We study single-sample prophet inequalities (SSPIs), i.e., prophet inequalities where only a single sample from each prior distribution is available. Besides a direct, and optimal, SSPI for the basic single choice problem [Rubinstein et al., 2020], most existing SSPI results were obtained via an elegant, but inherently lossy reduction to order-oblivious secretary (OOS) policies [Azar et al., 2014]. Motivated by this discrepancy, we develop an intuitive and versatile greedy-based technique that yields SSPIs directly rather than through the reduction to OOSs. Our results can be seen as generalizing and unifying a number of existing results in the area of prophet and secretary problems. Our algorithms significantly improve on the competitive guarantees for a number of interesting scenarios (including general matching with edge arrivals, bipartite matching with vertex arrivals, and certain matroids), and capture new settings (such as budget additive combinatorial auctions). Complementing our algorithmic results, we also consider mechanism design variants. Finally, we analyze the power and limitations of different SSPI approaches by providing a partial converse to the reduction from SSPI to OOS given by Azar et al.
Dettaglio pubblicazione
2022, Proceedings of the 2022 Annual ACM-SIAM Symposium on Discrete Algorithms (SODA), Pages 1298-1325
Single-Sample Prophet Inequalities via Greedy-Ordered Selection (04b Atto di convegno in volume)
Caramanis Constantine, Dütting Paul, Faw Matthew, Fusco Federico, Lazos Filippos, Leonardi Stefano, Papadigenopoulos Orestis, Pountourakis Emmanouil, Reiffenhäuser Rebecca
ISBN: 978-1-61197-707-3
Gruppo di ricerca: Algorithms and Data Science
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