Query-Based Committee Selection
Abstract
Purpose: Multiwinner voting rules typically require full knowledge of voter preferences, which becomes impractical in large-scale or attention-limited settings. This paper investigates how accurately a winning committee can be approximated when voter preferences are elicited using a limited budget of structured queries. Methods: We introduce a query-based framework for multiwinner elections in which voter preferences are elicited through refinement queries over subsets of candidates under a limited budget. We analyse several cost functions that model the cognitive effort needed to answer such queries, propose axiomatic properties for evaluating them, and experimentally evaluate simple query-based committee selection rules across multiple election models. Results: Experimental results show that strategies based on recursively splitting candidate sets provide the best trade-off between elicitation cost and committee accuracy. Across several statistical models, these strategies approximate the outcome of k-Borda elections significantly more efficiently than alternative query types. Conclusion: The results demonstrate that well-designed query strategies can substantially reduce the amount of preference information required while still producing high-quality committee outcomes, suggesting that query-based elicitation is a promising approach for scalable multiwinner decision-making.
Cite
@article{arxiv.2603.29729,
title = {Query-Based Committee Selection},
author = {Itay Asher Zimet and Shiri Alouf-Heffetz and Nimrod Talmon},
journal= {arXiv preprint arXiv:2603.29729},
year = {2026}
}
Comments
23 pages, 12 figures, 2 Tables. To be published in conference proceedings of EUMAS 2025. Also submitted an extended version to EUMAS 2024/2025 Springer Nature Special Issue. For code used in this research, see https://github.com/itayzimet/VotingRulesExperiment