91˿Ƶ

Event

Veronika Ročková (University of Chicago)

Friday, February 23, 2024 15:30to16:30


TITLE / TITRE
Adaptive Bayesian predictive inference

ABSTRACT /RÉSUMÉ

Bayesian predictive inference provides a coherent description of entire predictive uncertainty through predictive distributions. We examine several widely used sparsity priors from the predictive (as opposed to estimation) inference viewpoint. Our context is estimating a predictive distribution of a high-dimensional Gaussian observation with a known variance but an unknown sparse mean under the Kullback–Leibler loss. First, we show that LASSO (Laplace) priors are incapable of achieving rate-optimal performance. This new result contributes to the literature on negative findings about Bayesian LASSO posteriors. However, deploying the Laplace prior inside the Spike-and-Slab framework (for example with the Spike-and-Slab LASSO prior), rate-minimax performance can be attained with properly tuned parameters (depending on the sparsity level sn). We highlight the discrepancy be- tween prior calibration for the purpose of prediction and estimation. Going further, we investigate popular hierarchical priors which are known to attain adaptive rate-minimax performance for estimation. Whether or not they are rate-minimax also for predictive inference has, until now, been unclear. We answer affirmatively by showing that hierarchical Spike-and-Slab priors are adaptive and attain the minimax rate without the knowledge of sn. This is the first rate-adaptive result in the literature on predictive density estimation in sparse setups. This finding celebrates benefits of a fully Bayesian inference.

PLACE / LIEU 
En ligne / Online

ZOOM

ID: 872 5145 4048 / CODE: csmqV

ORGANIZERS /ORGANISATEURS 
Léo Belzile (Université de Montréal)
Joel Kamnitzer (91˿Ƶ)
Giovanni Rosso (Concordia University)
Alina Stancu (Concordia University)

Follow us on

Back to top