Skip to content

javedsha/topic-ensemble

 
 

Repository files navigation

topic-ensemble

This repository contains a Python reference implementation of methods for ensemble topic modeling with Non-negative Matrix Factorization (NMF).

Details of these methods are described in the following paper:

Stability of Topic Modeling via Matrix Factorization
Mark Belford, Brian MacNamee, Derek Greene. Expert Systems with Applications (ESWA), 2018.
https://arxiv.org/abs/1702.07186

Draft pre-print: https://arxiv.org/abs/1702.07186

Additional pre-processed datasets for use with this package can be downloaded here (179MB).

Dependencies

Tested with Python 3.5, and requiring the following packages, which are available via PIP:

Basic Usage

Step 1.

Before applying topic modeling to a corpus, the first step is to pre-process the corpus and store it in a suitable format. The script 'parse-directory.py' can be used to parse a directory of plain text documents. Here, we parse all .txt files in the directory or sub-directories of 'data/sample-text'.

python parse-directory.py data/sample-text/ -o sample --tfidf --norm

The output will be sample.pkl, stored as a Joblib binary file. The identifiers of the documents in the dataset correspond to the original text input filenames.

Alternatively, if all of your documents are stored in a text file, with one document per line, the script 'parse-file.py' can be used:

python parse-file.py data/sample.txt -o sample --tfidf --norm

Step 2.

Next, we generate a set of "base" topic models, which represent the members of the ensemble. We provide two different ways to do this.

Firstly, we can generate a specified number of base topic models using NMF and random initialization (the "Basic Ensemble" approach). For instance, we can generate 20 models, each containing k=4 topics, where each NMF run will execute for a maximum of 100 iterations. The models will be written to the directory 'models/base' as separate Joblib files.

python generate-nmf.py sample.pkl -k 4 -r 20 --maxiters 100 -o models/base

Alternatively, we can use the "K-Fold" ensemble approach. For instance, to execute 5 repetitions of 10 folds, we run:

python generate-kfold.py sample.pkl -k 4 -r 5 -f 10 --maxiters 100 -o models/base

Step 3.

The next step is to combine the base topic models using an ensemble approach, to produce a final ensemble model. Note that we specify all of the factor files from the base topic models to combine, along with the number of overall ensemble topics (here again we specify k=4). The model will be written as a number of files to the directory 'models/ensemble'.

python combine-nmf.py sample.pkl models/base/*factors*.pkl -k 4 -o models/ensemble

Browsing Results

We can display the top 10 terms in the topic descriptors for the final ensemble results in tabular format:

python display-top-terms.py models/ensemble/ranks_ensemble_k04.pkl 

Or using a line-by-line format:

python display-top-terms.py -l models/ensemble/ranks_ensemble_k04.pkl 

Similarly, we can display the identifiers of the top-ranked documents for each topic:

python display-top-documents.py models/ensemble/factors_ensemble_k04.pkl 

Evaluation Measures

To evaluate the Normalized Mutual Information (NMI) accuracy of the document partitions associated with one or more topic models, relative to a ground truth dataset, run:

python eval-partition-accuracy.py sample.pkl models/base/partition*.pkl 

To evaluate the stability of a collection of document partitions using Pairwise Normalized Mutual Information (PNMI), run:

python eval-partition-stability.py models/base/partition*.pkl 

To evaluate the stability of a collection of term rankings from topic models using Average Term Stability (ATS), run:

python eval-term-stability.py models/base/ranks*.pkl 

To evaluate the stability of a collection of term rankings from topic models using Average Descriptor Set Difference (ADSD), run:

python eval-term-difference.py models/base/ranks*.pkl

About

Ensemble topic modeling with matrix factorization

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Python 100.0%