Title :
AR(∞) estimation and nonparametric stochastic complexity
Author :
Gerencser, Laszlo
Author_Institution :
Comput. & Autom. Inst., Hungarian Acad. of Sci., Budapest, Hungary
fDate :
11/1/1992 12:00:00 AM
Abstract :
Let H* be the transfer function of a linear stochastic system such that H* and its inverse are in H∞(D). Writing the system as an AR(∞) system, the best AR (k) approximation of the system is estimated using the method of least squares. A useful representation theorem for the parameter estimation error is presented. The effect of undermodeling and parameter uncertainty (due to estimation) on honest prediction, and the optimal choice of k, are questioned. This question is answered and the result is applied to the AR approximation of ARMA systems. The excess of the mean of the nonparametric stochastic complexity with respect to the AR class of an ARMA system with zeros less than 1/β in moduli is found asymptotically to be less than σ2log2N/logβ after N samples
Keywords :
computational complexity; filtering and prediction theory; information theory; least squares approximations; nonparametric statistics; parameter estimation; stochastic systems; transfer functions; AR approximation; ARMA systems; autoregressive estimation; honest prediction; least squares method; linear stochastic system; nonparametric stochastic complexity; parameter estimation error; representation theorem; transfer function; Estimation theory; H infinity control; Least squares approximation; Parameter estimation; Predictive models; Stochastic processes; Stochastic systems; Transfer functions; Uncertain systems; Writing;
Journal_Title :
Information Theory, IEEE Transactions on
