The extended pole placement (EPP) method extends the well-known pole placement method to digital servo-control with known control inputs. A servo-control system designed using the EPP method achieves an accurate command response through the use of a noncausal reference model and an accurate approximation of nonminimum-phase zeros. The phase error of the command response between the desired output and the actual output may be made arbitrarily small, while its gain extends uniformly to a selectable bandwidth. A selectable feedforward bandwidth is important in controlling flexible structures where unmodeled resonances might be excited by rough feedforward inputs. Experimental results on a machine tool slide show that a controller designed by the EPP method yields better servo performance for cornering and contour tracking tasks than an E-filter-enhanced zero phase error tracking controller.
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December 1995
Technical Briefs
Extended Pole Placement Method With Noncausal Reference Model for Digital Servo-Control
Chwan-Hsen Chen,
Chwan-Hsen Chen
Mechanical Engineering Department, Yuan-Ze Inst. of Technology, Taiwan, China
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Hendrik Van Brussel,
Hendrik Van Brussel
Department of Mechanical Engineering, Katholieke Universiteit Leuven, B 3001 Heverlee, Belgium
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Jan Swevers
Jan Swevers
N.F.W.O. (Belgian National Fund for Scientific Research)
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Chwan-Hsen Chen
Mechanical Engineering Department, Yuan-Ze Inst. of Technology, Taiwan, China
Hendrik Van Brussel
Department of Mechanical Engineering, Katholieke Universiteit Leuven, B 3001 Heverlee, Belgium
Jan Swevers
N.F.W.O. (Belgian National Fund for Scientific Research)
J. Dyn. Sys., Meas., Control. Dec 1995, 117(4): 641-644 (4 pages)
Published Online: December 1, 1995
Article history
Received:
October 13, 1992
Revised:
August 12, 1994
Online:
December 3, 2007
Citation
Chen, C., Van Brussel, H., and Swevers, J. (December 1, 1995). "Extended Pole Placement Method With Noncausal Reference Model for Digital Servo-Control." ASME. J. Dyn. Sys., Meas., Control. December 1995; 117(4): 641–644. https://doi.org/10.1115/1.2801127
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