X divergence for approximate inference

Dieng et al. arXived this morning a new version of their paper on using the Χ divergence for variational inference. The Χ divergence essentially is the expectation of the squared ratio of the target distribution over the approximation, under the approximation. It is somewhat related to Expectation Propagation (EP), which aims at the Kullback-Leibler divergence between the target distribution and the approximation, under the target. And to variational Bayes, which is the same thing just the opposite way! The authors also point a link to our [adaptive] population Monte Carlo paper of 2008. (I wonder at a possible version through Wasserstein distance.)

Some of the arguments in favour of this new version of variational Bayes approximations is that (a) the support of the approximation over-estimates the posterior support; (b) it produces over-dispersed versions; (c) it relates to a well-defined and global objective function; (d) it allows for a sandwich inequality on the model evidence; (e) the function of the [approximation] parameter to be minimised is under the approximation, rather than under the target. The latest allows for a gradient-based optimisation. While one of the applications is on a Bayesian probit model applied to the Pima Indian women dataset [and will thus make James and Nicolas cringe!], the experimental assessment shows lower error rates for this and other benchmarks. Which in my opinion does not tell so much about the original Bayesian approach.

One Response to “X divergence for approximate inference”

  1. Not sure why they need a new name. Minimizing this thing is actually minimizing the variance of the importance sampling evidence estimate. And as thus has appeared among others in Bernard Lapeyres work on adaptive importance sampling and quite a few others.

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