Please use this identifier to cite or link to this item: http://bura.brunel.ac.uk/handle/2438/4774
Title: AXEL: A framework to deal with ambiguity in three-noun compounds
Authors: Matadamas Martinez, Jorge
Advisors: Serrano, A
Ghinea, G
Keywords: Prepositional paraphrasing;Word sense disambiguation;Noun constituent;Generative lexicon;Sense enumerative lexicon
Issue Date: 2010
Publisher: Brunel University, School of Information Systems, Computing and Mathematics
Abstract: Cognitive Linguistics has been widely used to deal with the ambiguity generated by words in combination. Although this domain offers many solutions to address this challenge, not all of them can be implemented in a computational environment. The Dynamic Construal of Meaning framework is argued to have this ability because it describes an intrinsic degree of association of meanings, which in turn, can be translated into computational programs. A limitation towards a computational approach, however, has been the lack of syntactic parameters. This research argues that this limitation could be overcome with the aid of the Generative Lexicon Theory (GLT). Specifically, this dissertation formulated possible means to marry the GLT and Cognitive Linguistics in a novel rapprochement between the two. This bond between opposing theories provided the means to design a computational template (the AXEL System) by realising syntax and semantics at software levels. An instance of the AXEL system was created using a Design Research approach. Planned iterations were involved in the development to improve artefact performance. Such iterations boosted performance-improving, which accounted for the degree of association of meanings in three-noun compounds. This dissertation delivered three major contributions on the brink of a so-called turning point in Computational Linguistics (CL). First, the AXEL system was used to disclose hidden lexical patterns on ambiguity. These patterns are difficult, if not impossible, to be identified without automatic techniques. This research claimed that these patterns can assist audiences of linguists to review lexical knowledge on a software-based viewpoint. Following linguistic awareness, the second result advocated for the adoption of improved resources by decreasing electronic space of Sense Enumerative Lexicons (SELs). The AXEL system deployed the generation of “at the moment of use” interpretations, optimising the way the space is needed for lexical storage. Finally, this research introduced a subsystem of metrics to characterise an ambiguous degree of association of three-noun compounds enabling ranking methods. Weighing methods delivered mechanisms of classification of meanings towards Word Sense Disambiguation (WSD). Overall these results attempted to tackle difficulties in understanding studies of Lexical Semantics via software tools.
Description: This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University, 6/12/2010.
URI: http://bura.brunel.ac.uk/handle/2438/4774
Appears in Collections:Brunel University Theses
Computer Science
Dept of Computer Science Theses

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