cognitivefactory-interactive-clustering 0.1.2

Python package used to apply NLP interactive clustering methods.

Interactive Clustering

Python package used to apply NLP interactive clustering methods.

Quick description

Interactive clustering is a method intended to assist in the design of a training data set.

This iterative process begins with an unlabeled dataset, and it uses a sequence of two substeps :

1. the user defines constraints on the data ;

2. the machine performs data partitioning using a constrained clustering algorithm.

Thus, at each step of the process :

• the user corrects the clustering of the previous steps using constraints, and

• the machine offers a corrected and more relevant data partitioning for the next step.

The process use severals objects :

• a constraints manager : its role is to manage the constraints annotated by the user and to feed back the information deduced (such as the transitivity between constraints or the situation of inconsistency) ;

• a constraints sampler : its role is to select the most relevant data during the annotation of constraints by the user ;

• a constrained clustering algorithm : its role is to partition the data while respecting the constraints provided by the user.

NB :

• This python library does not contain integration into a graphic interface.

• For more details, read the Documentation and the articles in the References section.

Documentation

• Main documentation

Requirements

Interactive Clustering requires Python 3.6 or above.

To install Python 3.6, I recommend using pyenv.

# install pyenv
git clone https://github.com/pyenv/pyenv ~/.pyenv

# setup pyenv (you should also put these three lines in .bashrc or similar)
export PATH="${HOME}/.pyenv/bin:${PATH}"
export PYENV_ROOT="${HOME}/.pyenv"
eval "$(pyenv init -)"

# install Python 3.6
pyenv install 3.6.12

# make it available globally
pyenv global system 3.6.12

Installation

With pip:

# install package
python3 -m pip install cognitivefactory-interactive-clustering

# install spacy language model dependencies (the one you want, with version "^2.3")
python3 -m spacy download fr_core_news_sm-2.3.0 --direct

With pipx:

# install pipx
python3 -m pip install --user pipx

# install package
pipx install --python python3 cognitivefactory-interactive-clustering

# install spacy language model dependencies (the one you want, with version "^2.3")
python3 -m spacy download fr_core_news_sm-2.3.0 --direct

NB : Other spaCy language models can be downloaded here : spaCy - Models & Languages. Use spacy version "^2.3".

Development

To work on this project or contribute to it, please read the Copier Poetry documentation.

Quick setup and help

Get the code and prepare the environment:

git clone https://github.com/cognitivefactory/interactive-clustering/
cd interactive-clustering
make setup

Show the help:

make help  # or just make

References

• Interactive Clustering:

  • Theory and Implementation: Erwan Schild, Gautier Durantin, Jean-Charles Lamirel, Florian Miconi. Conception itérative et semi-supervisée d'assistants conversationnels par regroupement interactif des questions. EGC 2021 - 21èmes Journées Francophones Extraction et Gestion des Connaissances, Association EGC, Jan 2021, Montpellier / Virtual, France. ⟨hal-03133007⟩
  • Methodological instructions: Erwan Schild, Gautier Durantin, Jean-Charles Lamirel. Concevoir un assistant conversationnel de manière itérative et semi-supervisée avec le clustering interactif. Atelier - Fouille de Textes - Text Mine 2021 - En conjonction avec EGC 2021, Association EGC, Jan 2021, Montpellier / Virtual, France. ⟨hal-03133060⟩

• Constraints and Constrained Clustering:

  • Constraints in clustering: Wagstaff, K. et C. Cardie (2000). Clustering with Instance-level Constraints. Proceedings of the Seventeenth International Conference on Machine Learning, 1103–1110.
  • Survey on Constrained Clustering: Lampert, T., T.-B.-H. Dao, B. Lafabregue, N. Serrette, G. Forestier, B. Cremilleux, C. Vrain, et P. Gancarski (2018). Constrained distance based clustering for time-series : a comparative and experimental study. Data Mining and Knowledge Discovery 32(6), 1663–1707.
  • KMeans Clustering:
    • KMeans Clustering: MacQueen, J. (1967). Some methods for classification and analysis of multivariate observations. Proceedings of the fifth Berkeley symposium on mathematical statistics and probability 1(14), 281–297.
    • Constrained 'COP' KMeans Clustering: Wagstaff, K., C. Cardie, S. Rogers, et S. Schroedl (2001). Constrained K-means Clustering with Background Knowledge. International Conference on Machine Learning
  • Hierarchical Clustering:
    • Hierarchical Clustering: Murtagh, F. et P. Contreras (2012). Algorithms for hierarchical clustering : An overview. Wiley Interdisc. Rew.: Data Mining and Knowledge Discovery 2, 86–97.
    • Constrained Hierarchical Clustering: Davidson, I. et S. S. Ravi (2005). Agglomerative Hierarchical Clustering with Constraints : Theoretical and Empirical Results. Springer, Berlin, Heidelberg 3721, 12.
  • Spectral Clustering:
    • Spectral Clustering: Ng, A. Y., M. I. Jordan, et Y.Weiss (2002). On Spectral Clustering: Analysis and an algorithm. In T. G. Dietterich, S. Becker, et Z. Ghahramani (Eds.), Advances in Neural Information Processing Systems 14. MIT Press.
    • Constrained 'SPEC' Spectral Clustering: Kamvar, S. D., D. Klein, et C. D. Manning (2003). Spectral Learning. Proceedings of the international joint conference on artificial intelligence, 561–566.

• Preprocessing and Vectorization:

  • spaCy: Honnibal, M. et I. Montani (2017). spaCy 2 : Natural language understanding with Bloom embeddings, convolutional neural networks and incremental parsing.
    • spaCy language models: https://spacy.io/usage/models
  • NLTK: Bird, Steven, Edward Loper and Ewan Klein (2009), Natural Language Processing with Python. O’Reilly Media Inc.
    • NLTK 'SnowballStemmer': https://www.nltk.org/api/nltk.stem.html#module-nltk.stem.snowball
  • Scikit-learn: Pedregosa, F., G. Varoquaux, A. Gramfort, V. Michel, B. Thirion, O. Grisel, M. Blondel, P. Prettenhofer, R.Weiss, V. Dubourg, J. Vanderplas, A. Passos, D. Cournapeau, M. Brucher, M. Perrot, et E. Duchesnay (2011). Scikit-learn : Machine Learning in Python. Journal of Machine Learning Research 12, 2825–2830.
    • Scikit-learn 'TfidfVectorizer': https://scikit-learn.org/stable/modules/generated/sklearn.feature_extraction.text.TfidfVectorizer.html