Neural Generative Distributional Regression

Abstract

Any continuous conditional distribution of Y given X can be generated from a transform of a known noise distribution U such as the uniform or normal distribution via Y = g(X, U). This paper provides an estimator of such a generative transformation g by minimizing the empirical energy distance between distributions of Y and g(X, U), and implements it via neural networks. The estimated distribution can then be readily applied to downstream tasks such as conditional moment estimation, predictive interval construction, and conditional density estimation. By leveraging the representation power of neural networks, the estimator can adaptively exploit low-dimensional structures in a purely algorithmic manner. Theoretically, we establish an oracle inequality attaining the adaptive optimal nonparametric rates. Numerical simulations and real data analysis further demonstrate the practical effectiveness of the proposed method.