ReferenceNet: a semantic-pragmatic network for capturing reference relations.

In this paper, we present ReferenceNet: a semantic-pragmatic network of reference relations between synsets. Synonyms are assumed to be exchangeable in similar contexts and also word embeddings are based on sharing of local contexts represented as vectors. Co-referring words, however, tend to occur in the same topical context but in different local contexts. In addition, they may express different concepts related through topical coherence, and through author framing and perspective. In this paper, we describe how reference relations can be added to WordNet and how they can be acquired. We evaluate two methods of extracting event coreference relations using WordNet relations against a manual annotation of 38 documents within the same topical domain of gun violence. We conclude that precision is reasonable but recall is lower because the Word-Net hierarchy does not sufficiently capture the required coherence and perspective relations.

[1]  Carlo Strapparava,et al.  WordNet Affect: an Affective Extension of WordNet , 2004, LREC.

[2]  Antske Fokkens,et al.  NAF and GAF: Linking Linguistic Annotations , 2014 .

[3]  H. Putnam Meaning and Reference , 1973 .

[4]  Eneko Agirre,et al.  Personalizing PageRank for Word Sense Disambiguation , 2009, EACL.

[5]  L. Wittgenstein Philosophical investigations = Philosophische Untersuchungen , 1958 .

[6]  Hwee Tou Ng,et al.  It Makes Sense: A Wide-Coverage Word Sense Disambiguation System for Free Text , 2010, ACL.

[7]  Piek T. J. M. Vossen,et al.  Using a sledgehammer to crack a nut? Lexical diversity and event coreference resolution , 2014, LREC.

[8]  G. Frege Über Sinn und Bedeutung , 1892 .

[9]  Christiane Fellbaum,et al.  Combining Local Context and Wordnet Similarity for Word Sense Identification , 1998 .

[10]  Ralph Grishman,et al.  The NomBank Project: An Interim Report , 2004, FCP@NAACL-HLT.

[11]  Charles J. Fillmore,et al.  The Structure of the Framenet Database , 2003 .

[12]  Martha Palmer,et al.  From TreeBank to PropBank , 2002, LREC.

[13]  M. Felisa Verdejo,et al.  Events are Not Simple: Identity, Non-Identity, and Quasi-Identity , 2013, EVENTS@NAACL-HLT.

[14]  Jens Lehmann,et al.  The DBpedia Events Dataset , 2015, International Semantic Web Conference.

[15]  Jeffrey Dean,et al.  Distributed Representations of Words and Phrases and their Compositionality , 2013, NIPS.

[16]  Nicola Guarino,et al.  Avoiding IS-A Overloading: The Role of Identity Conditions in Ontology Design , 1999, Intelligent Information Integration.

[17]  Christiane Fellbaum,et al.  Toward a truly multilingual GlobalWordNet , 2016 .

[18]  W. Quine,et al.  Word and object: An inquiry into the linguistic mechanisms of objective reference. , 1960 .

[19]  Markus Krötzsch,et al.  Wikidata , 2014, Commun. ACM.

[20]  Edda Weigand Contrastive lexical semantics , 1998 .

[21]  Reinhard Blutner,et al.  Lexical Pragmatics , 1998, J. Semant..

[22]  Christiane Fellbaum,et al.  Book Reviews: WordNet: An Electronic Lexical Database , 1999, CL.

[23]  Gerhard Weikum,et al.  YAGO2: A Spatially and Temporally Enhanced Knowledge Base from Wikipedia: Extended Abstract , 2013, IJCAI.

[24]  Siobhan Chapman Logic and Conversation , 2005 .

[25]  Yo Matsumoto The conversational condition on horn scales , 1995 .

[26]  Heng Ji,et al.  Graph-based Event Coreference Resolution , 2009, Graph-based Methods for Natural Language Processing.

[27]  Saul A. Kripke,et al.  Naming and Necessity , 1980 .

[28]  Antske Fokkens,et al.  NewsReader: Using knowledge resources in a cross-lingual reading machine to generate more knowledge from massive streams of news , 2016, Knowl. Based Syst..

[29]  John P. McCrae,et al.  CILI: the Collaborative Interlingual Index , 2016, GWC.

[30]  Piek T. J. M. Vossen,et al.  Identity and Granularity of Events in Text , 2016, CICLing.

[31]  木村 和夫 Pragmatics , 1997, Language Teaching.

[32]  Sanda M. Harabagiu,et al.  Unsupervised Event Coreference Resolution with Rich Linguistic Features , 2010, ACL.

[33]  Gerhard Weikum,et al.  Searching RDF Graphs with SPARQL and Keywords , 2010, IEEE Data Eng. Bull..

[34]  Erich H. Rast Reference and Indexicality , 2007 .

[35]  Xiaoqiang Luo,et al.  Scoring Coreference Partitions of Predicted Mentions: A Reference Implementation , 2014, ACL.

[36]  Richard Johansson,et al.  Dependency-based Syntactic–Semantic Analysis with PropBank and NomBank , 2008, CoNLL.

[37]  Véronique Malaisé,et al.  Design and use of the Simple Event Model (SEM) , 2011, J. Web Semant..

[38]  Georgiana Dinu,et al.  Don’t count, predict! A systematic comparison of context-counting vs. context-predicting semantic vectors , 2014, ACL.

[39]  Claire Cardie,et al.  A Hierarchical Distance-dependent Bayesian Model for Event Coreference Resolution , 2015, TACL.