Prior selection for the precision parameter of Dirichlet Process Mixtures
Abstract
Consider a Dirichlet process mixture model (DPM) with random precision parameter , inducing clusters over observations through its latent random partition. Our goal is to specify the prior distribution , including its fixed parameter vector , in a way that is meaningful. Existing approaches can be broadly categorised into three groups. Those in the first group depend on the sample size , and often rely on the linkage between and to draw conclusions on how to best choose to reflect one's prior knowledge of ; we call them sample-size-dependent. Those in the second and third group consist instead of using quasi-degenerate or improper priors, respectively. In this article, we show how all three methods have limitations, especially for large . Then we propose an alternative methodology which does not depend on or on the size of the available sample, but rather on the relationship between the largest stick lengths in the stick-breaking construction of the DPM; and which reflects those prior beliefs in . We conclude with an example where existing sample-size-dependent approaches fail, while our sample-size-independent approach continues to be feasible.
Cite
@article{arxiv.2502.00864,
title = {Prior selection for the precision parameter of Dirichlet Process Mixtures},
author = {Carlo Vicentini and Ian Hyla Jermyn},
journal= {arXiv preprint arXiv:2502.00864},
year = {2025}
}