Dynamically optimal polynomial splines for flexible servo-systems: Experimental results

Author

Caigny, Jan De ; Demeulenaere, Bram ; Schutter, Joris De ; Swevers, Jan

Author_Institution

Mech. Eng. Dept., Katholieke Univ. Leuven, Leuven

fYear

2008

fDate

26-28 March 2008

Firstpage

98

Lastpage

103

Abstract

This work considers the design of point-to-point input trajectories that result in minimal residual vibration of flexible motion systems. The design is based on a recently developed optimization framework for polynomial spline design. This framework is based on linear programming and automatically selects the optimal number and location of the spline knots, while also allowing the designer to consider input constraints and robustness against parametric uncertainty and unmodeled dynamics. Simulation and experimental results are presented for a two-degree-of-freedom (2-DOF) test setup and compared to two literature benchmark methods.

Keywords

control system synthesis; flexible structures; linear programming; machine control; motion control; position control; robust control; servomotors; splines (mathematics); uncertain systems; vibration control; dynamically optimal polynomial splines; flexible motion systems; flexible servo-systems; linear programming; parametric uncertainty; residual vibration; Design methodology; Design optimization; Dynamic programming; Filters; Linear programming; Polynomials; Robustness; Tellurium; Testing; Uncertainty;

fLanguage

English

Publisher

ieee

Conference_Titel

Advanced Motion Control, 2008. AMC '08. 10th IEEE International Workshop on

Conference_Location

Trento

Print_ISBN

978-1-4244-1702-5

Electronic_ISBN

978-1-4244-1703-2

Type

conf

DOI

10.1109/AMC.2008.4516048

Filename

4516048