English

Optimal E-Values for Exponential Families: the Simple Case

Methodology 2025-04-02 v2 Statistics Theory Statistics Theory

Abstract

We provide a general condition under which e-variables in the form of a simple-vs.-simple likelihood ratio exist when the null hypothesis is a composite, multivariate exponential family. Such `simple' e-variables are easy to compute and expected-log-optimal with respect to any stopping time. Simple e-variables were previously only known to exist in quite specific settings, but we offer a unifying theorem on their existence for testing exponential families. We start with a simple alternative QQ and a regular exponential family null. Together these induce a second exponential family Q{\cal Q} containing QQ, with the same sufficient statistic as the null. Our theorem shows that simple e-variables exist whenever the covariance matrices of Q{\cal Q} and the null are in a certain relation. A prime example in which this relation holds is testing whether a parameter in a linear regression is 0. Other examples include some kk-sample tests, Gaussian location- and scale tests, and tests for more general classes of natural exponential families. While in all these examples, the implicit composite alternative is also an exponential family, in general this is not required.

Cite

@article{arxiv.2404.19465,
  title  = {Optimal E-Values for Exponential Families: the Simple Case},
  author = {Peter Grünwald and Tyron Lardy and Yunda Hao and Shaul K. Bar-Lev and Martijn de Jong},
  journal= {arXiv preprint arXiv:2404.19465},
  year   = {2025}
}
R2 v1 2026-06-28T16:11:09.449Z