How Well Generative Adversarial Networks Learn Distributions

Tengyuan Liang
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引用次数: 64

Abstract

This paper studies the rates of convergence for learning distributions implicitly with the adversarial framework and Generative Adversarial Networks (GAN), which subsume Wasserstein, Sobolev, MMD GAN, and Generalized/Simulated Method of Moments (GMM/SMM) as special cases. We study a wide range of parametric and nonparametric target distributions, under a host of objective evaluation metrics. We investigate how to obtain a good statistical guarantee for GANs through the lens of regularization. On the nonparametric end, we derive the optimal minimax rates for distribution estimation under the adversarial framework. On the parametric end, we establish a theory for general neural network classes (including deep leaky ReLU networks), that characterizes the interplay on the choice of generator and discriminator pair. We discover and isolate a new notion of regularization, called the generator-discriminator-pair regularization, that sheds light on the advantage of GANs compared to classical parametric and nonparametric approaches for explicit distribution estimation. We develop novel oracle inequalities as the main technical tools for analyzing GANs, which is of independent interest.
生成对抗网络如何学习分布
本文以Wasserstein、Sobolev、MMD GAN和广义/模拟矩法(GMM/SMM)为特例,研究了基于对抗框架和生成对抗网络的隐式学习分布的收敛速度。我们研究了一系列客观评价指标下的参数和非参数目标分布。我们从正则化的角度研究了如何获得gan的良好统计保证。在非参数端,我们导出了对抗性框架下分布估计的最优极大极小率。在参数端,我们建立了一般神经网络类(包括深度泄漏ReLU网络)的理论,表征了生成器和鉴别器对选择的相互作用。我们发现并分离了一个新的正则化概念,称为生成器-鉴别器对正则化,它揭示了gan与显式分布估计的经典参数和非参数方法相比的优势。我们开发了新的oracle不等式作为分析gan的主要技术工具,这是一个独立的兴趣。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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