Recently, a constructive method for the finite-dimensional observer-based control of deterministic parabolic PDEs has been suggested by employing a modal decomposition approach. In the present paper, we aim to extend this method to the stochastic parabolic PDEs with nonlinear multiplicative noise. We consider the Neumann actuation and boundary measurement via dynamic extension. The controller dimension is defined by N0 unstable modes, whereas the observer may have a larger dimension N. We provide mean-square L2 stability analysis of the full-order closed-loop system leading to linear matrix inequality (LMI) conditions for finding N. We prove that the LMIs are always feasible for small enough noise intensity and large enough N. A numerical example demonstrates the efficiency of our method.
Constructive finite-dimensional observer-based boundary control of stochastic parabolic PDEs / Wang, P.; Katz, Rami; Fridman, E.. - 2022-:(2022), pp. 1667-1672. (Intervento presentato al convegno 2022 American Control Conference, ACC 2022 tenutosi a usa nel 2022) [10.23919/ACC53348.2022.9867400].
Constructive finite-dimensional observer-based boundary control of stochastic parabolic PDEs
Katz, Rami;
2022-01-01
Abstract
Recently, a constructive method for the finite-dimensional observer-based control of deterministic parabolic PDEs has been suggested by employing a modal decomposition approach. In the present paper, we aim to extend this method to the stochastic parabolic PDEs with nonlinear multiplicative noise. We consider the Neumann actuation and boundary measurement via dynamic extension. The controller dimension is defined by N0 unstable modes, whereas the observer may have a larger dimension N. We provide mean-square L2 stability analysis of the full-order closed-loop system leading to linear matrix inequality (LMI) conditions for finding N. We prove that the LMIs are always feasible for small enough noise intensity and large enough N. A numerical example demonstrates the efficiency of our method.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione
