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Nonfragile reliable control for positive switched systems with actuator faults and saturation
Author(s) -
Li Miao,
Zhang Junfeng,
Jia Xianglei,
Yang Haoyue
Publication year - 2019
Publication title -
optimal control applications and methods
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.458
H-Index - 44
eISSN - 1099-1514
pISSN - 0143-2087
DOI - 10.1002/oca.2503
Subject(s) - control theory (sociology) , actuator , automatic gain control , controller (irrigation) , perturbation (astronomy) , matrix (chemical analysis) , linear system , control system , computer science , mathematics , control (management) , engineering , physics , bandwidth (computing) , quantum mechanics , artificial intelligence , agronomy , composite material , biology , electrical engineering , amplifier , computer network , mathematical analysis , materials science
Summary This paper presents a nonfragile reliable control approach to positive switched systems with actuator faults and saturation. In order to guarantee the reliability of the controller, the controller gain matrix is chosen as the sum of a normal gain matrix and a gain perturbation matrix. A nonfragile reliable control is first proposed for the considered systems using a gain matrix decomposition technique. Then, the presented nonfragile control design approach is developed for the systems with exogenous disturbances. An approach to compute the normal gain matrix and the gain perturbation matrix is also provided. Under the obtained controller, the resulting closed‐loop systems are positive and L 1 ‐gain stable. Meanwhile, all the states will stay inside a cone. All presented conditions are described via linear programming. Finally, two examples are provided to verify the effectiveness of the theory findings.