2004 |
Tellili, A.; Abdelkrim, M. N. Reliable H∞ controller design for singularly perturbed systems with sensor failure Conférence vol. 3, 2004, (cited By 3). Résumé | Liens | BibTeX | Étiquettes: Asymptotic stability; Control theory; Linear algebra; Perturbation techniques; Reliability; Riccati equations; Sensors; Systems analysis, Control equipment, Reliable H∞ control; Sensor failure; Singularly perturbed systems; Time scale decomposition @conference{Tellili20041636,This paper studies the reliable H∞ control for linear time-invariant singularly perturbed systems against sensor failures. By time-scale decomposition, the full-order system is decomposed into slow and fast subsystems. After designing a reliable H∞ controller for the global system, two reduced reliable H∞ sub-controllers based on the slow and fast problems are obtained through the manipulation of the algebraic Riccati equations. The resulting control systems are reliable in that they provide guaranteed asymptotic stability and H∞ performance when all control components are operational as well as when sensor failures occur. ©2004 IEEE. |
Publications
2004 |
Reliable H∞ controller design for singularly perturbed systems with sensor failure Conférence vol. 3, 2004, (cited By 3). |