An optimal control L-2-gain disturbance rejection design for networked control systems
Author:
Millán Gata, Pablo
; Orihuela Espina, Diego Luis
; Vivas Venegas, Carlos; Rodríguez Rubio, Francisco
ISBN:
978-1-4244-7425-7DOI:
10.1109/ACC.2010.5530443Date:
2010-08Abstract:
This paper proposes an optimal control solution for the L2-gain disturbance rejection problem for networked control systems. The problem, usually referred as mixed H2/H∞, aims at designing a linear stabilizing controller minimizing a given cost function subject to a L2-gain disturbance rejec tion constraint. The problem is formulated assuming network induced time-varying delays and/or packet losses. An LMI-based minimization problem is derived based on a Lyapunov-Krasovskii approach, considering a polytopic covering of the time-delay range. Simulation results are provided to verify the performance of the methodology.
This paper proposes an optimal control solution for the L2-gain disturbance rejection problem for networked control systems. The problem, usually referred as mixed H2/H∞, aims at designing a linear stabilizing controller minimizing a given cost function subject to a L2-gain disturbance rejec tion constraint. The problem is formulated assuming network induced time-varying delays and/or packet losses. An LMI-based minimization problem is derived based on a Lyapunov-Krasovskii approach, considering a polytopic covering of the time-delay range. Simulation results are provided to verify the performance of the methodology.
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