Automatica, Vol.53, 329-338, 2015
LPV system identification under noise corrupted scheduling and output signal observations
Most of the approaches available in the literature for the identification of Linear Parameter-Varying (LPV) systems rely on the assumption that only the measurements of the output signal are corrupted by the noise, while the observations of the scheduling variable are considered to be noise free. However, in practice, this turns out to be an unrealistic assumption in most of the cases, as the scheduling variable is often related to a measured signal and, thus, it is inherently affected by a measurement noise. In this paper, it is shown that neglecting the noise on the scheduling signal, which corresponds to an error-invariables problem, can lead to a significant bias on the estimated parameters. Consequently, in order to overcome this corruptive phenomenon affecting practical use of data-driven LPV modeling, we present an identification scheme to compute a consistent estimate of LPV Input/Output (10) models from noisy output and scheduling signal observations. A simulation example is provided to prove the effectiveness of the proposed methodology. (C) 2015 Elsevier Ltd. All rights reserved.
Keywords:Linear parameter-varying systems;Parameter estimation;Instrumental variables;System identification