Decentralized Controller Design by Continuous Pole Placement for Incommensurate-Time-Delay Systems∗∗This work is supported in part by the Scientific and Technical Research Council of Turkey (T UB? ITAK) under grant number 112E153 and in part by the Scientific Research Projects Commission of Anadolu University under grant number 1204F071.
Author:
Publisher
Elsevier BV
Subject
Control and Systems Engineering
Reference16 articles.
1. Decentralized control: An overview.;Bakule;Annual Reviews in Control,2008
2. Decentralized stabilization and pole assignment for general proper systems.;Davison;IEEE Transactions on Automatic Control,1990
3. Erol, H.E. and Iftar, A. (2013). A necessary and sufficient condition for the stabilization of decentralized time-delay systems by time-delay controllers. In Preprints of the 13th IFAC Symposium on Large Scale Complex Systems, 62-67. Shanghai, China.
4. Erol, H.E. and Iftar, A. (2014). Decentralized controller design by continuous pole placement for commensurate-time-delay systems. In Proceedings of the 19th IFAC World Congress, 9419-9424. Cape Town, South Africa.
5. Kamen, E.W., Khargonekar, P.P., and Tannenbaum, A. (1985). Stabilization of time-delay systems using finite-dimensional compensators. IEEE Transactions on Automatic Control, AC-30, 75-78.
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