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Learning-Wasserstein-Embeddings

Keras implementation of Deep Wasserstein Embeddings (Learning Wasserstein Embeddings) which approximates the Wasserstein distance with an autoencoder.

Prerequisite

  • Python 2.7
  • Scipy, numpy
  • Keras
  • POT
  • pylab

Usage

First, compute the Wasserstein pairwise distance on n_pairwise couples of samples of the dataset of your choice. Previous records for mnist and quick draw are available in [data][./data]

 $ python run_emd.py --dataset_name mnist --n_pairwise 10000

To train a siamese network to predict the pairwise wasserstein distance, use build_model.py :

 $ python build_model.py --dataset_name mnist --embedding_size 50 --batch_size 32 --epochs 100

Examples

You can use your autoencoder to compute PCA, Barycenter Estimation or Interpolation with Wasserstein. The file test_model.py allows you to test your previously trained model to test on of these features or the MSE of your network, using the method_name attributes [MSE, PCA, BARYCENTER, INTERPOLATION].

$ python test_model.py --dataset_name mnist --method_name MSE