Title :
Friction-attenuation control design for unstable nonminimum-phase systems
Author :
Wang, Guangxiong ; Zhang, Jing ; Wang, Yi
Author_Institution :
Dept. of Control Sci. & Eng., Harbin Inst. of Technol., China
Abstract :
The dry friction in an unstable non-minimum-phase system can cause a self-sustained oscillation. The state feedback design can do nothing with such oscillations. If the non-minimum-phase is stabilized by output feedback, as is well known, an inner fast loop is generally needed to guarantee the robustness. It is pointed out that the friction can be attenuated by the fast loop with additional compensation design. A novel H∞ design methodology is proposed for this two-loop system, in which the dynamics of the inner loop is treated as unmodeled dynamics, while the order of the controller can also be reduced. Such a design is a typical example of applying H∞ control theory to multi-loop systems.
Keywords :
H∞ control; compensation; control system synthesis; friction; oscillations; robust control; state feedback; H∞ control design; dry friction attenuation control design; multiloop systems; output feedback; robustness; self sustained oscillation; state feedback design; unstable nonminimum phase systems; Control design; Control systems; Control theory; Design methodology; Friction; Output feedback; Robustness; State feedback;
Conference_Titel :
Intelligent Control and Automation, 2004. WCICA 2004. Fifth World Congress on
Print_ISBN :
0-7803-8273-0
DOI :
10.1109/WCICA.2004.1340709
