Near-Optimal Auctions on Independence Systems

IF 0.6 4区计算机科学 Q4 COMPUTER SCIENCE, THEORY & METHODS

Theory of Computing Systems Pub Date : 2024-08-17 DOI:10.1007/s00224-024-10189-5

Sabrina C. L. Ammann, Sebastian Stiller

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Abstract

A classical result by Myerson (Math. Oper. Res. 6(1), 58-73, 1981) gives a characterization of an optimal auction for any given distribution of valuations of the bidders. We consider the situation where the distribution is not explicitly given but can be observed in a sample of auction results from the same distribution. A seminal paper by Morgenstern and Roughgarden (Adv.Neural Inf. Process. Syst. 28, 2015) proposes to learn a near-optimal auction from the hypothesis class of t-level auctions. They prove a bound on the sample complexity, i.e., the function \(f(\varepsilon , \delta )\) of required samples to guarantee a certain level of precision \((1-\varepsilon )\) with a probability of at least \((1-\delta )\), for the general single-parameter case and a tighter bound for the very restricted matroid case. We show a new bound for the case of independence systems, that widely generalizes matroids and contains several important combinatorial optimization problems. This bound of \(\tilde{O}\left( \nicefrac {H^2n^4}{\varepsilon ^3}\right) \) falls neatly between those known for the general and the matroid case. The class of independence systems contains several well known NP-hard problems such as knapsack. Therefore, the allocation itself might in practice be limited to \(\alpha \)-approximate solutions. In a second result we show that an approximation algorithm can be used without compromising the sample complexity. Also, the precision is affected only mildly, resulting in a factor of \(\alpha \cdot (1-\varepsilon )\).

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独立系统上的近优拍卖

迈尔森的一个经典结果（Math.Oper.6(1), 58-73, 1981）给出了任何给定投标人估值分布下最优拍卖的特征。我们考虑的情况是，分布没有明确给出，但可以从同一分布的拍卖结果样本中观察到。Morgenstern 和 Roughgarden 的一篇开创性论文（Adv.Neural Inf. Process. Syst. 28, 2015）提出从 t 级拍卖的假设类中学习近乎最优的拍卖。他们证明了一般单参数情况下样本复杂度的一个约束，即保证一定精度水平所需的样本函数\(f(\varepsilon , \delta )\)，概率至少为\((1-\delta )\)，并为非常受限的矩阵情况证明了一个更严格的约束。我们为独立系统的情况展示了一个新的约束，它广泛地推广了矩阵，并包含了几个重要的组合优化问题。这个边界（(\tilde{O}\left( \nicefrac {H^2n^4}{\varepsilon ^3}\right)）正好介于已知的一般情况和矩阵情况之间。独立系统类包含几个众所周知的 NP 难问题，如 knapsack。因此，分配本身在实践中可能仅限于 \(α \)-近似解。在第二个结果中，我们证明了近似算法可以在不影响样本复杂度的情况下使用。而且，精确度只受到轻微的影响，结果是系数（\α \cdot (1-\varepsilon )\）。

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来源期刊

Theory of Computing Systems 工程技术-计算机：理论方法

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： TOCS is devoted to publishing original research from all areas of theoretical computer science, ranging from foundational areas such as computational complexity, to fundamental areas such as algorithms and data structures, to focused areas such as parallel and distributed algorithms and architectures.