在拟多项式时间内决定奇偶对策

Proceedings of the 49th Annual ACM SIGACT Symposium on Theory of Computing Pub Date : 2017-06-19 DOI:10.1145/3055399.3055409

Cristian S. Calude, Sanjay Jain, B. Khoussainov, Wei Li, F. Stephan

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引用次数: 215

摘要

证明了奇偶对策可以在拟多项式时间内求解。参数化的parity博弈-具有n个节点和m个不同的值(又名颜色或优先级)-被证明在参数化m时属于固定参数可处理(FPT)问题的类别。两个结果都改进了已知的界限，从运行时间nO(√n)到O(nlog(m)+6)，以及从运行时间O(nΘ(m))的xp算法到运行时间O(n5)+g(m)的FPT算法，对于某些函数g仅依赖于m。作为一个应用，证明了n个节点m种颜色的有色穆勒对策可以在O((mm·n)5)时间内确定;还证明了该界不能改进为O((2m·n)c)，对于任何c，除非FPT = W[1]。

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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Deciding parity games in quasipolynomial time

It is shown that the parity game can be solved in quasipolynomial time. The parameterised parity game - with n nodes and m distinct values (aka colours or priorities) - is proven to be in the class of fixed parameter tractable (FPT) problems when parameterised over m. Both results improve known bounds, from runtime nO(√n) to O(nlog(m)+6) and from an XP-algorithm with runtime O(nΘ(m)) for fixed parameter m to an FPT-algorithm with runtime O(n5)+g(m), for some function g depending on m only. As an application it is proven that coloured Muller games with n nodes and m colours can be decided in time O((mm · n)5); it is also shown that this bound cannot be improved to O((2m · n)c), for any c, unless FPT = W[1].

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Proceedings of the 49th Annual ACM SIGACT Symposium on Theory of Computing

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