Alternates, Assemble! Selecting Optimal Alternates for Citizens’ Assemblies
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Citizens' assemblies are an increasingly influential form of deliberative democracy, where randomly selected people discuss policy questions. The legitimacy of these assemblies hinges on their representation of the broader population, but participant dropout often leads to an unbalanced composition. In practice, dropouts are replaced by preselected alternates, but existing methods do not address how to choose these alternates. To address this gap, we introduce an optimization framework for alternate selection. Our algorithmic approach, which leverages learning-theoretic machinery, estimates dropout probabilities using historical data and selects alternates to minimize expected misrepresentation. Our theoretical bounds provide guarantees on sample complexity (with implications for computational efficiency) and on loss due to dropout probability mis-estimation. Empirical evaluation using real-world data demonstrates that, compared to the status quo, our method significantly improves representation while requiring fewer alternates.
Description
EC ’25, July 7–10, 2025, Stanford, CA, USA
Date issued
2025-07-02Department
Massachusetts Institute of Technology. Computer Science and Artificial Intelligence LaboratoryPublisher
ACM|The 26th ACM Conference on Economics and Computation
Citation
Angelos Assos, Carmel Baharav, Bailey Flanigan, and Ariel Procaccia. 2025. Alternates, Assemble! Selecting Optimal Alternates for Citizens’ Assemblies. Proceedings of the 26th ACM Conference on Economics and Computation. Association for Computing Machinery, New York, NY, USA, 719–738.
Version: Final published version
ISBN
979-8-4007-1943-1