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Density Deconvolution with Normalizing Flows

Machine Learning 2020-07-14 v2 Machine Learning
Authors: Tim Dockhorn , James A. Ritchie , Yaoliang Yu , Iain Murray
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Abstract

Density deconvolution is the task of estimating a probability density function given only noise-corrupted samples. We can fit a Gaussian mixture model to the underlying density by maximum likelihood if the noise is normally distributed, but would like to exploit the superior density estimation performance of normalizing flows and allow for arbitrary noise distributions. Since both adjustments lead to an intractable likelihood, we resort to amortized variational inference. We demonstrate some problems involved in this approach, however, experiments on real data demonstrate that flows can already out-perform Gaussian mixtures for density deconvolution.

Keywords

density estimation and sampling bayesian mixture models gaussian graphical model estimation

Cite

@article{arxiv.2006.09396,
  title  = {Density Deconvolution with Normalizing Flows},
  author = {Tim Dockhorn and James A. Ritchie and Yaoliang Yu and Iain Murray},
  journal= {arXiv preprint arXiv:2006.09396},
  year   = {2020}
}

Comments

Appearing at the second workshop on Invertible Neural Networks, Normalizing Flows, and Explicit Likelihood Models (ICML 2020), Virtual Conference. 8 pages, 6 figures, 5 tables

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