The Query Complexity of Scoring Rules

Proper scoring rules are crucial tools to elicit truthful information from experts. A scoring rule maps X, an expert-provided distribution over the set of all possible states of the world, and ω , a realized state of the world, to a real number representing the expert’s reward for his provided infor...

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Bibliographic Details
Published in:ACM transactions on economics and computation 2014-07, Vol.2 (3), p.1-10
Main Authors: Azar, Pablo Daniel, Micali, Silvio
Format: Article
Language:English
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Summary:Proper scoring rules are crucial tools to elicit truthful information from experts. A scoring rule maps X, an expert-provided distribution over the set of all possible states of the world, and ω , a realized state of the world, to a real number representing the expert’s reward for his provided information. To compute this reward, a scoring rule queries the distribution X at various states. The number of these queries is thus a natural measure of the complexity of the scoring rule. We prove that any bounded and strictly proper scoring rule that is deterministic must make a number of queries to its input distribution that is a quarter of the number of states of the world. When the state space is very large, this makes the computation of such scoring rules impractical. We also show a new stochastic scoring rule that is bounded, strictly proper, and which makes only two queries to its input distribution. Thus, using randomness allows us to have significant savings when computing scoring rules.
ISSN:2167-8375
2167-8383
DOI:10.1145/2632228