No EFX allocation exists for tri-valued additive chore instances with n≥4 agents; EFX is incompatible with Pareto optimality for bi-valued positive-cost instances with n≥4; EFX exists for n=4.
Counterexamples to EFX for Submodular and Subadditive Valuations
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abstract
The existence of EFX allocations is a fundamental question in fair division. In this paper, we construct a three-agent, eight-good instance with monotone subadditive valuations such that no allocation satisfies $\alpha$-EFX for any $\alpha > \frac{1}{\sqrt[6]{2}} \approx 0.89$. We also provide a closely related three-agent, eight-good instance with submodular (in fact weighted coverage) valuations for which no EFX allocation exists. A key feature of our construction is its symmetry: the agents' valuations are identical up to a relabeling of the goods. Thus, EFX can fail even when agents differ only in how the goods are labeled. This symmetry makes the counterexamples compact and human-verifiable, yielding simple combinatorial obstructions to the existence of EFX.
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cs.GT 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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EFX for Additive Chores: Nonexistence, Pareto Incompatibility, and Bi-Valued Existence
No EFX allocation exists for tri-valued additive chore instances with n≥4 agents; EFX is incompatible with Pareto optimality for bi-valued positive-cost instances with n≥4; EFX exists for n=4.