Title :
Modelling and control of a flexible space structure
Author :
Li, Peng ; Vukovich, G.
Author_Institution :
Canadian Space Agency, Ottawa, Ont., Canada
Abstract :
Modeling and control of a simplified SCOLE (spacecraft control laboratory experiment) model is considered. A continuum model, rather than a finite element model, is used. The model consists of a long flexible mast which joins two rigid bodies. The dynamics of the system is given by a coupled set of ordinary and partial differential equations and formulated as a wave equation in Hilbert space by using a semigroup approach. Sufficient conditions that guarantee strong stabilizability of the perturbed system, given that the unperturbed system has a similar property, are presented. The results are obtained for general wave equations in Hilbert spaces. It is shown that when the system in subjected to a certain class of perturbations, it remains stabilizable by the same boundary feedback control as is the nominal system
Keywords :
aerospace control; distributed parameter systems; feedback; partial differential equations; stability; Hilbert space; SCOLE; boundary feedback control; continuum model; flexible mast; flexible space structure; partial differential equations; semigroup approach; spacecraft control laboratory experiment; strong stabilizability; wave equation; Control systems; Finite element methods; Hilbert space; Laboratories; Partial differential equations; Power system modeling; Space stations; Space vehicles; Sufficient conditions; Waves;
Conference_Titel :
Control Applications, 1992., First IEEE Conference on
Conference_Location :
Dayton, OH
Print_ISBN :
0-7803-0047-5
DOI :
10.1109/CCA.1992.269876
