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Average-case approximation ratio of scheduling without payments

Average-case approximation ratio of scheduling without payments
Average-case approximation ratio of scheduling without payments

Apart from the principles and methodologies inherited from Economics and Game Theory, the studies in Algorithmic Mechanism Design typically employ the worst case analysis and design of approximation schemes of Theoretical Computer Science. For instance, the approximation ratio, which is the canonical measure of evaluating how well an incentive-compatible mechanism approximately optimizes the objective, is defined in the worst-case sense. It compares the performance of the optimal mechanism against the performance of a truthful mechanism, for all possible inputs. In this paper, we take the average-case analysis approach, and tackle one of the primary motivating problems in Algorithmic Mechanism Design—the scheduling problem (Nisan and Ronen, in: Proceedings of the 31st annual ACM symposium on theory of computing (STOC), 1999). One version of this problem, which includes a verification component, is studied by Koutsoupias (Theory Comput Syst 54(3):375–387, 2014). It was shown that the problem has a tight approximation ratio bound of (n + 1)/2 for the single-task setting, where n is the number of machines. We show, however, when the costs of the machines to executing the task follow any independent and identical distribution, the average-case approximation ratio of the mechanism given by Koutsoupias (Theory Comput Syst 54(3):375–387, 2014) is upper bounded by a constant. This positive result asymptotically separates the average-case ratio from the worst-case ratio. It indicates that the optimal mechanism devised for a worst-case guarantee works well on average.

Approximation ratio, Average-case analysis, Scheduling
0178-4617
1638-1652
Zhang, Jie
6bad4e75-40e0-4ea3-866d-58c8018b225a
Zhang, Jie
6bad4e75-40e0-4ea3-866d-58c8018b225a

Zhang, Jie (2021) Average-case approximation ratio of scheduling without payments. Algorithmica, 83 (6), 1638-1652. (doi:10.1007/s00453-020-00796-2).

Record type: Article

Abstract

Apart from the principles and methodologies inherited from Economics and Game Theory, the studies in Algorithmic Mechanism Design typically employ the worst case analysis and design of approximation schemes of Theoretical Computer Science. For instance, the approximation ratio, which is the canonical measure of evaluating how well an incentive-compatible mechanism approximately optimizes the objective, is defined in the worst-case sense. It compares the performance of the optimal mechanism against the performance of a truthful mechanism, for all possible inputs. In this paper, we take the average-case analysis approach, and tackle one of the primary motivating problems in Algorithmic Mechanism Design—the scheduling problem (Nisan and Ronen, in: Proceedings of the 31st annual ACM symposium on theory of computing (STOC), 1999). One version of this problem, which includes a verification component, is studied by Koutsoupias (Theory Comput Syst 54(3):375–387, 2014). It was shown that the problem has a tight approximation ratio bound of (n + 1)/2 for the single-task setting, where n is the number of machines. We show, however, when the costs of the machines to executing the task follow any independent and identical distribution, the average-case approximation ratio of the mechanism given by Koutsoupias (Theory Comput Syst 54(3):375–387, 2014) is upper bounded by a constant. This positive result asymptotically separates the average-case ratio from the worst-case ratio. It indicates that the optimal mechanism devised for a worst-case guarantee works well on average.

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Accepted/In Press date: 28 December 2020
e-pub ahead of print date: 18 January 2021
Published date: June 2021
Additional Information: Funding Information: Jie Zhang was supported by a Leverhulme Trust Research Project Grant. Publisher Copyright: © 2021, The Author(s). Copyright: Copyright 2021 Elsevier B.V., All rights reserved.
Keywords: Approximation ratio, Average-case analysis, Scheduling
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Identifiers

Local EPrints ID: 446601
URI: http://eprints.soton.ac.uk/id/eprint/446601
DOI: doi:10.1007/s00453-020-00796-2
ISSN: 0178-4617
PURE UUID: d7fb5231-9a6a-4025-bdce-b510f5564097

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Date deposited: 16 Feb 2021 17:30
Last modified: 05 Jun 2024 18:03

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Author: Jie Zhang

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