Title :
On Asymptotic Stabilizability of Linear Systems With Delayed Input
Author :
Lin, Zongli ; Fang, Haijun
Author_Institution :
Univ. of Virginia, Charlottesville
fDate :
6/1/2007 12:00:00 AM
Abstract :
This paper examines the asymptotic stabilizability of linear systems with delayed input. By explicit construction of stabilizing feedback laws, it is shown that a stabilizable and detectable linear system with an arbitrarily large delay in the input can be asymptotically stabilized by either linear state or output feedback as long as the open-loop system is not exponentially unstable (i.e., all the open-loop poles are on the closed left-half plane). A simple example shows that such results would not be true if the open-loop system is exponentially unstable. It is further shown that such systems, when subject to actuator saturation, are semiglobally asymptotically stabilizable by linear state or output feedback.
Keywords :
actuators; asymptotic stability; delays; feedback; linear systems; open loop systems; asymptotic stabilizability; delayed input; linear state feedback; linear systems; open-loop system; output feedback; Control systems; Delay effects; Delay lines; Delay systems; Hydraulic actuators; Linear feedback control systems; Linear systems; Output feedback; State feedback; Time measurement; Actuator saturation; low gain feedback; stabilization; time delay;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2007.899007
