次等估值下的公平与纳什福利的兼容性

Siddharth Barman, Mashbat Suzuki
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引用次数: 0

摘要

我们通过纳什社会福利(NSW)建立了公平与效率之间的兼容性,这种兼容性适用于广泛的次等价值类别。我们证明,对于次正值,总是存在一种部分分配,这种分配在去除任何物品(EFx)之前都是无嫉妒的,并且新南威尔士州至少是最优分配的一半;在这里,最优性是指所有分配,无论公平与否。我们还证明了,对于次等估值,完全分配的普遍存在性(EF1),这些完全分配在去掉一个物品之前是无嫉妒的,而且还达到了最优 NSW 的 1/2$ 因数近似值。我们的 EF1 结果解决了加格等人(STOC 2023)提出的一个未决问题。此外,我们还开发了一种多项式时间算法,在输入任意分配 \~A 的情况下,可以返回一个 EF1 分配,其 NSW 至少是 \~A 的 1/3 倍。因此,我们的结果意味着,对于次正估值,EF1 准则可以在多项式时间内(在有需求查询的情况下)同时得到最优 NSW 的常系数近似值。在 EF1 条件下,n 个代理中最优 NSW 的近似系数为 $O(n)$ - 我们将这一约束改进为 $O(1)$。众所周知,EF1 和精确帕累托效率(PO)与次等估值不相容。作为对这一负面结果的补充,目前的研究表明,我们只需考虑因数 1/2$ 的近似值,就能重新获得兼容性:EF1可以与$\frac{1}{2}$-PO下次要估值一起实现。因此,我们的结果是一个通用工具,可以作为一个黑盒子,将任何有效结果转化为公平结果,而效率仅有边际下降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Compatibility of Fairness and Nash Welfare under Subadditive Valuations
We establish a compatibility between fairness and efficiency, captured via Nash Social Welfare (NSW), under the broad class of subadditive valuations. We prove that, for subadditive valuations, there always exists a partial allocation that is envy-free up to the removal of any good (EFx) and has NSW at least half of the optimal; here, optimality is considered across all allocations, fair or otherwise. We also prove, for subadditive valuations, the universal existence of complete allocations that are envy-free up to one good (EF1) and also achieve a factor $1/2$ approximation to the optimal NSW. Our EF1 result resolves an open question posed by Garg et al. (STOC 2023). In addition, we develop a polynomial-time algorithm which, given an arbitrary allocation \~A as input, returns an EF1 allocation with NSW at least $1/3$ times that of \~A. Therefore, our results imply that the EF1 criterion can be attained simultaneously with a constant-factor approximation to optimal NSW in polynomial time (with demand queries), for subadditive valuations. The previously best-known approximation factor for optimal NSW, under EF1 and among $n$ agents, was $O(n)$ - we improve this bound to $O(1)$. It is known that EF1 and exact Pareto efficiency (PO) are incompatible with subadditive valuations. Complementary to this negative result, the current work shows that we regain compatibility by just considering a factor $1/2$ approximation: EF1 can be achieved in conjunction with $\frac{1}{2}$-PO under subadditive valuations. As such, our results serve as a general tool that can be used as a black box to convert any efficient outcome into a fair one, with only a marginal decrease in efficiency.
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