorporate inter-output correlations, as demonstrated on several data sets in terms of the negative log predictive density.
Cite
@article{arxiv.2106.08687,
title = {Leveraging Probabilistic Circuits for Nonparametric Multi-Output Regression},
author = {Zhongjie Yu and Mingye Zhu and Martin Trapp and Arseny Skryagin and Kristian Kersting},
journal= {arXiv preprint arXiv:2106.08687},
year = {2021}
}
Comments
Accepted for the 37th Conference on Uncertainty in Artificial Intelligence (UAI 2021)