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Convolutional Neural Network based on Hierarchical Category Structure for Multi-label Short Text Categorization

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HFT-CNN

result These four code/models are Chainer based implementation for text categorization by Convolutional Neural Networks.

  • Flat model: Flat non-hierarchical model
  • Without Fine-tuning (WoFt) model: Hierarchical model but without Fine-tuning
  • Hierarchical Fine-Tuning (HFT) model: Hierarchical and Fine-tuning model
  • XML-CNN model [Liu+'17]

If you use any part of this code in my research, please cite my paper:

@inproceedings{HFT-CNN,
    title={HFT-CNN: Learning Hierarchical Category Structure for Multi-label Short Text Categorization},
    Author={Kazuya Shimura and Jiyi Li and Fumiyo Fukumoto},
    booktitle={Proceedings of the 2018 Conference on Empirical Methods in Natural Language Processing},
    pages={811--816},
    year={2018},
}

Contact: Kazuya Shimura, g17tk008(at)yamanashi(dot)ac(dot)jp

If you have further questions, please feel free to contact me.

Features of each model

Feature\Method Flat model WoFt model HFT model XML-CNN model
Hierarchical Structure
Fine-tuning
Pooling Type 1-max pooling 1-max pooling 1-max pooling dynamic max pooling
Compact Representation

Setup

In order to run the code, I recommend the following environment.

  • Python 3.5.4 or higher.
  • Chainer 4.0.0 or higher. (chainer)
  • CuPy 4.0.0 or higher. (cupy)

Requirements

The code require GPU environment. Please see requirements.txt to run my code.

Installation

  1. Download code from clone or download
  2. Install the requirements: reguriements.txt
  3. You can also use Python data science platform, Anaconda as follows:
    • Download Anaconda from (https://www.anaconda.com/download/)
    • Example: Anaconda 5.1 for Linux(x86 architecture, 64bit) Installer
      wget https://repo.continuum.io/archive/Anaconda3-5.1.0-Linux-x86_64.sh
      
      bash Anaconda3-5.1.0-Linux-x86_64.sh
      
      ## Create virtual environments with the Anaconda Python distribution ##
      conda env create -f=hft_cnn_env.yml
      
      source activate hft_cnn_env
      
  4. You can run my HFT-CNN code in this environment

Directory structure

|--CNN  ##  Directory for saving the models
|  |--LOG     ## Log files
|  |--PARAMS  ## CNN parameters
|  |--RESULT  ## Store categorization results
|--cnn_model.py  ##  CNN model
|--cnn_train.py  ##  CNN training
|--data_helper.py  ##  Data helper
|--example.sh  ##  you can run and categorize my code by using sample data
|--hft_cnn_env.yml ##  Anaconda components dependencies
|--LICENSE  ## MIT LICENSE
|--MyEvaluator.py  ##  CNN training (validation)
|--MyUpdater.py  ##  CNN training (iteration)
|--README.md  ## README
|--requirements.txt  ## Dependencies(pip)
|--Sample_data  ## Amazon sample data
|  |--sample_test.txt  ## Sample test data
|  |--sample_train.txt  ## Sample training data
|  |--sample_valid.txt  ## Sample validation data
|--train.py  ## Main
|--Tree
|  |--Amazon_all.tree  ## a hierarchical structure provided by Amazon
|--tree.py  ## Tree operation
|--Word_embedding  ## Directory of word embedding
|--xml_cnn_model.py  ##  Chainer's version of XML-CNN model [Liu+'17]

Quick-start

You can categorize sample data (Amazon product reviews) by running example.sh, with the Flat model.

bash example.sh
--------------------------------------------------
Loading data...
Loading train data: 100%|███████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 465927/465927 [00:18<00:00, 24959.42it/s]
Loading valid data: 100%|█████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 24522/24522 [00:00<00:00, 27551.44it/s]
Loading test data: 100%|████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 153025/153025 [00:05<00:00, 27051.62it/s]
--------------------------------------------------
Loading Word embedings...

The results are stored:

  • RESULT: categorization result
  • PARAMS: obtained CNN parameters
  • LOG: Log file

Training model change

You can change a training model by modifying the "ModelType" in the file "example.sh"

## Network Type (XML-CNN,  CNN-Flat,  CNN-Hierarchy,  CNN-fine-tuning or Pre-process)
ModelType=XML-CNN
  • CNN-Flat: Flat model
  • CNN-Hierarchy: WoFt model
  • CNN-fine-tuning: HTF model
  • XML-CNN: XML-CNN model

Notes:

  • When you choose CNN-Hierarchy or CNN-fine-tuning, learn a model by using Pre-process
    • Example: ModelType=Pre-process => ModelType=CNN-Hierarchy result
  • When you choose Pre-process, it learns the top level of a hierarchy and stores CNN parameters. The stored parameters are used in both CNN-Hierarchy and CNN-fine-tuning.

Word embedding

my code utilize word embedding obtained by fastText. There are two options:

  1. You can simply run example.sh. In this case, wiki.en.vec is downloaded in the directory Word_embedding and is used for training.

  2. You can specify your own "bin" file by making a path EmbeddingWeightsPath in the example.sh file.

## Embedding Weights Type (fastText .bin)
EmbeddingWeightsPath=./Word_embedding/

Learning by using your own data

Data

  • Training data: labeled training data
  • Validation data: labeled validation data
  • Test data: test data for categorization

Validation data is used to evaluate generalization error for each epoch. It is used to find when overfitting starts during the training. Training is then stopped before convergence to avoid the overfitting, i.e., early stopping. The parameter whose generalization error is the lowest among all the epochs is stored.

Format

The data format is:

  • The first column: category labels.
    • Each label is split by ",".
  • The second column: document.
    • Each word in the document is split by a space, " ".

Each column is split by Tab(\t).

Example:

LABEL1  I am a boy .
LABEL2,LABEL6  This is my pen .
LABEL3,LABEL1   ...

Hierarchical structure

When your data has a hierarchical structure, you can use my WoFT model and HTF model. Please see "TREE/Amazon_all.tree". You can use your own hierarchical structure by overwriting "TreefilePath" in the example.sh file.

License

MIT

References

[Liu+'17]

J. Liu, W-C. Chang, Y. Wu, and Y. Yang. 2017. Deep Learning for Extreme Multi-Label Text Classifica- tion. In Proc. of the 40th International ACM SIGIR Conference on Research and Development in Infor- mation Retrieval, pages 115–124.

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