spaCy/website/docs/usage/training-ner.jade
2017-04-16 20:37:45 +02:00

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include ../../_includes/_mixins
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| All #[+a("/docs/usage/models") spaCy models] support online learning, so
| you can update a pre-trained model with new examples. You can even add
| new classes to an existing model, to recognise a new entity type,
| part-of-speech, or syntactic relation. Updating an existing model is
| particularly useful as a "quick and dirty solution", if you have only a
| few corrections or annotations.
+h(2, "improving-accuracy") Improving accuracy on existing entity types
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| To update the model, you first need to create an instance of
| #[+api("goldparse") #[code spacy.gold.GoldParse]], with the entity labels
| you want to learn. You will then pass this instance to the
| #[+api("entityrecognizer#update") #[code EntityRecognizer.update()]]
| method. For example:
+code.
import spacy
from spacy.gold import GoldParse
nlp = spacy.load('en')
doc = nlp.make_doc(u'Facebook released React in 2014')
gold = GoldParse(doc, entities=['U-ORG', 'O', 'U-TECHNOLOGY', 'O', 'U-DATE'])
nlp.entity.update(doc, gold)
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| You'll usually need to provide many examples to meaningfully improve the
| system — a few hundred is a good start, although more is better. You
| should avoid iterating over the same few examples multiple times, or the
| model is likely to "forget" how to annotate other examples. If you
| iterate over the same few examples, you're effectively changing the loss
| function. The optimizer will find a way to minimize the loss on your
| examples, without regard for the consequences on the examples it's no
| longer paying attention to.
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| One way to avoid this "catastrophic forgetting" problem is to "remind"
| the model of other examples by augmenting your annotations with sentences
| annotated with entities automatically recognised by the original model.
| Ultimately, this is an empirical process: you'll need to
| #[strong experiment on your own data] to find a solution that works best
| for you.
+h(2, "adding") Adding a new entity type
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| You can add new entity types to an existing model. Let's say we want to
| recognise the category #[code TECHNOLOGY]. The new category will include
| programming languages, frameworks and platforms. First, we need to
| register the new entity type:
+code.
nlp.entity.add_label('TECHNOLOGY')
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| Next, iterate over your examples, calling #[code entity.update()]. As
| above, we want to avoid iterating over only a small number of sentences.
| A useful compromise is to run the model over a number of plain-text
| sentences, and pass the entities to #[code GoldParse], as "true"
| annotations. This encourages the optimizer to find a solution that
| predicts the new category with minimal difference from the previous
| output.
+h(2, "saving-loading") Saving and loading
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| After training our model, you'll usually want to save its state, and load
| it back later. You can do this with the #[code Language.save_to_directory()]
| method:
+code.
nlp.save_to_directory('/home/me/data/en_technology')
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| To make the model more convenient to deploy, we recommend wrapping it as
| a Python package, so that you can install it via pip and load it as a
| module. spaCy comes with a handy #[+a("/docs/usage/cli#package") CLI command]
| to create all required files and directories.
+code(false, "bash").
python -m spacy package /home/me/data/en_technology /home/me/my_models
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| To build the package and create a #[code .tar.gz] archive, run
| #[code python setup.py sdist] from within its directory.
+infobox("Saving and loading models")
| For more information and a detailed guide on how to package your model,
| see the documentation on
| #[+a("/docs/usage/saving-loading") saving and loading models].
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| After you've generated and installed the package, you'll be able to
| load the model as follows:
+code.
import en_technology
nlp = en_technology.load()
+h(2, "example") Example: Adding and training an #[code ANIMAL] entity
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| This script shows how to add a new entity type to an existing pre-trained
| NER model. To keep the example short and simple, only four sentences are
| provided as examples. In practice, you'll need many more —
| #[strong a few hundred] would be a good start. You will also likely need
| to mix in #[strong examples of other entity types], which might be
| obtained by running the entity recognizer over unlabelled sentences, and
| adding their annotations to the training set.
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| For the full, runnable script of this example, see
| #[+src(gh("spacy", "examples/training/train_new_entity_type.py")) train_new_entity_type.py].
+code("Training the entity recognizer").
import spacy
from spacy.pipeline import EntityRecognizer
from spacy.gold import GoldParse
from spacy.tagger import Tagger
import random
model_name = 'en'
entity_label = 'ANIMAL'
output_directory = '/path/to/model'
train_data = [
("Horses are too tall and they pretend to care about your feelings",
[(0, 6, 'ANIMAL')]),
("horses are too tall and they pretend to care about your feelings",
[(0, 6, 'ANIMAL')]),
("horses pretend to care about your feelings",
[(0, 6, 'ANIMAL')]),
("they pretend to care about your feelings, those horses",
[(48, 54, 'ANIMAL')])
]
nlp = spacy.load(model_name)
nlp.entity.add_label(entity_label)
ner = train_ner(nlp, train_data, output_directory)
def train_ner(nlp, train_data, output_dir):
# Add new words to vocab
for raw_text, _ in train_data:
doc = nlp.make_doc(raw_text)
for word in doc:
_ = nlp.vocab[word.orth]
for itn in range(20):
random.shuffle(train_data)
for raw_text, entity_offsets in train_data:
gold = GoldParse(doc, entities=entity_offsets)
doc = nlp.make_doc(raw_text)
nlp.tagger(doc)
loss = nlp.entity.update(doc, gold)
nlp.end_training()
nlp.save_to_directory(output_dir)
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+button(gh("spaCy", "examples/training/train_new_entity_type.py"), false, "secondary") Full example
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| The actual training is performed by looping over the examples, and
| calling #[code nlp.entity.update()]. The #[code update()] method steps
| through the words of the input. At each word, it makes a prediction. It
| then consults the annotations provided on the #[code GoldParse] instance,
| to see whether it was right. If it was wrong, it adjusts its weights so
| that the correct action will score higher next time.
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| After training your model, you can
| #[+a("/docs/usage/saving-loading") save it to a directory]. We recommend wrapping
| models as Python packages, for ease of deployment.