A covariance extension approach to identification of time series

In this paper we consider a three-step procedure for identi"cation of time series, based on covariance extension and model reduction, and we present a complete analysis of its statistical convergence properties. A partial covariance sequence is estimated from statistical data. Then a high-order maximum-entropy model is determined, which is "nally approximated by a lower-order model by stochastically balanced model reduction. Such procedures have been studied before, in various combinations, but an overall convergence analysis comprising all three steps has been lacking. Supposing the data is generated from a true "nite-dimensional system which is minimum phase, it is shown that the transfer function of the estimated system tends in H to the true transfer function as the data length tends to in"nity, if the covariance extension and the model reduction is done properly. The proposed identi"cation procedure, and some variations of it, are evaluated by simulations.