Rates of convergence for density estimation with generative adversarial networks

Abstract

In this work we undertake a thorough study of the non-asymptotic properties of the vanilla generative adversarial networks (GANs). We prove an oracle inequality for the Jensen-Shannon (JS) divergence between the underlying density p* and the GAN estimate with a significantly better statistical error term compared to the previously known results. The advantage of our bound becomes clear in application to nonparametric density estimation. We show that the JS-divergence between the GAN estimate and p* decays as fast as (n/n)2β/(2β + d), where n is the sample size and β determines the smoothness of p*. This rate of convergence coincides (up to logarithmic factors) with minimax optimal for the considered class of densities.

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