shibing624's picture
Update README.md
2cc2683 verified
|
raw
history blame
4.43 kB
metadata
language:
  - zh
tags:
  - bert
  - pytorch
  - zh
  - ner
license: apache-2.0
pipeline_tag: token-classification

BERT for Chinese Named Entity Recognition(bert4ner) Model

中文实体识别模型

bert4ner-base-chinese evaluate PEOPLE(人民日报) test data:

The overall performance of BERT on people test:

Accuracy Recall F1
BertSoftmax 0.9425 0.9627 0.9525

在PEOPLE的测试集上达到接近SOTA水平。

BertSoftmax的网络结构(原生BERT):

arch

Usage

本项目开源在实体识别项目:nerpy,可支持bert4ner模型,通过如下命令调用:

>>> from nerpy import NERModel
>>> model = NERModel("bert", "shibing624/bert4ner-base-chinese")
>>> predictions, raw_outputs, entities = model.predict(["常建良,男,1963年出生,工科学士,高级工程师"], split_on_space=False)
entities: [('常建良', 'PER'), ('1963年', 'TIME')]

模型文件组成:

bert4ner-base-chinese
    ├── config.json
    ├── model_args.json
    ├── pytorch_model.bin
    ├── special_tokens_map.json
    ├── tokenizer_config.json
    └── vocab.txt

Usage (HuggingFace Transformers)

Without nerpy, you can use the model like this:

First, you pass your input through the transformer model, then you have to apply the bio tag to get the entity words.

Install package:

pip install transformers seqeval
import os
import torch
from transformers import AutoTokenizer, AutoModelForTokenClassification
from seqeval.metrics.sequence_labeling import get_entities

os.environ["KMP_DUPLICATE_LIB_OK"] = "TRUE"

# Load model from HuggingFace Hub
tokenizer = AutoTokenizer.from_pretrained("shibing624/bert4ner-base-chinese")
model = AutoModelForTokenClassification.from_pretrained("shibing624/bert4ner-base-chinese")
label_list = ['I-ORG', 'B-LOC', 'O', 'B-ORG', 'I-LOC', 'I-PER', 'B-TIME', 'I-TIME', 'B-PER']

sentence = "王宏伟来自北京,是个警察,喜欢去王府井游玩儿。"


def get_entity(sentence):
    tokens = tokenizer.tokenize(sentence)
    inputs = tokenizer.encode(sentence, return_tensors="pt")
    with torch.no_grad():
        outputs = model(inputs).logits
    predictions = torch.argmax(outputs, dim=2)
    char_tags = [(token, label_list[prediction]) for token, prediction in zip(tokens, predictions[0].numpy())][1:-1]
    print(sentence)
    print(char_tags)

    pred_labels = [i[1] for i in char_tags]
    entities = []
    line_entities = get_entities(pred_labels)
    for i in line_entities:
        word = sentence[i[1]: i[2] + 1]
        entity_type = i[0]
        entities.append((word, entity_type))

    print("Sentence entity:")
    print(entities)


get_entity(sentence)

output:

王宏伟来自北京,是个警察,喜欢去王府井游玩儿。
[('王', 'B-PER'), ('宏', 'I-PER'), ('伟', 'I-PER'), ('来', 'O'), ('自', 'O'), ('北', 'B-LOC'), ('京', 'I-LOC'), (',', 'O'), ('是', 'O'), ('个', 'O'), ('警', 'O'), ('察', 'O'), (',', 'O'), ('喜', 'O'), ('欢', 'O'), ('去', 'O'), ('王', 'B-LOC'), ('府', 'I-LOC'), ('井', 'I-LOC'), ('游', 'O'), ('玩', 'O'), ('儿', 'O'), ('。', 'O')]
Sentence entity:
[('王宏伟', 'PER'), ('北京', 'LOC'), ('王府井', 'LOC')]

训练数据集

中文实体识别数据集

数据集 语料 下载链接 文件大小
CNER中文实体识别数据集 CNER(12万字) CNER github 1.1MB
PEOPLE中文实体识别数据集 人民日报数据集(200万字) PEOPLE github 12.8MB

CNER中文实体识别数据集,数据格式:

美	B-LOC
国	I-LOC
的	O
华	B-PER
莱	I-PER
士	I-PER

我	O
跟	O
他	O

如果需要训练bert4ner,请参考https://github.com/shibing624/nerpy/tree/main/examples

Citation

@software{nerpy,
  author = {Xu Ming},
  title = {nerpy: Named Entity Recognition toolkit},
  year = {2022},
  url = {https://github.com/shibing624/nerpy},
}