Title :
Achievable H∞ disturbance attenuation for mechanical systems
Author :
Herzog, Raoul ; Bleuler, Hannes
Author_Institution :
MECOS Traxler AG, Winterthur, Switzerland
Abstract :
The problem of achieving high mechanical stiffness in an active controlled flexible structure is investigated. A wideband disturbance force is assumed to act at the effector (e.g., a cutting tool of an electromagnetically borne spindle). Explicit and quite general limits on the best possible achievable performance are found. Mechanical (or any other) systems can be divided in two basic categories. Either arbitrarily low compliance can be achieved at the cost of high controller gain or there exists a nontrivial bound on the disturbance rejection. The tradeoffs are computed explicitly for some simple systems using H∞ techniques. They enable one to assess a given simple controller, as it can be estimated how close such a controller is to the theoretical optimum
Keywords :
mechanical engineering; optimal control; H∞ disturbance attenuation; active controlled flexible structure; mechanical stiffness; mechanical systems; nontrivial bound; optimal control; wideband disturbance force; Actuators; Attenuation; Control design; Control systems; Cutting tools; Force measurement; H infinity control; Magnetic levitation; Mechanical systems; Milling;
Conference_Titel :
Systems Engineering, 1992., IEEE International Conference on
Conference_Location :
Kobe
Print_ISBN :
0-7803-0734-8
DOI :
10.1109/ICSYSE.1992.236855
