Title :
Algebraic $H_infty$ Design of Higher-Order Iterative Learning Controllers
Author :
Moore, Kevin L. ; Chen, YangQuan ; Ahn, Hyo-Sung
Author_Institution :
Res. & Technol. Dev. Center, Johns Hopkins Univ., Laurel, MD
Abstract :
This paper presents an Hinfin-based design technique for synthesis of higher-order iterative learning controllers (ILC) for plants subject to iteration-domain input/output disturbances and plant model uncertainty. Using a formulation of the higher-order ILC problem into a high-dimensional MIMO discrete-time system, it is shown how the addition of input/output disturbances and plant model uncertainty to the ILC problem can be cast into a standard Hinfin framework. An algebraic approach to solving the problem in this framework is presented, resulting in a sub-optimal controller that can achieve both stability and robust performance. The key observation is that Hinfin synthesis can be used for higher-order ILC design to achieve reliable performance in the presence of iteration-varying external disturbances and model uncertainty
Keywords :
Hinfin control; MIMO systems; algebra; control system synthesis; discrete time systems; iterative methods; learning systems; robust control; uncertain systems; Hinfin synthesis; algebraic Hinfin design; controller synthesis; high-dimensional MIMO discrete-time system; higher-order iterative learning controllers; iteration-domain input/output disturbance; plant model uncertainty; robust control; stability; suboptimal controller; Delay; Intelligent systems; Laboratories; MIMO; Paper technology; Physics; Robust control; Robust stability; Robustness; Uncertainty;
Conference_Titel :
Intelligent Control, 2005. Proceedings of the 2005 IEEE International Symposium on, Mediterrean Conference on Control and Automation
Conference_Location :
Limassol
Print_ISBN :
0-7803-8936-0
DOI :
10.1109/.2005.1467187
