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The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
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Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 11 to 15 of 15 (0.095 seconds)Spelling suggestions: "subject:"aemantic relatedness"" "subject:"aemantic belatedness""
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A Context-Driven Subgraph Model for Literature-Based DiscoveryCameron, Delroy Huborn 18 December 2014 (has links)
No description available.
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Automatically Acquiring A Semantic Network Of Related ConceptsSzumlanski, Sean 01 January 2013 (has links)
We describe the automatic acquisition of a semantic network in which over 7,500 of the most frequently occurring nouns in the English language are linked to their semantically related concepts in the WordNet noun ontology. Relatedness between nouns is discovered automatically from lexical co-occurrence in Wikipedia texts using a novel adaptation of an information theoretic inspired measure. Our algorithm then capitalizes on salient sense clustering among these semantic associates to automatically disambiguate them to their corresponding WordNet noun senses (i.e., concepts). The resultant concept-to-concept associations, stemming from 7,593 target nouns, with 17,104 distinct senses among them, constitute a large-scale semantic network with 208,832 undirected edges between related concepts. Our work can thus be conceived of as augmenting the WordNet noun ontology with RelatedTo links. The network, which we refer to as the Szumlanski-Gomez Network (SGN), has been subjected to a variety of evaluative measures, including manual inspection by human judges and quantitative comparison to gold standard data for semantic relatedness measurements. We have also evaluated the network’s performance in an applied setting on a word sense disambiguation (WSD) task in which the network served as a knowledge source for established graph-based spreading activation algorithms, and have shown: a) the network is competitive with WordNet when used as a stand-alone knowledge source for WSD, b) combining our network with WordNet achieves disambiguation results that exceed the performance of either resource individually, and c) our network outperforms a similar resource, WordNet++ (Ponzetto & Navigli, 2010), that has been automatically derived from annotations in the Wikipedia corpus. iii Finally, we present a study on human perceptions of relatedness. In our study, we elicited quantitative evaluations of semantic relatedness from human subjects using a variation of the classical methodology that Rubenstein and Goodenough (1965) employed to investigate human perceptions of semantic similarity. Judgments from individual subjects in our study exhibit high average correlation to the elicited relatedness means using leave-one-out sampling (r = 0.77, σ = 0.09, N = 73), although not as high as average human correlation in previous studies of similarity judgments, for which Resnik (1995) established an upper bound of r = 0.90 (σ = 0.07, N = 10). These results suggest that human perceptions of relatedness are less strictly constrained than evaluations of similarity, and establish a clearer expectation for what constitutes human-like performance by a computational measure of semantic relatedness. We also contrast the performance of a variety of similarity and relatedness measures on our dataset to their performance on similarity norms and introduce our own dataset as a supplementary evaluative standard for relatedness measures.
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中文情態詞「會」之語意分析 / Semantic Analysis on the Modal Verb HUI in Mandarin Chinese張清秀, Tracy Chang, Ching-Hsiu Unknown Date (has links)
情態動詞「會」在前人的研究當中,具有許多不同的功能,例如表能力、表預知、表一般特性等不同的功能。本論文採用Monosemy View,認為「會」在語言表面上所呈現出之不同用法,並不是武斷毫無關係的,而是存在著非常密切的語意關連性。再者,透過此觀點,我們希望嘗試找出這些不同功能之間的語意關係。本研究提出三個假設如下:第一,情態動詞「會」有一個語意核心,表說話者對於句子命題的體現(realization),有著非常高的把握;第二,情態動詞「會」在句子裡擔任一個運符(operator)的角色,其作用是將說話者對此句子的語態加諸在此句子之上;第三,本篇論文提出「會」所呈現出許多不同的功能,是經由情態動詞與句子之情態內容所交互作用的結果。 / Carrying multiple functions--such as ability, prediction and generic--the modal verb hui in Mandarin Chinese has been extensively studied by previous researchers. This thesis, following the monosemy view, claims that the various functions of hui are not arbitrary, but closely related to one another. To account for the correlation between the various functions of hui, this thesis proposes three hypotheses. First, hui denotes assurance, indicating that the speaker’s attitude towards the realization of the propositional content is full of high assurance. Secondly, hui functions as an OPERATOR of the proposition denoted by the sentence. Thirdly, hui's multiple functions are context-derived. This thesis maintains that it is the interaction between the modal verb hui and the sentence’s proposition that results in the different functions carried by hui.
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Measuring Semantic Distance using Distributional Profiles of ConceptsMohammad, Saif 01 August 2008 (has links)
Semantic distance is a measure of how close or distant in meaning two units of language are. A large number of important natural language problems, including machine
translation and word sense disambiguation,
can be viewed as semantic distance problems.
The two dominant approaches to estimating semantic distance are the WordNet-based semantic measures and the corpus-based distributional measures. In this thesis, I compare them, both qualitatively and quantitatively, and identify the limitations of each.
This thesis argues that estimating semantic distance is essentially a property of
concepts (rather than words) and that
two concepts are semantically close if they occur in similar contexts.
Instead of identifying the co-occurrence (distributional) profiles of words (distributional hypothesis), I argue that distributional profiles of concepts (DPCs) can be used to infer the semantic properties of concepts and indeed to estimate semantic distance more accurately. I propose a new hybrid approach to calculating semantic distance that combines corpus statistics and a published thesaurus (Macquarie Thesaurus).
The algorithm determines estimates of the DPCs using the categories in the thesaurus as very coarse concepts and, notably, without requiring any sense-annotated data. Even though the use of only about 1000 concepts to represent the vocabulary of a language seems drastic, I show that the method achieves results better than the state-of-the-art in a number of natural language tasks.
I show how cross-lingual DPCs can be created by combining text in one language with a thesaurus from another. Using these cross-lingual DPCs, we can solve problems
in one, possibly resource-poor, language using a knowledge source from another,
possibly resource-rich, language. I show that the approach is also useful in tasks that inherently involve two or more languages, such as machine translation and multilingual text summarization.
The proposed approach is computationally inexpensive, it can estimate both semantic
relatedness and semantic similarity, and it can be applied to all parts of speech.
Extensive experiments on ranking word pairs as per semantic distance, real-word spelling correction, solving Reader's Digest word choice problems, determining word sense dominance, word sense disambiguation, and
word translation show that the new approach is markedly superior to previous ones.
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| 15 |
Measuring Semantic Distance using Distributional Profiles of ConceptsMohammad, Saif 01 August 2008 (has links)
Semantic distance is a measure of how close or distant in meaning two units of language are. A large number of important natural language problems, including machine
translation and word sense disambiguation,
can be viewed as semantic distance problems.
The two dominant approaches to estimating semantic distance are the WordNet-based semantic measures and the corpus-based distributional measures. In this thesis, I compare them, both qualitatively and quantitatively, and identify the limitations of each.
This thesis argues that estimating semantic distance is essentially a property of
concepts (rather than words) and that
two concepts are semantically close if they occur in similar contexts.
Instead of identifying the co-occurrence (distributional) profiles of words (distributional hypothesis), I argue that distributional profiles of concepts (DPCs) can be used to infer the semantic properties of concepts and indeed to estimate semantic distance more accurately. I propose a new hybrid approach to calculating semantic distance that combines corpus statistics and a published thesaurus (Macquarie Thesaurus).
The algorithm determines estimates of the DPCs using the categories in the thesaurus as very coarse concepts and, notably, without requiring any sense-annotated data. Even though the use of only about 1000 concepts to represent the vocabulary of a language seems drastic, I show that the method achieves results better than the state-of-the-art in a number of natural language tasks.
I show how cross-lingual DPCs can be created by combining text in one language with a thesaurus from another. Using these cross-lingual DPCs, we can solve problems
in one, possibly resource-poor, language using a knowledge source from another,
possibly resource-rich, language. I show that the approach is also useful in tasks that inherently involve two or more languages, such as machine translation and multilingual text summarization.
The proposed approach is computationally inexpensive, it can estimate both semantic
relatedness and semantic similarity, and it can be applied to all parts of speech.
Extensive experiments on ranking word pairs as per semantic distance, real-word spelling correction, solving Reader's Digest word choice problems, determining word sense dominance, word sense disambiguation, and
word translation show that the new approach is markedly superior to previous ones.
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