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Sequence labeler

This is a neural network sequence labeling system. Given a sequence of tokens, it will learn to assign labels to each token. Can be used for named entity recognition, POS-tagging, error detection, chunking, CCG supertagging, etc.

The main model implements a bidirectional LSTM for sequence tagging. In addition, you can incorporate character-level information -- either by concatenating a character-based representation, or by using an attention/gating mechanism for combining it with a word embedding.

Run with:

python experiment.py config.conf

Preferably with Tensorflow set up to use CUDA, so the process can run on a GPU. The script will train the model on the training data, test it on the test data, and print various evaluation metrics.

Note: The original sequence labeler was implemented in Theano, but since Theano is soon ending support, I have reimplemented it in TensorFlow. I also used the chance to refactor the code a bit, and it should be better in every way. However, if you need the specific code used in previously published papers, you'll need to refer to older commits.

Requirements

Data format

The training and test data is expected in standard CoNLL-type tab-separated format. One word per line, separate column for token and label, empty line between sentences.

For error detection, this would be something like:

I       c
saws    i
the     c
show    c

The first column is assumed to be the token and the last column is the label. There can be other columns in the middle, which are currently not used. For example:

EU      NNP     I-NP    S-ORG
rejects VBZ     I-VP    O
German  JJ      I-NP    S-MISC
call    NN      I-NP    O
to      TO      I-VP    O
boycott VB      I-VP    O
British JJ      I-NP    S-MISC
lamb    NN      I-NP    O
.       .       O       O

Configuration

Edit the values in config.conf as needed:

Printing output

There is now a separate script for loading a saved model and using it to print output for a given input file. Use the save option in the config file for saving the model. The input file needs to be in the same format as the training data (one word per line, labels in a separate column). The labels are expected for printing output as well. If you don't know the correct labels, just print any valid label in that field.

To print the output, run:

python print_output.py labels model_file input_file

This will print the input file to standard output, with an extra column at the end that shows the prediction.

You can also use:

python print_output.py probs model_file input_file

This will print the individual probabilities for each of the possible labels. If the model is using CRFs, the probs option will output unnormalised state scores without taking the transitions into account.

References

The main sequence labeling model is described here:

Compositional Sequence Labeling Models for Error Detection in Learner Writing
Marek Rei and Helen Yannakoudakis
In Proceedings of the 54th Annual Meeting of the Association for Computational Linguistics (ACL-2016)

The character-level component is described here:

Attending to characters in neural sequence labeling models
Marek Rei, Gamal K.O. Crichton and Sampo Pyysalo
In Proceedings of the 26th International Conference on Computational Linguistics (COLING-2016)

The language modeling objective is described here:

Semi-supervised Multitask Learning for Sequence Labeling
Marek Rei
In Proceedings of the 55th Annual Meeting of the Association for Computational Linguistics (ACL-2017)

The CRF implementation is based on:

Neural Architectures for Named Entity Recognition
Guillaume Lample, Miguel Ballesteros, Sandeep Subramanian, Kazuya Kawakami and Chris Dyer
In Proceedings of NAACL-HLT 2016

The conlleval.py script is from: https://github.com/spyysalo/conlleval.py

License

The code is distributed under the Affero General Public License 3 (AGPL-3.0) by default. If you wish to use it under a different license, feel free to get in touch.

Copyright (c) 2018 Marek Rei

This program is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details.