Noise Inference For Ergodic L\'evy Driven SDE
Abstract
We study inference for the driving L\'evy noise of an ergodic stochastic differential equation (SDE) model, when the process is observed at high-frequency and long time and when the drift and scale coefficients contain finite-dimensional unknown parameters. By making use of the Gaussian quasi-likelihood function for the coefficients, we derive a stochastic expansion for functionals of the unit-time residuals, which clarifies some quantitative effect of plugging-in the estimators of the coefficients, thereby enabling us to take several inference procedures for the driving-noise characteristics into account. We also present new classes and methods available in YUIMA for the simulation and the estimation of a L\'evy SDE model. We highlight the flexibility of these new advances in YUIMA using simulated and real data.
Keywords
Cite
@article{arxiv.2111.02049,
title = {Noise Inference For Ergodic L\'evy Driven SDE},
author = {Hiroki Masuda and Lorenzo Mercuri and Yuma Uehara},
journal= {arXiv preprint arXiv:2111.02049},
year = {2022}
}