Algorithmic mechanisms for reliable crowdsourcing computation under collusion
Document Type
Article
Publication Date
3-20-2015
Abstract
We consider a computing system where a master processor assigns a task for execution to worker processors that may collude. We model the workers' decision of whether to comply (compute the task) or not (return a bogus result to save the computation cost) as a game among workers. That is, we assume that workers are rational in a game-theoretic sense. We identify analytically the parameter conditions for a unique Nash Equilibrium where the master obtains the correct result. We also evaluate experimentally mixed equilibria aiming to attain better reliability-profit trade-offs. For a wide range of parameter values that may be used in practice, our simulations show that, in fact, both master and workers are better off using a pure equilibrium where no worker cheats, even under collusion, and even for colluding behaviors that involve deviating from the game.
Publication Title
PLoS ONE
DOI
10.1371/journal.pone.0116520
Recommended Citation
Anta, Antonio Fernández; Georgiou, Chryssis; Mosteiro, Miguel A.; and Pareja, Daniel, "Algorithmic mechanisms for reliable crowdsourcing computation under collusion" (2015). Kean Publications. 1866.
https://digitalcommons.kean.edu/keanpublications/1866