Title :
Performance Analysis for Recursive Passive Adaptive Controllers
Author :
M. Krstic;P.V. Kokotovic;I. Kanellakopoulos
Author_Institution :
Dept. of Electrical and Computer Engineering, University of California
fDate :
6/15/1905 12:00:00 AM
Abstract :
Computable /spl Lscr/sub 2// and /spl Lscr/sub /spl infin// performance bounds are derived for a recently proposed class of adaptive systems which show that, in addition to global stability and asymptotic tracking, a systematic improvement of transient performance can be achieved. The underlying linear nonadaptive controller is shown to possess a parametric robustness property, but for large parameter uncertainty it requires high gain. A comparison between the adaptive and the nonadaptive performance bounds demonstrates that adaptation improves the overall performance without the undesirable effects of high gain.
Keywords :
"Performance analysis","Programmable control","Adaptive control","Control systems","Adaptive systems","Nonlinear control systems","Transient analysis","High performance computing","Robust stability","Performance gain"
Conference_Titel :
Aerospace Control Systems, 1993. Proceedings. The First IEEE Regional Conference on
DOI :
10.1109/AEROCS.1993.720924
