Incentive mechanism design for heterogeneous crowdsourcing using all-pay contests

Incentive mechanism design for heterogeneous crowdsourcing using all-pay contests

Many crowdsourcing scenarios are heterogeneous in the sense that, not only the workers' types (e.g., abilities, costs) are different, but the beliefs (probabilistic knowledge) about their respective types are also different. In this paper, we design an incentive mechanism for such scenarios usi...

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Bibliographic Details
Main Authors: LUO, Tie, KANHERE, Salil S., DAS, Sajal K., Hwee-Pink TAN
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2016
Subjects:
Crowdsourcing
mobile crowd sensing
participatory sensing
all-pay auction
asymmetric auction
strategy autonomy
Computer Sciences
Software Engineering
Online Access:https://ink.library.smu.edu.sg/sis_research/2877
https://ink.library.smu.edu.sg/context/sis_research/article/3877/viewcontent/IncentiveMechanismDesignAllPayContests_2016.pdf
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Institution: Singapore Management University
Language: English
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Summary:Many crowdsourcing scenarios are heterogeneous in the sense that, not only the workers' types (e.g., abilities, costs) are different, but the beliefs (probabilistic knowledge) about their respective types are also different. In this paper, we design an incentive mechanism for such scenarios using an asymmetric all-pay contest (or auction) model. Our design objective is an optimal mechanism, i.e., one that maximizes the crowdsourcing revenue minus cost. To achieve this, we furnish the contest with a prize tuple which is an array of reward functions for each potential winner (worker). We prove and characterize the unique equilibrium of this contest, and also solve the optimal prize tuple. In addition, this study discovers a counter-intuitive property, strategy autonomy (SA), which means that heterogeneous workers behave independently of one another as if they were in a homogeneous setting. In game-theoretical terms, it says that an asymmetric auction admits a symmetric equilibrium. Not only theoretically interseting, but SA also has important practical implications on mechanism complexity, energy efficiency, crowdsourcing revenue, and system scalability. By scrutinizing seven mechanisms, our extensive performance evaluation demonstrates the superior performance of our mechanism as well as offers insights into the SA property.

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