Algebraic Multiplicities Arising from Static Feedback Control Systems of Parabolic Type |
| |
Authors: | Takao Nambu |
| |
Affiliation: | 1. Department of Applied Mathematics , Graduate School of System Informatics, Kobe University , Kobe , Japan nambu@kobe-u.ac.jp |
| |
Abstract: | In stabilization studies of linear parabolic control systems, a successful approach is a scheme employing dynamic compensators in the feedback loop. An essential reason is the fact that both sensors and actuators cannot be designed freely, especially in the case of boundary observation/boundary feedback. Most fundamental in this scheme is a simple stabilization result under the static feedback control scheme. In this scheme, little attention has been paid to how to assign new eigenvalues of the feedback system. In this article, we show a new feature of pole assignment that shows some choices of new eigenvalues cause a deterioration of the stability property. An algebraic growth rate is added to the feedback system in such a choice. |
| |
Keywords: | Linear parabolic systems Stabilization Static feedback scheme Sylvester equation |
|
|