Title :
Controller Design for Polynomial Systems with Input Constraints
Author :
Gussner, Thomas ; Adamy, Jürgen
Author_Institution :
Control Theor. & Robot. Lab., Tech. Univ. Darmstadt, Darmstadt, Germany
Abstract :
In this paper, a new optimization based design method for stabilization of polynomial systems with input constraints is presented. The method utilizes the sum of squares decomposition of polynomials and results in a nonpolynomial control law fulfilling amplitude constraints of the input. Consideration of input rate constraints can be included by extending the optimization problem. The resulting sum of squares optimization problems are bilinear. Thus, an iterative algorithm is used to obtain a solution. The applicability of the method is demonstrated by an example system, for which it turns out that the resulting controller exploits the given amplitude range very well and leads to better control performance than a polynomial controller.
Keywords :
bilinear systems; constraint theory; control system synthesis; iterative methods; optimisation; polynomials; stability; amplitude constraints; bilinear; controller design; input constraints; iterative algorithm; nonpolynomial control law; optimization based design method; polynomial system stabilization; sum of squares decomposition; sum of squares optimization problem; Actuators; Constraint optimization; Control systems; Design methodology; Design optimization; Iterative algorithms; Linear systems; Polynomials; Stability; State feedback;
Conference_Titel :
Decision and Control, 2009 held jointly with the 2009 28th Chinese Control Conference. CDC/CCC 2009. Proceedings of the 48th IEEE Conference on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4244-3871-6
Electronic_ISBN :
0191-2216
DOI :
10.1109/CDC.2009.5400942
