Please use this identifier to cite or link to this item: https://doi.org/10.3166/ejc.8.126-135
Title: An iterative LMI method to discrete-time reliable state-feedback controller design with mixed H2H∞ performance
Authors: Yang, G.-H. 
Yee, J.S.
Wang, J.L.
Keywords: Iterative LMI design
Mixed H2/H∞ design
Reliable design
Issue Date: 2002
Citation: Yang, G.-H., Yee, J.S., Wang, J.L. (2002). An iterative LMI method to discrete-time reliable state-feedback controller design with mixed H2H∞ performance. European Journal of Control 8 (2) : 126-135. ScholarBank@NUS Repository. https://doi.org/10.3166/ejc.8.126-135
Abstract: This paper studies the reliable mixed H2/H∞ state-feedback control of discrete-time linear systems based on the iterative linear matrix inequality (ILMI) approach. The design goal is to find an internally stabilising state-feedback controller such that the nominal mixed H2/H∞ performance measure of a closed-loop transfer matrix is optimized. The designed controller satisfies the H∞ robust stability constraint and the reliability constraint (in terms of stability and performance) under actuator faults. Besides the advantage of optimizing nominal performance, this new reliable design has the flexibility that it can be formulated to tolerate the actuator faults within certain admissible set of actuators, or to tolerate any single actuator fault. Either partial or complete actuator fault is allowed. Two examples are also given to illustrate the design method and benefits. © 2002 EUCA.
Source Title: European Journal of Control
URI: http://scholarbank.nus.edu.sg/handle/10635/116223
ISSN: 09473580
DOI: 10.3166/ejc.8.126-135
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