Persistence versus stability for auto-regressive processes
Abstract
The stability of an Auto-Regressive (AR) time sequence of finite order , is determined by the maximal modulus among all zeros of its generating polynomial. If then the effect of input and initial conditions decays rapidly in time, whereas for it is exponentially magnified (with constant or polynomially growing oscillations when ). Persistence of such AR sequence (namely staying non-negative throughout ) with decent probability, requires the largest positive zero of the generating polynomial to have the largest multiplicity among all zeros of modulus . These objects are behind the rich spectrum of persistence probability decay for AR with zero initial conditions and i.i.d. Gaussian input, all the way from bounded below to exponential decay in , with intermediate regimes of polynomial and stretched exponential decay. In particular, for AR the persistence decay power is expressed via the tail probability for Brownian motion to stay in a cone, exhibiting the discontinuity of such power decay between the AR whose generating polynomial has complex zeros of rational versus irrational angles.
Keywords
Cite
@article{arxiv.1906.00473,
title = {Persistence versus stability for auto-regressive processes},
author = {Amir Dembo and Jian Ding and Jun Yan},
journal= {arXiv preprint arXiv:1906.00473},
year = {2019}
}
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34 pages