A Bayesian Gaussian Process Dynamic Factor Model
Abstract
We propose a dynamic factor model (DFM) where the latent factors are linked to observed variables with unknown and potentially nonlinear functions. The key novelty and source of flexibility of our approach is a nonparametric observation equation, specified via Gaussian Process (GP) priors for each series. Factor dynamics are modeled with a standard vector autoregression (VAR), which facilitates computation and interpretation. We discuss a computationally efficient estimation algorithm and consider two empirical applications. First, we forecast key series from the FRED-QD dataset and show that the model yields improvements in predictive accuracy relative to linear benchmarks. Second, we extract driving factors of global inflation dynamics with the GP-DFM, which allows for capturing international asymmetries.
Keywords
Cite
@article{arxiv.2509.04928,
title = {A Bayesian Gaussian Process Dynamic Factor Model},
author = {Tony Chernis and Niko Hauzenberger and Haroon Mumtaz and Michael Pfarrhofer},
journal= {arXiv preprint arXiv:2509.04928},
year = {2025}
}
Comments
JEL: C11; C32; C55; E17; E31 Keywords: Nonlinear state space models; Big data; Machine learning; Macroeconomic forecasting; Inflation dynamics