Computer Science ›› 2018, Vol. 45 ›› Issue (12): 130-136.doi: 10.11896/j.issn.1002-137X.2018.12.020
• Artificial Intelligence • Previous Articles Next Articles
WEI Ping1, CHAO Wen-han1, LUO Zhun-chen2, LI Zhou-jun1
CLC Number:
[1]BEJAN C A,HARABAGIU S.Unsupervised event coreference resolution with rich linguistic features[C]∥Meeting of the Association for Computational Linguistics.Association for Computational Linguistics,2010:1412-1422. [2]HOVY E,MITAMURA T,VERDEJO F,et al.Events are not simple:Identity,non-identity,and quasi-identity.http://aclweb.org/anthology/w13-1203. [3]ALLAN J.Topic Detection and Tracking Pilot Study :Final Report[C]∥Proceedings of DARPA Broadcast News Transcription and Understanding Workshop.1998:194-218. [4]HUMPHREYS K,GAIZAUSKAS R,AZZAM S.Event corefe-rence for information extraction[C]∥A Workshop on Operatio-nal Factors in Practical,Robust Anaphora Resolution for Unrestricted Texts.Association for Computational Linguistics,1997:75-81. [5]TELLEX S,KATZ B,LIN J,et al.Quantitative evaluation ofpassage retrieval algorithms for question answering[C]∥International ACM SIGIR Conference on Research and Development in Informaion Retrieval.ACM,2003:41-47. [6]MCCARTHY D,CARROLL J.Disambiguating Nouns,Verbs,and Adjectives Using Automatically Acquired Selectional Pre-ferences.Computational Linguistics,2003,29(4):639-654. [7]ZENG D,LIU K,LAI S,et al.Relation classification via convolutional deep neural network∥Proceedings of COLING 2014,the 25th International Conference on Computational Linguistics:Technical Papers.2014:2335-2344. [8]NGUYEN T H,GRISHMAN R.Event Detection and Domain Adaptation with Convolutional Neural Networks∥Procee-dings of the 53rd Annual Meeting of the Association for Computational Linguistics and the 7th International Joint Conference on Natural Language Processing (Volume 2:Short Papers).2015:365-371. [9]CHEN Y,XU L,LIU K,et al.Event Extraction via DynamicMulti-Pooling Convolutional Neural Networks[C]∥The Mee-ting of the Association for Computational Linguistics.2015. [10]KRAUSE S,XU F,USZKOREIT H,et al.Event Linking with Sentential Features from Convolutional Neural Networks[C]∥Signll Conference on Computational Natural Language Lear-ning.2016:239-249. [11]HAGHIGHI A,DAN K.Coreference resolution in a modular,entity-centered model[C]∥Human Language Technologies:the 2010 Conference of the North American Chapter of the Association for Computational Linguistics.Association for Computational Linguistics,2010:385-393. [12]RAHMAN A,NG V.Coreference Resolution with WorldKnowledge[C]∥The Meeting of the Association for Computational Linguistics:Human Language Technologies.2011:814-824. [13]RAO D,MCNAMEE P,DREDZE M.Streaming Cross Docu-ment Entity Coreference Resolution[C]∥International Conference on Coling 2010.2010:1050-1058. [14]MNIH V,HEESS N,Graves A.Recurrent models of visual attention∥Advances in neural information processing systems.2014:2204-2212. [15]BAHDANAU D,CHO K,BENGIO Y.Neural machine translation by jointly learning to align and translate.arXiv preprint arXiv:1409.0473,2014. [16]BAGGA A,BALDWIN B.Cross-document coreference:Annotations,Experiments,and Observations∥Proceedings of ACL-99 Workshop on Coreference and Its Applications.1999:1-8. [17]CHEN Z,JI H,HARALICK R.A pairwise event coreferencemodel,feature impact and evaluation for event coreference resolution[C]∥The Workshop on Events in Emerging Text Types.Association for Computational Linguistics,2009:17-22. [18]CHEN Z,JI H.Graph-based event coreference resolution[C]∥The Workshop on Graph-Based Methods for Natural Language Processing.Association for Computational Linguistics,2009:54-57. [19]LIU Z,ARAKI J,HOVY E H,et al.Supervised Within-Docu-ment Event Coreference using Information Propagation.http://www.lrec-conf.org/proceedings/lrec 2014/pdf/646_paper.pdf. [20]PENG H,SONG Y,DAN R.Event Detection and Co-reference with Minimal Supervision[C]∥Conference on Empirical Me-thods in Natural Language Processing.2016:392-402. [21]TEH Y W,JORDAN M I,BEAL M J,et al.HierarchicalDirichlet Processes.Publications of the American Statistical Association,2006,101(476):1566-1581. [22]GAEL J V,TEH Y W,GHAHRAMANI Z.The infinite facto-rial hidden Markov model[C]∥International Conference on Neural Information Processing Systems.Curran Associates Inc.,2008:1697-1704. [23]YANG B,CARDIE C,FRAZIER P.A Hierarchical Distance-dependent Bayesian Model for Event Coreference Resolution.arXiv:1504.05929,2015. [24]BLEI D M,FRAZIER P I.Distance Dependent Chinese Restaurant Processes.Journal of Machine Learning Research,2011,12(1):2461-2488. [25]LEE H,RECASENS M,CHANG A,et al.Joint entity and event coreference resolution across documents∥Proceedings of the 2012 Joint Conference on Empirical Methods in Natural Language Processing and Computational Natural Language Lear-ning.Association for Computational Linguistics,2012:489-500. [26]PRADHAN S S,RAMSHAW L,WEISCHEDEL R,et al.Unrestricted coreference:Identifying entities and events in OntoNotes∥International Conference on Semantic Computing.IEEE Computer Society,2007:446-453. [27]ARAKI J,LIU Z,HOVY E H,et al.Detecting Subevent Structure for Event Coreference Resolution∥International Conference on Language Resource and Evaluation.2014:4553-4558. [28]MIKOLOV T,SUTSKEVER I,CHEN K,et al.Distributed representations of words and phrases and their compositionality[C]∥International Conference on Neural Information Processing Systems.Curran Associates Inc.,2013:3111-3119. [29]HOCHREITER S,SCHMIDHUBER J.Long short-term memory.Neural Computation,1997,9(8):1735-1780. [30]SUTSKEVER I,VINYALS O,LE Q V.Sequence to sequencelearning with neural networks∥Advances in neural information processing systems.2014:3104-3112. [31]WU Y,SCHUSTER M,CHEN Z,et al.Google’s neural machine translation system:Bridging the gap between human and machine translation.arXiv preprint arXiv:1609.08144,2016. [32]KINGMA D P,BA J.A method for stochastic optimization.arXiv preprint arXiv:1412.6980.2014. [33]COHEN J.A coefficient of agreement for nominal scales.Educational & Psychological Measurement,2016,20(1):37-46. [34]VILAIN M,BURGER J,ABERDEEN J,et al.A Model-Theoretic Coreferenc e Scoring Scheme[C]∥Conference on Message Understanding,Muc 1995,Columbia,Maryland,Usa,November.DBLP,1995:45-52. [35]BAGGA A,BALDWIN B.Algorithms for scoring coreferencechains∥The First International Conference on Language Resources and Evaluation Workshop on Linguistics Corefe-rence.1998:563-566. [36]RECASENS M,HOVY E.BLANC:Implementing the Rand index for coreference evaluation.Natural Language Enginee-ring,2011,17(4):485-510. [37]LUO X.On coreference resolution performance metrics[C]∥HLT/EMNLP 2005,Human Language Technology Conference and Conference on Empirical Methods in Natural Language Processing,Proceedings of the Conference,Vancouver,British Columbia,Canada.DBLP,2005:25-32. [38]PRADHAN S,LUO X,RECASENS M,et al.Scoring Corefe-rence Partitions of Predicted Mentions:A Reference Implementation[C]∥Meeting of the Association for Computational Linguistics.2014:30. |
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