Beyond pairwise comparisons in social choice: A setwise Kemeny aggregation problem

Hugo Gilbert; Tom Portoleau; Olivier Spanjaard

doi:10.1016/j.tcs.2021.07.004

Beyond pairwise comparisons in social choice: A setwise Kemeny aggregation problem

Hugo Gilbert
, Tom Portoleau
, Olivier Spanjaard

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper, we advocate the use of setwise contests for aggregating a set of input rankings into an output ranking. We propose a generalization of the Kemeny rule where one minimizes the number of k-wise disagreements instead of pairwise disagreements (one counts 1 disagreement each time the top choice in a subset of alternatives of cardinality at most k differs between an input ranking and the output ranking). After an algorithmic study of this k-wise Kemeny aggregation problem, we introduce a k-wise counterpart of the majority graph. This graph reveals useful to divide the aggregation problem into several sub-problems, which enables to speed up the exact computation of a consensus ranking. By introducing a k-wise counterpart of the Spearman distance, we also provide a 2-approximation algorithm for the k-wise Kemeny aggregation problem. We conclude with numerical tests.

Original language	English
Pages (from-to)	27-47
Number of pages	21
Journal	Theoretical Computer Science
Volume	904
DOIs	https://doi.org/10.1016/j.tcs.2021.07.004
Publication status	Published - 15 Feb 2022
Externally published	Yes

Keywords

Computational complexity
Computational social choice
Generalized Kemeny rule
Weighted majority graph

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10.1016/j.tcs.2021.07.004

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title = "Beyond pairwise comparisons in social choice: A setwise Kemeny aggregation problem",

abstract = "In this paper, we advocate the use of setwise contests for aggregating a set of input rankings into an output ranking. We propose a generalization of the Kemeny rule where one minimizes the number of k-wise disagreements instead of pairwise disagreements (one counts 1 disagreement each time the top choice in a subset of alternatives of cardinality at most k differs between an input ranking and the output ranking). After an algorithmic study of this k-wise Kemeny aggregation problem, we introduce a k-wise counterpart of the majority graph. This graph reveals useful to divide the aggregation problem into several sub-problems, which enables to speed up the exact computation of a consensus ranking. By introducing a k-wise counterpart of the Spearman distance, we also provide a 2-approximation algorithm for the k-wise Kemeny aggregation problem. We conclude with numerical tests.",

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T2 - A setwise Kemeny aggregation problem

AU - Gilbert, Hugo

AU - Portoleau, Tom

AU - Spanjaard, Olivier

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Y1 - 2022/2/15

N2 - In this paper, we advocate the use of setwise contests for aggregating a set of input rankings into an output ranking. We propose a generalization of the Kemeny rule where one minimizes the number of k-wise disagreements instead of pairwise disagreements (one counts 1 disagreement each time the top choice in a subset of alternatives of cardinality at most k differs between an input ranking and the output ranking). After an algorithmic study of this k-wise Kemeny aggregation problem, we introduce a k-wise counterpart of the majority graph. This graph reveals useful to divide the aggregation problem into several sub-problems, which enables to speed up the exact computation of a consensus ranking. By introducing a k-wise counterpart of the Spearman distance, we also provide a 2-approximation algorithm for the k-wise Kemeny aggregation problem. We conclude with numerical tests.

AB - In this paper, we advocate the use of setwise contests for aggregating a set of input rankings into an output ranking. We propose a generalization of the Kemeny rule where one minimizes the number of k-wise disagreements instead of pairwise disagreements (one counts 1 disagreement each time the top choice in a subset of alternatives of cardinality at most k differs between an input ranking and the output ranking). After an algorithmic study of this k-wise Kemeny aggregation problem, we introduce a k-wise counterpart of the majority graph. This graph reveals useful to divide the aggregation problem into several sub-problems, which enables to speed up the exact computation of a consensus ranking. By introducing a k-wise counterpart of the Spearman distance, we also provide a 2-approximation algorithm for the k-wise Kemeny aggregation problem. We conclude with numerical tests.

KW - Computational complexity

KW - Computational social choice

KW - Generalized Kemeny rule

KW - Weighted majority graph

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DO - 10.1016/j.tcs.2021.07.004

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JO - Theoretical Computer Science

JF - Theoretical Computer Science

ER -

Beyond pairwise comparisons in social choice: A setwise Kemeny aggregation problem

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Keywords

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