Combining Crowd and Machines for Multi-predicate Item Screening
Abstract
This paper discusses how crowd and machine classifiers can be efficiently combined to screen items that satisfy a set of predicates. We show that this is a recurring problem in many domains, present machine-human (hybrid) algorithms that screen items efficiently and estimate the gain over human-only or machine-only screening in terms of performance and cost. We further show how, given a new classification problem and a set of classifiers of unknown accuracy for the problem at hand, we can identify how to manage the cost-accuracy trade off by progressively determining if we should spend budget to obtain test data (to assess the accuracy of the given classifiers), or to train an ensemble of classifiers, or whether we should leverage the existing machine classifiers with the crowd, and in this case how to efficiently combine them based on their estimated characteristics to obtain the classification. We demonstrate that the techniques we propose obtain significant cost/accuracy improvements with respect to the leading classification algorithms.
Keywords
Cite
@article{arxiv.1904.00714,
title = {Combining Crowd and Machines for Multi-predicate Item Screening},
author = {Evgeny Krivosheev and Fabio Casati and Marcos Baez and Boualem Benatallah},
journal= {arXiv preprint arXiv:1904.00714},
year = {2019}
}
Comments
Please cite the CSCW2018 version of this paper:@article{krivosheev2018combining, title={Combining Crowd and Machines for Multi-predicate Item Screening}, author={Krivosheev, Evgeny and Casati, Fabio and Baez, Marcos and Benatallah, Boualem}, journal={Proceedings of the ACM on Human-Computer Interaction}, volume={2}, number={CSCW}, pages={97}, year={2018}, publisher={ACM} }