Affiliation:
1. DTIS, ONERA , Université Paris Saclay, 91120 Palaiseau , France
Abstract
Abstract
The main contribution of this paper is the development of $H_{\infty }$ state and unknown input (UI) observers for noisy linear parameter-varying (LPV) systems. The observers are constructed in order to be unbiased (in particular the state estimation error is decoupled from the UI) and with a minimum $L_{2}$ transfer between the perturbations (that are assumed to be with finite energy) and the estimation errors. Contrary to equivalent observers developed in the literature, the present one relaxes a widely used rank condition on the system matrices for decoupling the UI. In order to do so, high-order derivation is needed, which is done using a high-order sliding modes differentiator. A method is given to design observer gains for LPV systems under polytopic form. Finally, three examples illustrate some aspects of the theoretical contributions, and compare this work to the existing ones.
Publisher
Oxford University Press (OUP)
Reference19 articles.
1. State and unknown input estimation for linear discrete-time systems;Barbot;IFAC Proc.,2005
2. State and parameter estimation for time-varying systems: a takagi-sugeno approach;Bezzaoucha;IFAC Proc.,2013
3. Design of LPV observers for LPV time-delay systems: an algebraic approach;Briat;Int. J. Control,2011
4. A sufficient condition to design unknown input observers for nonlinear systems with arbitrary relative degree;Coutinho;Int. J. Robust Nonlinear Control,2022
5. Stability analysis and control synthesis for switched systems: a switched lyapunov function approach;Daafouz;IEEE Trans. Autom. Control,2002