Learning Strong Substitutes Demand via Queries

IF 1.1 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

ACM Transactions on Economics and Computation Pub Date : 2020-05-04 DOI:10.1145/3546604

P. Goldberg, Edwin Lock, Francisco Javier Marmolejo-Cossío

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引用次数: 3

Abstract

This article addresses the computational challenges of learning strong substitutes demand when given access to a demand (or valuation) oracle. Strong substitutes demand generalises the well-studied gross substitutes demand to a multi-unit setting. Recent work by Baldwin and Klemperer shows that any such demand can be expressed in a natural way as a finite list of weighted bid vectors. A simplified version of this bidding language has been used by the Bank of England. Assuming access to a demand oracle, we provide an algorithm that computes the unique list of weighted bid vectors corresponding to a bidder’s demand preferences. In the special case where their demand can be expressed using positive bids only, we have an efficient algorithm that learns this list in linear time. We also show super-polynomial lower bounds on the query complexity of computing the list of bids in the general case where bids may be positive and negative. Our algorithms constitute the first systematic approach for bidders to construct a bid list corresponding to non-trivial demand, allowing them to participate in “product-mix” auctions.

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通过查询学习强大的替代品需求

本文解决了在访问需求（或估价）预言机时学习强替代需求的计算挑战。强大的替代品需求将经过充分研究的总替代品需求概括为多单位环境。Baldwin和Klemperer最近的工作表明，任何这样的需求都可以用一种自然的方式表示为加权投标向量的有限列表。英格兰银行已使用该投标语言的简化版本。假设访问需求预言机，我们提供了一种算法，该算法计算与投标人的需求偏好相对应的加权投标矢量的唯一列表。在他们的需求只能使用正出价来表达的特殊情况下，我们有一个有效的算法，可以在线性时间内学习这个列表。我们还展示了在投标可能是正的和负的一般情况下，计算投标列表的查询复杂度的超多项式下界。我们的算法构成了投标人构建与非琐碎需求相对应的投标清单的第一种系统方法，使他们能够参与“产品组合”拍卖。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACM Transactions on Economics and Computation COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-

CiteScore

3.80

自引率

0.00%

发文量

期刊介绍： The ACM Transactions on Economics and Computation welcomes submissions of the highest quality that concern the intersection of computer science and economics. Of interest to the journal is any topic relevant to both economists and computer scientists, including but not limited to the following: Agents in networks Algorithmic game theory Computation of equilibria Computational social choice Cost of strategic behavior and cost of decentralization ("price of anarchy") Design and analysis of electronic markets Economics of computational advertising Electronic commerce Learning in games and markets Mechanism design Paid search auctions Privacy Recommendation / reputation / trust systems Systems resilient against malicious agents.