Vector quantile regression and optimal transport, from theory to numerics

Carlier, Guillaume; Chernozhukov, Victor; De Bie, Gwendoline; Galichon, Alfred

Author(s)

Carlier, Guillaume; Chernozhukov, Victor; De Bie, Gwendoline; Galichon, Alfred

Download181_2020_Article_1919.pdf (1.236Mb)

Publisher with Creative Commons License

Terms of use

Creative Commons Attribution https://creativecommons.org/licenses/by/4.0/

Metadata

Show full item record

Abstract

Abstract In this paper, we first revisit the Koenker and Bassett variational approach to (univariate) quantile regression, emphasizing its link with latent factor representations and correlation maximization problems. We then review the multivariate extension due to Carlier et al. (Ann Statist 44(3):1165–92, 2016,; J Multivariate Anal 161:96–102, 2017) which relates vector quantile regression to an optimal transport problem with mean independence constraints. We introduce an entropic regularization of this problem, implement a gradient descent numerical method and illustrate its feasibility on univariate and bivariate examples.

Date issued

2020-08-12

URI

https://hdl.handle.net/1721.1/131584

Department

Massachusetts Institute of Technology. Department of Economics

Publisher

Springer Berlin Heidelberg

Collections

MIT Open Access Articles