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

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

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 s...

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Bibliographic Details
Published in:2008 10th IEEE International Workshop on Advanced Motion Control pp. 98 - 103
Main Authors: De Caigny, Jan, Demeulenaere, Bram, De Schutter, Joris, Swevers, Jan
Format: Conference Proceeding
Language:English
Published: IEEE 01-03-2008
Subjects:
Design methodology
Design optimization
Dynamic programming
Filters
Linear programming
Polynomials
Robustness
Tellurium
Testing
Uncertainty
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Description
Summary: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.
ISBN:1424417023
9781424417025
ISSN:1943-6572
1943-6580
DOI:10.1109/AMC.2008.4516048