非结构重入图语言的生成与多项式解析

IF 3.7 2区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Computational Linguistics Pub Date : 2023-07-06 DOI:10.1162/coli_a_00488
Johanna Björklund, F. Drewes, Anna Jonsson
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引用次数: 3

摘要

基于图的语义表示在自然语言处理(NLP)中很流行,通常将语言概念建模为节点,将它们之间的关系建模为边是很方便的。已经进行了几次尝试,以找到一种足够强大的生成设备来描述语义图的语言,同时允许有效的解析。我们通过引入图扩展语法为这一工作做出了贡献,图扩展语法是Hoffmann等人提出的上下文超边替换语法的变体。上下文超边替代可以生成具有非结构重入的图,这是一种在形式主义中非常常见的节点共享类型,如抽象意义表示,但是哪些上下文无关类型的图语法不能建模。为了给我们的形式主义提供一种以语言意义的方式放置可重入性的方法,我们在计算一元二阶逻辑时赋予规则逻辑公式。然后,我们提出了一个解析算法,并作为我们的主要结果表明,该算法在由我们的语法的一个子类,即所谓的局部图扩展语法生成的图语言上以多项式时间运行。
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Generation and Polynomial Parsing of Graph Languages with Non-Structural Reentrancies
Graph-based semantic representations are popular in natural language processing (NLP), where it is often convenient to model linguistic concepts as nodes and relations as edges between them. Several attempts have been made to find a generative device that is sufficiently powerful to describe languages of semantic graphs, while at the same allowing efficient parsing. We contribute to this line of work by introducing graph extension grammar, a variant of the contextual hyperedge replacement grammars proposed by Hoffmann et al. Contextual hyperedge replacement can generate graphs with non-structural reentrancies, a type of node-sharing that is very common in formalisms such as abstract meaning representation, but which context-free types of graph grammars cannot model. To provide our formalism with a way to place reentrancies in a linguistically meaningful way, we endow rules with logical formulas in counting monadic second-order logic. We then present a parsing algorithm and show as our main result that this algorithm runs in polynomial time on graph languages generated by a subclass of our grammars, the so-called local graph extension grammars.
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来源期刊
Computational Linguistics
Computational Linguistics 工程技术-计算机:跨学科应用
CiteScore
15.80
自引率
0.00%
发文量
45
审稿时长
>12 weeks
期刊介绍: Computational Linguistics, the longest-running publication dedicated solely to the computational and mathematical aspects of language and the design of natural language processing systems, provides university and industry linguists, computational linguists, AI and machine learning researchers, cognitive scientists, speech specialists, and philosophers with the latest insights into the computational aspects of language research.
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