Variational Bayesian Decision-Making for Continuous Utilities
Abstract
Bayesian decision theory outlines a rigorous framework for making optimal decisions based on maximizing expected utility over a model posterior. However, practitioners often do not have access to the full posterior and resort to approximate inference strategies. In such cases, taking the eventual decision-making task into account while performing the inference allows for calibrating the posterior approximation to maximize the utility. We present an automatic pipeline that co-opts continuous utilities into variational inference algorithms to account for decision-making. We provide practical strategies for approximating and maximizing the gain, and empirically demonstrate consistent improvement when calibrating approximations for specific utilities.
Cite
Text
Kuśmierczyk et al. "Variational Bayesian Decision-Making for Continuous Utilities." Neural Information Processing Systems, 2019.Markdown
[Kuśmierczyk et al. "Variational Bayesian Decision-Making for Continuous Utilities." Neural Information Processing Systems, 2019.](https://mlanthology.org/neurips/2019/kusmierczyk2019neurips-variational/)BibTeX
@inproceedings{kusmierczyk2019neurips-variational,
title = {{Variational Bayesian Decision-Making for Continuous Utilities}},
author = {Kuśmierczyk, Tomasz and Sakaya, Joseph and Klami, Arto},
booktitle = {Neural Information Processing Systems},
year = {2019},
pages = {6395-6405},
url = {https://mlanthology.org/neurips/2019/kusmierczyk2019neurips-variational/}
}