Fast parsing using pruning and grammar specialization

Rayner, Manny; Carter, David

doi:10.3115/981863.981893

Cited by 11 publications

(20 citation statements)

References 23 publications

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“…In contrast to our approach in which no manual annotation is required, Rayner and Carter (1996) report that for each sentence in the training data, the best parse was selected manually from the set of parses generated by the parser. For the experiments described in the paper, this constituted an effort of two and a half person-months.…”

Section: Discussionmentioning

confidence: 99%

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Learning efficient parsing

Noord

2009

Proceedings of the 12th Conference of the European Chapter of the Association for Computational Linguistics on - EACL '09

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A corpus-based technique is described to improve the efficiency of wide-coverage high-accuracy parsers. By keeping track of the derivation steps which lead to the best parse for a very large collection of sentences, the parser learns which parse steps can be filtered without significant loss in parsing accuracy, but with an important increase in parsing efficiency. An interesting characteristic of our approach is that it is self-learning, in the sense that it uses unannotated corpora.

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Section: Discussionmentioning

confidence: 99%

“…An overview of grammar specialization techniques is given in (Sima'an, 1999). For instance, Rayner and Carter (1996) use explanation-based learning to specialize a given general grammar to a specific domain. They report important efficiency gains (the parser is about three times faster), coupled with a mild reduction of coverage (5% loss).…”

Section: Discussionmentioning

confidence: 99%

Learning efficient parsing

Noord

2009

Proceedings of the 12th Conference of the European Chapter of the Association for Computational Linguistics on - EACL '09

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“…By using these filters it is possible to restrict the range of structural properties of candidate phrasal templates (e.g., extract only saturated NPs, or subtrees having at least two daughters, or subtrees which have no immediate recursive structures). These filters serve the same means as the "chunking criteria" described in (Rayner and Carter, 1996).…”

Section: Extended Training Phasementioning

confidence: 99%

Applying explanation-based learning to control and speeding-up natural language generation

Neumann

1997

Proceedings of the Eighth Conference on European Chapter of the Association for Computational Linguistics -

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This paper presents a method for the automatic extraction of subgrammars to control and speeding-up natural language generation NLG. The method is based on explanation-based learning EBL. The main advantage for the proposed new method for NLG is that the complexity of the grammatical decision making process during NLG can be vastly reduced, because the EBL method supports the adaption of a NLG system to a particular use of a language.

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“…The practical utility of the specialized grammar is largely determined by the loss of coverage incurred by the specialization process. We show in [19] that suitable "chunking" criteria and a training corpus of a few thousand utterances in practice reduce the coverage loss to a level which does not affect the performance of the system to a significant degree.…”

Section: Linguistically Motivated Robustmentioning

confidence: 93%

“…To achieve efficient parsing, we need to be able to focus our search on only a small portion of the space of theoretically valid grammatical analyses. Our work on parsing (see [19] for a fuller description, albeit one based on a slightly earlier version of the system) is a logical continuation of two specific strands of research aimed in this general direction.…”

Section: Linguistically Motivated Robustmentioning

confidence: 99%

Hybrid language processing in the Spoken Language Translator

Rayner¹,

Carter

1997 IEEE International Conference on Acoustics, Speech, and Signal Processing

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The paper presents an overview of the Spoken Language Translator (SLT) system's hybrid language-processing architecture, focussing on the way in which rule-based and statistical methods are combined to achieve robust and efficient performance within a linguistically motivated framework. In general, we argue that rules are desirable in order to encode domain-independent linguistic constraints and achieve high-quality grammatical output, while corpus-derived statistics are needed if systems are to be efficient and robust; further, that hybrid architectures are superior from the point of view of portability to architectures which only make use of one type of information. We address the topics of "multi-engine" strategies for robust translation; robust bottom-up parsing using pruning and grammar specialization; rational development of linguistic rule-sets using balanced domain corpora; and efficient supervised training by interactive disambiguation. All work described is fully implemented in the current version of the SLT-2 system.

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Fast parsing using pruning and grammar specialization

Cited by 11 publications

References 23 publications

Learning efficient parsing

Learning efficient parsing

Applying explanation-based learning to control and speeding-up natural language generation

Hybrid language processing in the Spoken Language Translator

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