Learning Deep Kernels for Exponential Family Densities

Li Wenliang, Danica J. Sutherland, Heiko Strathmann, Arthur Gretton

ICML 2019 pp. 6737-6746

/icml/2019/wenliang2019icml-learning/

Abstract

The kernel exponential family is a rich class of distributions, which can be fit efficiently and with statistical guarantees by score matching. Being required to choose a priori a simple kernel such as the Gaussian, however, limits its practical applicability. We provide a scheme for learning a kernel parameterized by a deep network, which can find complex location-dependent local features of the data geometry. This gives a very rich class of density models, capable of fitting complex structures on moderate-dimensional problems. Compared to deep density models fit via maximum likelihood, our approach provides a complementary set of strengths and tradeoffs: in empirical studies, the former can yield higher likelihoods, whereas the latter gives better estimates of the gradient of the log density, the score, which describes the distribution’s shape.

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Cite

Text

Wenliang et al. "Learning Deep Kernels for Exponential Family Densities." International Conference on Machine Learning, 2019.

Markdown

[Wenliang et al. "Learning Deep Kernels for Exponential Family Densities." International Conference on Machine Learning, 2019.](https://mlanthology.org/icml/2019/wenliang2019icml-learning/)

BibTeX

@inproceedings{wenliang2019icml-learning,
  title     = {{Learning Deep Kernels for Exponential Family Densities}},
  author    = {Wenliang, Li and Sutherland, Danica J. and Strathmann, Heiko and Gretton, Arthur},
  booktitle = {International Conference on Machine Learning},
  year      = {2019},
  pages     = {6737-6746},
  volume    = {97},
  url       = {https://mlanthology.org/icml/2019/wenliang2019icml-learning/}
}