Low-rank diffusion matrix estimation for high-dimensional time-changed L\'evy processes

Abstract

The estimation of the diffusion matrix of a high-dimensional, possibly time-changed L\'evy process is studied, based on discrete observations of the process with a fixed distance. A low-rank condition is imposed on . Applying a spectral approach, we construct a weighted least-squares estimator with nuclear-norm-penalisation. We prove oracle inequalities and derive convergence rates for the diffusion matrix estimator. The convergence rates show a surprising dependency on the rank of and are optimal in the minimax sense for fixed dimensions. Theoretical results are illustrated by a simulation study.