Title :
The experimental computer control of a two-dimensional hyperbolic system
Author :
Yam, Yeung ; Lang, Jeffrey H. ; Staelin, D.H. ; Johnson, Timothy L.
Abstract :
The system treated consists of a 5-foot gold-coated rubber membrane mounted on a circular cylindrical drum. Seven electrodes reside on a command surface located behind the membrane inside the drum, serving as capacitive sensors and electrostatic force actuators of transverse membrane deflection. The membrane is modeled as flat, isotropic, and uniformly tensioned. Controllers regulating membrane deflection are designed using aggregation and design procedures based on sensor and actuator influence functions. The resulting control laws are implemented on a minicomputer in two sets of experiments. The first set studies modal pole placement and direct regulation of simulated model noise. The second set investigates the indirect regulation of simulated noise in a residual mode via spillover at different synthesized spillover levels. The study shows that spillover can be made a beneficial source of damping in residual systems.<>
Keywords :
computerised control; distributed parameter systems; multidimensional systems; poles and zeros; capacitive sensors; computerised control; damping; distributed parameter systems; drum; electrostatic force actuators; experimental computer control; gold-coated rubber membrane; hyperbolic system; minicomputer; modal pole placement; multidimensional systems; residual systems; simulated noise regulation; transverse membrane deflection; two-dimensional systems; Biomembranes; Capacitive sensors; Electrodes; Electrostatic actuators; Force sensors; Microcomputers; Noise level; Rubber; State feedback; Surface treatment;
Journal_Title :
Automatic Control, IEEE Transactions on
