H ∞ observer design for uncertain nonlinear discrete‐time systems with time‐delay: LMI optimization approach |
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Authors: | Saleh Sayyaddelshad Thomas Gustafsson |
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Affiliation: | Control Engineering Group, Lule? University of Technology, SE‐97187 Lule?, Sweden |
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Abstract: | We present a robust H ∞ observer for a class of nonlinear discrete‐time systems. The class under study includes an unknown time‐varying delay limited by upper and lower bounds, as well as time‐varying parametric uncertainties. We design a nonlinear H ∞ observer, by using the upper and lower bounds of the delay, that guarantees asymptotic stability of the estimation error dynamics and is also robust against time‐varying parametric uncertainties. The described problem is converted to a standard optimization problem, which can be solved in terms of linear matrix inequalities (LMIs). Then, we expand the problem to a multi‐objective optimization problem in which the maximum admissible Lipschitz constant and the minimum disturbance attenuation level are the problem objectives. Finally, the proposed observer is illustrated with two examples. Copyright © 2014 John Wiley & Sons, Ltd. |
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Keywords: | discrete‐time systems robust H ∞ observer nonlinear systems delay systems linear matrix inequalities |
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