Long Memory in Intrinsically Dynamic Factor Models
Abstract
We study the generalized dynamic factor model in a long-memory setting. Unlike most recent work, which assumes a finite-dimensional factor space and short memory, our framework allows the factor space to be infinite-dimensional and the common components to exhibit long memory. We employ the two-sided estimation method of Forni, Hallin, Lippi and Reichlin (2000, Review of Economics and Statistics) to recover the common component. The long memory structure of the common component poses a challenge, as it introduces unboundedness/discontinuity in the spectral density. We address this issue by leveraging two key facts: First, the estimated operator is a projection onto the leading eigenspace and thus the eigengap provides an intrinsic scaling that partially mitigates the blow-up. Second, we perform most of our estimation in -norm, rather than pointwise. Experimental results are presented to provide evidence supporting the theory, as well as potential improvements to it.
Cite
@article{arxiv.2605.24156,
title = {Long Memory in Intrinsically Dynamic Factor Models},
author = {Qin Wen and Clifford M. Hurvich},
journal= {arXiv preprint arXiv:2605.24156},
year = {2026}
}
Comments
92 pages, 11 figures