The Cost and Complexity of Minimizing Envy in House Allocations (Abstract Reprint)
DOI:
https://doi.org/10.1609/aaai.v40i47.41393Abstract
We study almost envy-freeness in house allocation, where m houses are to be allocated among n agents so that every agent receives exactly one house. An envy-free allocation need not exist, and therefore we may have to settle for relaxations. We study different aggregate measures of envy as markers of fairness. In particular, we define the amount of envy experienced by an agent a w.r.t. an allocation to be the number of agents that agent a envies under that allocation. We quantify the envy generated by an allocation using three different metrics: 1) the number of agents who are envious; 2) the maximum amount of envy experienced by any agent; and 3) the total amount of envy experienced by all agents, and look for allocations that minimize one of the three metrics. We prove a host of algorithmic and hardness results. We also suggest practical approaches for these problems via integer linear program (ILP) formulations and report the findings of our experimental evaluation of ILPs. Finally, we study the price of fairness, which quantifies the loss of welfare we must suffer due to the fairness requirements, and present tight bounds as well as algorithms that simultaneously optimize both welfare and fairness.
Published
2026-03-14
How to Cite
Madathil, J., Misra, N., & Sethia, A. (2026). The Cost and Complexity of Minimizing Envy in House Allocations (Abstract Reprint). Proceedings of the AAAI Conference on Artificial Intelligence, 40(47), 39878–39878. https://doi.org/10.1609/aaai.v40i47.41393
Issue
Section
AAAI Journal Track
