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Tensorflow implementation of Hyperspherical Variational Auto-Encoders

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Hyperspherical Variational Auto-Encoders

Tensorflow implementation of Hyperspherical Variational Auto-Encoders

Overview

This library contains a Tensorflow implementation of the hyperspherical variational auto-encoder, or S-VAE, as presented in [1](http://arxiv.org/abs/1804.00891). Check also our blogpost (https://nicola-decao.github.io/s-vae).

You do not use Tensorflow? Take a look here for a pytorch implementation!

Dependencies

python>=3.6
tensorflow>=1.7.0: https://tensorflow.org
scipy: https://scipy.org

Installation

To install, run

$ python setup.py install

Structure

distributions: Tensorflow implementation of the von Mises-Fisher and hyperspherical Uniform distributions. Both inherit from tf.distributions.Distribution.
ops: Low-level operations used for computing the exponentially scaled modified Bessel function of the first kind and its derivative.
examples: Example code for using the library within a Tensorflow project.

Usage

Please have a look into the examples folder. We adapted our implementation to follow the structure of the recently proposed Tensorflow Distribution library, (Dillon et al, 2017).

Please cite [1] in your work when using this library in your experiments.

Sampling von Mises-Fisher

To sample the von Mises-Fisher distribution we follow the rejection sampling procedure as outlined by Ulrich, 1984. This simulation pipeline is visualised below:

blog toy1

Note that as $\omega$ is a scalar, this approach does not suffer from the curse of dimensionality. For the final transformation, $U(\mathbf{z}';\mu)$ , a Householder reflection is utilized.

Feedback

For questions and comments, feel free to contact Nicola De Cao.

License

MIT

Citation

[1] Davidson, T. R., Falorsi, L., De Cao, N., Kipf, T.,
and Tomczak, J. M. (2018). Hyperspherical Variational
Auto-Encoders. 34th Conference on Uncertainty in Artificial Intelligence (UAI-18).

BibTeX format:

@article{s-vae18,
  title={Hyperspherical Variational Auto-Encoders},
  author={Davidson, Tim R. and
          Falorsi, Luca and
          De Cao, Nicola and
          Kipf, Thomas and
          Tomczak, Jakub M.},
  journal={34th Conference on Uncertainty in Artificial Intelligence (UAI-18)},
  year={2018}
}

Open Source Agenda is not affiliated with "S Vae Tf" Project. README Source: nicola-decao/s-vae-tf

Stars

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Open Issues

Last Commit

5 years ago

Repository

nicola-decao/s-vae-tf

License

MIT

Homepage

http://arxiv.org/abs/1804.00891

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