SIER Working Paper Series

We propose a test of the conditional stochastic dominance in the presence of growing numbers of covariates. Our approach builds on a semiparametric locationscale model, where the conditional distribution of the outcome given the covariates is characterized by nonparametric mean and skedastic functions with independent innovations from an unknown distribution. The nonparametric regression functions are estimated by the L1-penalized nonparametric series estimation with thresholding. Deviation bounds for the regression functions and series coefficients estimates are obtained allowing for the time series dependence. We propose a test statistic, which is the supremum of a composite of the estimated regression functions and the residual empirical distribution, and introduce a smooth stationary bootstrap to compute p-values. We investigate the finite sample performance of the bootstrap critical values by a set of Monte Carlo simulations. Finally, our method is illustrated by an application to stochastic dominance among portfolio returns given all the past information.

Keywords: Conditional stochastic dominance; Semiparametric location scale model; Home bias; LASSO; Power boosting

JEL classification: C10; C1; C15;