A Stackelberg-game approach for tracking problems of flexible robots

Author

Jank, G. ; Kremer, D. ; Kun, G. ; Polzer, J. ; Scholt, T.

Author_Institution

Lehrstuhl II fur Math., RWTH Aachen, Aachen, Germany

fYear

2001

fDate

4-7 Sept. 2001

Firstpage

214

Lastpage

219

Abstract

We give a tracking algorithm for flexible robots, which is based on Stackelberg equilibria of linear quadratic differential games. For the modelling of the plant we take the Hamiltionian approach to describe the motion of the undamped system. The Hamiltonian energy-functional will be treated as “cost” for one of the players, whereas the other player receives higher costs if the elastic beam does not exactly follow the pre-described trajectory. The aim, that each player tries to find a control strategy, that minimizes costs leads to a noncooperative differential game. As it will be discussed, a Stackelberg equilibrium yields the desired optimal control function. The calculated results will be verified and compared to experimental results.

Keywords

damping; differential games; end effectors; flexible manipulators; motion control; optimal control; Hamiltionian approach; Hamiltonian energy-functional; Stackelberg equilibria; Stackelberg-game approach; elastic beam; flexible robot tracking problems; linear quadratic differential games; noncooperative differential game; optimal control function; undamped system; Damping; Pistons; Robots; Trajectory; Vibrations; Control of Complex Systems; Flexible Robots; Optimal Control; Robot Motion Control;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (ECC), 2001 European

Conference_Location

Porto

Print_ISBN

978-3-9524173-6-2

Type

conf

Filename

7075908