The Complexity of Manipulation of k-Coalitional Games on Graphs

arXiv - CS - Computer Science and Game Theory Pub Date : 2024-08-14 DOI:arxiv-2408.07368

Hodaya Barr, Yohai Trabelsi, Sarit Kraus, Liam Roditty, Noam Hazon

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Abstract

In many settings, there is an organizer who would like to divide a set of agents into $k$ coalitions, and cares about the friendships within each coalition. Specifically, the organizer might want to maximize utilitarian social welfare, maximize egalitarian social welfare, or simply guarantee that every agent will have at least one friend within his coalition. However, in many situations, the organizer is not familiar with the friendship connections, and he needs to obtain them from the agents. In this setting, a manipulative agent may falsely report friendship connections in order to increase his utility. In this paper, we analyze the complexity of finding manipulation in such $k$-coalitional games on graphs. We also introduce a new type of manipulation, socially-aware manipulation, in which the manipulator would like to increase his utility without decreasing the social welfare. We then study the complexity of finding socially-aware manipulation in our setting. Finally, we examine the frequency of socially-aware manipulation and the running time of our algorithms via simulation results.

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图上 k 条件游戏的操纵复杂性

在许多情况下，组织者希望将一组代理人分成 $k$ 联盟，并关心每个联盟内的友谊。具体来说，组织者可能希望最大化功利主义社会福利，最大化平等主义社会福利，或者只是保证每个代理人在他的联盟中至少有一个朋友。然而，在很多情况下，组织者并不熟悉友谊关系，他需要从代理人那里获取友谊关系。在这种情况下，操纵者可能会谎报友谊关系，以增加自己的效用。在本文中，我们分析了在图上的 $k$ 联立博弈中寻找操纵的复杂性。我们还引入了一种新型操纵--社会意识操纵，在这种操纵中，操纵者希望在不减少社会福利的情况下增加自己的效用。然后，我们研究了在我们的设置中找到具有社会意识的操纵的复杂性。最后，我们通过模拟结果检验了社会意识操纵的频率和我们算法的运行时间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - CS - Computer Science and Game Theory

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