Online Sampling and Decision Making with Low Entropy
Abstract
Consider the problem: we are given boxes, labeled by an adversary, each containing a single number chosen from an unknown distribution; these distributions are not necessarily identical. We are also given an integer . We have to choose an order in which we will sequentially open these boxes, and each time we open the next box in this order, we learn the number in the box. Once we reject a number in a box, the box cannot be recalled. Our goal is to accept of these numbers, without necessarily opening all boxes, such that the accepted numbers are the largest numbers in the boxes (thus their sum is maximized). A natural approach to solve such problems is to use randomness to sample randomly ordered elements, however, as indicated in several sources, e.g., Turan et al. NIST'15, Bierhorst et al. Nature'18, pure randomness is hard to get in reality. We present an algorithm for this problem, which is provably and simultaneously near-optimal with respect to the achieved competitive ratio and the used amount of randomness. In particular, we construct a distribution on the orders with entropy such that a deterministic multiple-threshold algorithm gives a competitive ratio , for . Our competitive ratio is simultaneously optimal and uses optimal entropy , improving in three ways the previous best known algorithm, whose competitive ratio is .
Cite
@article{arxiv.2111.13203,
title = {Online Sampling and Decision Making with Low Entropy},
author = {Mohammad Taghi Hajiaghayi and Dariusz R. Kowalski and Piotr Krysta and Jan Olkowski},
journal= {arXiv preprint arXiv:2111.13203},
year = {2024}
}
Comments
arXiv admin note: text overlap with arXiv:1502.02155 by other authors