Title :
Multivariable circle criterion: stable fuzzy control of a milling process
Author :
Schmitt-Braess, G. ; Guerra, R. E Haber ; Haber, R.H. ; Alique, A.
Author_Institution :
Lehrstuhl fur Regelungstechnik, Erlangen-Nurnberg Univ., Erlangen, Germany
Abstract :
Finding for a complex control plant an analytical model that is detailed enough for controller design is often hard or even impossible. In such cases the regulation of the system can be performed by knowledge-based fuzzy control. Under the assumption that there exists a locally valid linear description for the plant the stability problem of the nonlinear fuzzy control-loop can be addressed with the multivariable circle criterion, e.g. in linear-matrix-inequality format. The application of that stability criterion is demonstrated for fuzzy control of a nonlinear parameter-varying milling process and approved in both simulations and real-time application.
Keywords :
control system synthesis; fuzzy control; linear matrix inequalities; machining; multivariable control systems; nonlinear control systems; process control; robust control; stability criteria; analytical model; complex control plant; controller design; fuzzy control; knowledge-based fuzzy control; linear-matrix-inequality format; locally valid linear description; milling process; multivariable circle criterion; nonlinear fuzzy control-loop; nonlinear parameter-varying milling process; real-time application; simulations; stability criterion; stability problem; stable fuzzy control; Analytical models; Differential equations; Fuzzy control; Linear feedback control systems; Metalworking machines; Milling; Niobium; Robust stability; Stability analysis; Stability criteria;
Conference_Titel :
Control Applications, 2002. Proceedings of the 2002 International Conference on
Print_ISBN :
0-7803-7386-3
DOI :
10.1109/CCA.2002.1040217
