Decentralized strong stabilization problem
Ozgueler, A.Buelent, Unyelioglu Konur, A.
Proceedings of the American Control Conference
Publ by American Automatic Control Council, Green Valley, AZ, United States
Please cite this item using this persistent URLhttp://hdl.handle.net/11693/27812
In the decentralized strong stabilization problem for linear time-invariant finite-dimensional systems, the objective is to stabilize a given plant using a stable decentralized controller. A solvability condition for this problem is given in terms of a parity interlacing property which is to be satisfied among the real unstable poles and real unstable decentralized blocking zeros of the plant. The problem of synthesizing decentralized stabilizing controllers with minimum number of unstable poles is also solved.
- Conference Paper 
Showing items related by title, author, creator and subject.
Morgül Ö. (Institute of Electrical and Electronics Engineers Inc., 2003)We consider the delayed feedback control (DFC) scheme for one dimensional discrete time systems. To analyze the stability, we construct a map whose fixed points correspond to the periodic orbits of the system to be controlled. ...
Yucelen T.; Yildiz Y.; Sipahi R.; Yousefi E.; Nguyen N. (Taylor and Francis Ltd., 2017)Model reference adaptive control (MRAC) offers mathematical and design tools to effectively cope with many challenges of real-world control problems such as exogenous disturbances, system uncertainties and degraded modes ...
Abidi, K.; Yildiz, Y. (IFAC Secretariat, 2015)In this paper, we present the discrete version of the Adaptive Posicast Controller (APC) that deals with parametric uncertainties in systems with input time-delays. The continuous-time APC is based on the Smith Predictor ...