单调拥堵博弈中的罗森塔尔势能最小化

arXiv - CS - Computer Science and Game Theory Pub Date : 2024-08-21 DOI:arxiv-2408.11489

Vittorio BilòLAMSADE, Angelo FanelliLAMSADE, Laurent GourvèsLAMSADE, Christos TsoufisLAMSADE, Cosimo Vinci

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引用次数: 0

摘要

拥塞博弈之所以吸引人，是因为它可以模拟许多具体情况，在这些情况下，一些相互竞争的实体通过使用某些共享资源进行互动，还因为它们总是允许纯纳什均衡，而纯纳什均衡与势函数的局部最小值相对应。我们探讨了在这种情况下计算最小势函数状态的问题。利用棋手每次可使用的最大资源数以及棋手策略空间中可能存在的对称性，我们解决了对其资源具有单调（即非递减或非递增）延迟函数的情况下的问题复杂性。这幅图划分了多项式和 NP-困难两种情况，并辅以严密的近似算法。

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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Minimizing Rosenthal's Potential in Monotone Congestion Games

Congestion games are attractive because they can model many concrete situations where some competing entities interact through the use of some shared resources, and also because they always admit pure Nash equilibria which correspond to the local minima of a potential function. We explore the problem of computing a state of minimum potential in this setting. Using the maximum number of resources that a player can use at a time, and the possible symmetry in the players' strategy spaces, we settle the complexity of the problem for instances having monotone (i.e., either non-decreasing or non-increasing) latency functions on their resources. The picture, delineating polynomial and NP-hard cases, is complemented with tight approximation algorithms.

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arXiv - CS - Computer Science and Game Theory

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