模型:
flair/ner-english-ontonotes
This is the 18-class NER model for English that ships with Flair .
F1-Score: 89.27 (Ontonotes)
Predicts 18 tags:
tag | meaning |
---|---|
CARDINAL | cardinal value |
DATE | date value |
EVENT | event name |
FAC | building name |
GPE | geo-political entity |
LANGUAGE | language name |
LAW | law name |
LOC | location name |
MONEY | money name |
NORP | affiliation |
ORDINAL | ordinal value |
ORG | organization name |
PERCENT | percent value |
PERSON | person name |
PRODUCT | product name |
QUANTITY | quantity value |
TIME | time value |
WORK_OF_ART | name of work of art |
Based on Flair embeddings and LSTM-CRF.
Requires: Flair ( pip install flair )
from flair.data import Sentence from flair.models import SequenceTagger # load tagger tagger = SequenceTagger.load("flair/ner-english-ontonotes") # make example sentence sentence = Sentence("On September 1st George Washington won 1 dollar.") # predict NER tags tagger.predict(sentence) # print sentence print(sentence) # print predicted NER spans print('The following NER tags are found:') # iterate over entities and print for entity in sentence.get_spans('ner'): print(entity)
This yields the following output:
Span [2,3]: "September 1st" [− Labels: DATE (0.8824)] Span [4,5]: "George Washington" [− Labels: PERSON (0.9604)] Span [7,8]: "1 dollar" [− Labels: MONEY (0.9837)]
So, the entities " September 1st " (labeled as a date ), " George Washington " (labeled as a person ) and " 1 dollar " (labeled as a money ) are found in the sentence " On September 1st George Washington won 1 dollar ".
The following Flair script was used to train this model:
from flair.data import Corpus from flair.datasets import ColumnCorpus from flair.embeddings import WordEmbeddings, StackedEmbeddings, FlairEmbeddings # 1. load the corpus (Ontonotes does not ship with Flair, you need to download and reformat into a column format yourself) corpus: Corpus = ColumnCorpus( "resources/tasks/onto-ner", column_format={0: "text", 1: "pos", 2: "upos", 3: "ner"}, tag_to_bioes="ner", ) # 2. what tag do we want to predict? tag_type = 'ner' # 3. make the tag dictionary from the corpus tag_dictionary = corpus.make_tag_dictionary(tag_type=tag_type) # 4. initialize each embedding we use embedding_types = [ # GloVe embeddings WordEmbeddings('en-crawl'), # contextual string embeddings, forward FlairEmbeddings('news-forward'), # contextual string embeddings, backward FlairEmbeddings('news-backward'), ] # embedding stack consists of Flair and GloVe embeddings embeddings = StackedEmbeddings(embeddings=embedding_types) # 5. initialize sequence tagger from flair.models import SequenceTagger tagger = SequenceTagger(hidden_size=256, embeddings=embeddings, tag_dictionary=tag_dictionary, tag_type=tag_type) # 6. initialize trainer from flair.trainers import ModelTrainer trainer = ModelTrainer(tagger, corpus) # 7. run training trainer.train('resources/taggers/ner-english-ontonotes', train_with_dev=True, max_epochs=150)
Please cite the following paper when using this model.
@inproceedings{akbik2018coling, title={Contextual String Embeddings for Sequence Labeling}, author={Akbik, Alan and Blythe, Duncan and Vollgraf, Roland}, booktitle = {{COLING} 2018, 27th International Conference on Computational Linguistics}, pages = {1638--1649}, year = {2018} }
The Flair issue tracker is available here .