程序代写代做代考 C 9

9
C
L
OMPUTATIONAL
INGUISTICS
CSC 485 Summer 2020
9. Supertagging
Gerald Penn
Department of Computer Science, University of Toronto
Copyright © 2017 Suzanne Stevenson, Graeme Hirst and Gerald Penn. All rights reserved.
Based upon slides by Michael Auli, Rober Hass and Aravind Joshi

WHY SUPERTAG?
 If lexical items have more description associated with them, parsing is easier
 Only useful if the supertag space is not huge
 Straightforward to compile parse from accurate
supertagging
 But impossible if there are any supertag errors  We can account for some supertag errors
 Don’t always want a full parse anyway

WHAT IS SUPERTAGGING?
 Systematic assignment of supertags  Supertags are:
 Statistically selected  Robust
 Tends to work
 Linguistically motivated  This makes sense

WHAT IS SUPERTAGGING?
 Many supertags for each word  Extended Domain of Locality
 Each lexical item has one supertag for every syntactic environment it appears in
 Inspiration comes from LTAG, lexicalized tree-adjoining grammars, in which all dependencies are localized.
 Generally, agreement features such as number and tense, are not part of the supertag.

HOW TO SUPERTAG
“Alice opened her eyes and saw.”  Supertags:
 Verb
 Transitive verb  Intransitive verb  Infinitive verb …
 Noun
 Noun phrase (subject)
 Nominal predicative
 Nominal modifier
 Nominal predicative subject extraction …

HOW TO SUPERTAG
“Alice opened her eyes and saw.”  Supertags:
S
VP
 Verb
 Transitive verb  Intransitive verb  Infinitive verb …
NP↓ saw
NP↓
 Noun
 Noun phrase (subject)
 Nominal predicative
 Nominal modifier
 Nominal predicative subject extraction …

HOW TO SUPERTAG
 A supertag can be ruled out for a given word in a given input string…
 Left and/or right context is too long/short for the input
 If the supertag contains other terminals not found in the input

HOW TO SUPERTAG
“Alice opened her eyes and saw.”  Supertags:


to saw …

 Verb
 Transitive verb  Intransitive verb  Infinitive verb …
 Noun
 Noun phrase (subject)
 Nominal predicative
 Nominal modifier
 Nominal predicative subject extraction …

HOW TO SUPERTAG
 This works fairly well
 50% average reduction in number of possible supertags

HOW TO SUPERTAG
 …but there’s more to be done
 Good: average number of possible supertags per word
reduced from 47 to 25
 Bad: average of 25 possible supertags per word

HOW TO SUPERTAG
 Disambiguation by unigrams?
 Give each word its most frequent supertag after PoS tagging
 ~75% accurate
 Better results than one might expect given large number
of possible supertags
 Common words (determiners, etc.) usually correct
 This helps accuracy
 Back off to PoS for unknown words
 Also usually correct

HOW TO SUPERTAG
 Disambiguation by n-grams?
 We assume that subsequent words are independent
 Trigrams plus Good-Turing smoothing  Accuracy around 90%
 Versus 75% from unigrams
 Contextual information more important than lexical
 Reversal of trend for PoS tagging

HOWEVER…
 Correctly supertagged text yields a 30X parsing speedup
 But even one mistake can cause parsing to fail completely
 This is rather likely
 Solution: n-best supertags?
 When n=3, we get up to 96% accuracy…  Not bad at all for such a simple method
 425 lexical categories (PTB-CFG: ~50)
 12 combinatory rules (PTB-CFG: > 500,000)