Schelling's model is an influential model that reveals how individual perceptions and incentives can lead to residential segregation. Inspired by a recent stream of work, we study welfare guarantees and complexity in this model with respect to several welfare measures. First, we show that while maximizing the social welfare is NP-hard, computing an assignment of agents to the nodes of any topology graph with approximately half of the maximum welfare can be done in polynomial time. We then consider Pareto optimality, introduce two new optimality notions based on it, and establish mostly tight bounds on the worst-case welfare loss for assignments satisfying these notions as well as the complexity of computing such assignments. In addition, we show that for tree topologies, it is possible to decide whether there exists an assignment that gives every agent a positive utility in polynomial time; moreover, when every node in the topology has degree at least $2$, such an assignment always exists and can be found efficiently.
翻译:Schelling的模型是一个有影响力的模式,它揭示了个人的看法和激励措施如何导致住宅隔离。在近期工作流的启发下,我们研究了这一模式中福利保障和复杂程度的若干福利措施。首先,我们表明,在尽量扩大社会福利是硬的NP, 计算将代理人分配到任何地形图节点,其最高福利的大约一半可以在多民族时期完成。然后,我们考虑Pareto最佳性,引入基于它的两个新的最佳性概念,并在满足这些概念的任务的最坏情况的福利损失以及计算这些任务的复杂性上建立最紧凑的界限。此外,我们表明,对于树地表问题,我们有可能确定是否存在一项任务,使每个代理人在多民族时期都有一个积极的效用;此外,当每个顶层的节点都达到至少2美元的水平时,这种任务总是存在,并且可以有效地找到。
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