Projective stochastic equations and nonlinear long memory
Abstract
A projective moving average is a Bernoulli shift written as a backward martingale transform of the innovation sequence. We introduce a new class of nonlinear stochastic equations for projective moving averages, termed projective equations, involving a (nonlinear) kernel and a linear combination of projections of on "intermediate" lagged innovation subspaces with given coefficients . The class of such equations include usual moving-average processes and the Volterra series of the LARCH model. Solvability of projective equations is studied, including a nested Volterra series representation of the solution . We show that under natural conditions on , this solution exhibits covariance and distributional long memory, with fractional Brownian motion as the limit of the corresponding partial sums process.
Cite
@article{arxiv.1312.1938,
title = {Projective stochastic equations and nonlinear long memory},
author = {Ieva Grublytė and Donatas Surgailis},
journal= {arXiv preprint arXiv:1312.1938},
year = {2013}
}