Optimal Polynomial-Time Estimators: A Bayesian Notion of Approximation Algorithm
Computational Complexity
2025-06-27 v6
Abstract
We introduce a new concept of approximation applicable to decision problems and functions, inspired by Bayesian probability. From the perspective of a Bayesian reasoner with limited computational resources, the answer to a problem that cannot be solved exactly is uncertain and therefore should be described by a random variable. It thus should make sense to talk about the expected value of this random variable, an idea we formalize in the language of average-case complexity theory by introducing the concept of "optimal polynomial-time estimators." We prove some existence theorems and completeness results, and show that optimal polynomial-time estimators exhibit many parallels with "classical" probability theory.
Cite
@article{arxiv.1608.04112,
title = {Optimal Polynomial-Time Estimators: A Bayesian Notion of Approximation Algorithm},
author = {Vanessa Kosoy and Alexander Appel},
journal= {arXiv preprint arXiv:1608.04112},
year = {2025}
}
Comments
86 pages