Subspace Algorithms for Identifying Separable-In-Denominator 2-D Systems with Deterministic-Stochastic Inputs

Author(s)

Jose A. Ramos, Nova Southeastern UniversityFollow
Guillaume Mercere, University of Poitiers

Document Type

Article

Publication Title

International Journal of Control

ISSN

0020-7179

Publication Date

2016

Abstract

In this paper, we present an algorithm for identifying two-dimensional (2D) causal, recursive and separable-in-denominator (CRSD) state-space models in the Roesser form with deterministic–stochastic inputs. The algorithm implements the N4SID, PO-MOESP and CCA methods, which are well known in the literature on 1D system identification, but here we do so for the 2D CRSD Roesser model. The algorithm solves the 2D system identification problem by maintaining the constraint structure imposed by the problem (i.e. Toeplitz and Hankel) and computes the horizontal and vertical system orders, system parameter matrices and covariance matrices of a 2D CRSD Roesser model. From a computational point of view, the algorithm has been presented in a unified framework, where the user can select which of the three methods to use. Furthermore, the identification task is divided into three main parts: (1) computing the deterministic horizontal model parameters, (2) computing the deterministic vertical model parameters and (3) computing the stochastic components. Specific attention has been paid to the computation of a stabilised Kalman gain matrix and a positive real solution when required. The efficiency and robustness of the unified algorithm have been demonstrated via a thorough simulation example.

DOI

10.1080/00207179.2016.1172258

Volume

89

Issue

12

First Page

2584

Last Page

2610

NSUWorks Citation

Ramos, Jose A. and Mercere, Guillaume, "Subspace Algorithms for Identifying Separable-In-Denominator 2-D Systems with Deterministic-Stochastic Inputs" (2016). CCE Faculty Articles. 438.
https://nsuworks.nova.edu/gscis_facarticles/438