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Robust and Reliable H∞ State-Feedback Control :A Linear Matrix Inequality Approach

Seong-Woo Kim / Byung Kook Kim / Chang-Jun Seo
Transaction on Control Automation, and Systems Engineering, vol. 2, no. 1, pp.31-39, 2000

Abstract : We present a robust and reliable H∞ state-feedback controller design for linear uncertain systems, which have norm-bounded time-varying uncertainty in the state matrix, and their prespecified sets of actuators are susceptible to failure. These controllers should guarantee robust stability of the systems and H∞ norm bound against parameter uncertainty and/or actuator failures. Based on the linear matrix inequality (LMI) approach, two state-feedback controller design methods are constructed by formulating to a set of LMIs corresponding to all failure cases or a single LMI that covers all failure cases, with an additional costraint. Effectiveness and geometrical property of these controllers are validated via several numerical examples. Furthermore, the proposed LMI frameworks can be applied to multiobjective problems with additional constraints.

Keyword : robust and reliable H∞ control, state-feedback control, linear matrix inequality, actuator failures

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