Latent local-to-unity models

Author

Jun Yu, Singapore Management UniversityFollow

Publication Type

Working Paper

Version

publishedVersion

Publication Date

5-2021

Abstract

This paper proposes a class of state-space models where the state equation is a local-to-unity process. The large sample theory is obtained for the least squares (LS) estimator of the autoregressive (AR) parameter in the AR representation of the model under two sets of conditions. In the first set of conditions, the error term in the observation equation is independent and identically distributed (iid), and the error term in the state equation is stationary and fractionally integrated with memory parameter H ϵ 2 (0; 1). It is shown that both the rate of convergence and the asymptotic distribution of the LS estimator depend on H. In the second set of conditions, the error term in the observation equation is independent but not necessarily identically distributed, and the error term in the state equation is strong mixing. When both error terms are iid, we also develop the asymptotic theory for an instrumental variable estimator. Special cases of our models are discussed.

Keywords

State-space, Local-to-unity, O-U process, Fractional O-U process, Fractional Brownian motion, Fractional integration, Instrumental variable

Discipline

Econometrics

Research Areas

Econometrics

First Page

1

Last Page

25

Embargo Period

5-17-2021

Citation

Yu, Jun. Latent local-to-unity models. (2021). 1-25.
Available at: https://ink.library.smu.edu.sg/soe_working_paper/3

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 4.0 International License.