主张增强论证框架的复杂性景观

W. Dvořák, Alexander Greßler, Anna Rapberger, S. Woltran
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引用次数: 8

摘要

主张增强的论证框架(CAFs)通过采用以主张为中心的视角,为分析论证中以结论为导向的问题提供了正式的基础;他们通过将一个主张与代表其结论的每个论点联系起来,扩展了Dung AFs。这个额外的层提供了各种可能性来概括抽象的论证语义,因为根据其主张重新解释论证可以在框架评估的不同阶段执行:一种方法是在根据其主张解释论证之前完全在论证级别执行评估(继承语义);或者,可以根据参数的声明(声明级语义)在过程中执行某些步骤(例如,最大化)。这些方法的内在差异不仅可能导致不同的结果,而且正如我们将在本文中展示的那样,也反映在计算复杂性方面。为此,我们对优选语义、幼稚语义、稳定语义、半稳定语义和阶段语义的声明级变体的四个主要推理问题进行了全面的复杂性分析,并通过提供半稳定语义和阶段语义的相应结果来完善继承语义的复杂性结果。此外,我们表明,对于给定的框架,决定语义的两种方法是否一致(并发)可能非常困难,范围一直到多项式层次结构的第三级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Complexity Landscape of Claim-Augmented Argumentation Frameworks
Claim-augmented argumentation frameworks (CAFs) provide a formal basis to analyze conclusion-oriented problems in argumentation by adapting a claim-focused perspective; they extend Dung AFs by associating a claim to each argument representing its conclusion. This additional layer offers various possibilities to generalize abstract argumentation semantics as the re-interpretation of arguments in terms of their claims can be performed at different stages in the evaluation of the framework: One approach is to perform the evaluation entirely at argument-level before interpreting arguments by their claims (inherited semantics); alternatively, one can perform certain steps in the process (e.g., maximization) already in terms of the arguments’ claims (claim-level semantics). The inherent difference of these approaches not only potentially results in different outcomes but, as we will show in this paper, is also mirrored in terms of computational complexity. To this end, we provide a comprehensive complexity analysis of the four main reasoning problems with respect to claim-level variants of preferred, naive, stable, semi-stable and stage semantics and complete the complexity results of inherited semantics by providing corresponding results for semi-stable and stage semantics. Moreover, we show that deciding, whether for a given framework the two approaches of a semantics coincide (concurrence) can be surprisingly hard, ranging up to the third level of the polynomial hierarchy.
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