Vol.3, No 15, 2003 pp.1033-1038
UDC 681.5.01+62-52
Invited Paper
CONTROLLER DESIGN
FOR A FUNNEL-SHAPED SMART SHELL STRUCTURE
Tamara Nestorović Trajkov1,2
Ulrich Gabbert1, Heinz Köppe1
1Otto-von-Guericke-Universität Magdeburg,
Fakultät für Maschinenbau,
Institut für Mechanik, Universitätsplatz 2, D-39106 Magdeburg, Germany
2Faculty of Mechanical Engineering,
University of Niš
Aleksandra Medvedeva 14, 18000 Niš, Serbia and Montenegro
Abstract.The paper is aimed at controller design for the vibration
suppression of a funnel-shaped shell structure, which is a part of a complex
medical device – magnetic resonance tomograph. Control and sensing are
achieved with piezoelectric actuators and sensors attached to the surface
of the funnel. State space model of the structure is developed applying
the modal analysis and reduction of the finite element model order. Optimal
LQ controller combined with tracking system based on additional dynamics
is designed. As an alternative for the controller design a direct robust
model reference adaptive control is proposed. Both controllers perform
considerable vibration suppression in comparison with uncontrolled case.
PROJEKTOVANJE UPRAVLJANJA ZA AKTIVNU KONSTRUKCIJU
TIPA LJUSKE U OBLIKU LEVKA
U radu je prikazano projektovanje kontrolera za redukciju oscilacija aktivne
konstrukcije tipa ljuske u obliku levka, koja predstavlja deo složenog
medicinskog uređaja, magneto-rezonantnog tomografa. Upravljanje je realizovano
pomoću piezoelektričnih aktuatora i senzora pričvršćenih za površinu levka.
Model u prostoru stanja dobijen je na osnovu modela konačnih elemenata
primenom modalne analize i redukcije reda modela. Projektovani kontroler
je optimalni LQ sistem praćenja sa dodatnom dinamikom. Kao alternativa
za projektovanje upravljanja predložen je direktni robustni adaptivi algoritam
sa referentnim modelom. Primenom oba projetovana upravljačka zakona uočava
se značajna redukcija oscilacija levka u poređenju sa slučajem bez upravljanja.
