English

LP-based Approximation for Personalized Reserve Prices

Computer Science and Game Theory 2020-11-03 v5

Abstract

We study the problem of computing data-driven personalized reserve prices in eager second price auctions without having any assumption on valuation distributions. Here, the input is a data-set that contains the submitted bids of nn buyers in a set of auctions and the problem is to return personalized reserve prices r\textbf r that maximize the revenue earned on these auctions by running eager second price auctions with reserve r\textbf r. For this problem, which is known to be APX-hard, we present a novel LP formulation and a rounding procedure which achieves a (1+2(21)e22)10.684(1+2(\sqrt{2}-1)e^{\sqrt{2}-2})^{-1} \approx 0.684-approximation. This improves over the 12\frac{1}{2}-approximation algorithm due to Roughgarden and Wang. We show that our analysis is tight for this rounding procedure. We also bound the integrality gap of the LP, which shows that it is impossible to design an algorithm that yields an approximation factor larger than 0.8280.828 with respect to this LP.

Keywords

Cite

@article{arxiv.1905.01526,
  title  = {LP-based Approximation for Personalized Reserve Prices},
  author = {Mahsa Derakhshan and Negin Golrezaei and Renato Paes Leme},
  journal= {arXiv preprint arXiv:1905.01526},
  year   = {2020}
}
R2 v1 2026-06-23T08:57:03.440Z