LPV gray box identification of industrial robots for control

Author

Knoblach, Andreas ; Saupe, Florian

fYear

2012

fDate

3-5 Oct. 2012

Firstpage

831

Lastpage

836

Abstract

This paper treats the linear parameter-varying (LPV) model identification of an industrial robot. Since the model is supposed to be used to design an LPV controller, it must simultaneously feature low complexity and adequate accuracy. As for most systems, a simplified analytical model structure can be derived for the robot based on the laws of physics. Some physical model parameters however must be experimentally determined. Due to the model simplifications, these physical parameters vary over the workspace. In order to capture this variation in an LPV model, the physical parameters are scheduled. Based on an understanding of the system, three different scheduling laws are designed and the resulting LPV models are compared to experimentally determined frequency response functions.

Keywords

control system synthesis; frequency response; identification; industrial robots; linear systems; LPV controller design; LPV gray box identification; frequency response functions; industrial robots; laws-of-physics; linear parameter-varying model identification; scheduling laws; Analytical models; Gears; Job shop scheduling; Mathematical model; Service robots; Solid modeling;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Applications (CCA), 2012 IEEE International Conference on

Conference_Location

Dubrovnik

ISSN

1085-1992

Print_ISBN

978-1-4673-4503-3

Electronic_ISBN

1085-1992

Type

conf

DOI

10.1109/CCA.2012.6402440

Filename

6402440