Sensor location effect on flexible robot control

Author

Green, A. ; Sasiadek, J.Z.

Author_Institution

Dept. of Mechanical & Aerosp. Eng., Carleton Univ., Ottawa, Ont., Canada

fYear

2004

fDate

17-20 June 2004

Firstpage

253

Lastpage

258

Abstract

The effect of sensors collocated and noncollocated with robot actuators is simulated using a control strategy for a flexible robot. A 12.6 m × 12.6 m square trajectory is tracked with a Jacobian transpose control law. Results are initially obtained for nonadaptive control then for fuzzy logic system (FLS) adaptive control. Sensors collocated with joint actuators do not capture flexure and nonminimum phase response while a noncollocated sensor captures inherent nonminimum phase response causing control action delays. Time delay in the feedback loop simulates nonminimum phase response and time delay in the feed forward control loop provides correction. Results demonstrate minimal correction of nonminimum phase response for nonadaptive control but significantly improved results with FLS adaptive control for collocated and noncollocated sensors.

Keywords

actuators; adaptive control; delays; feedback; feedforward; flexible manipulators; fuzzy control; sensor fusion; sensors; Jacobian transpose control law; feed forward control loop; feedback loop; flexible robot control; fuzzy logic system adaptive control; inherent nonminimum phase response; joint actuators; nonadaptive control; noncollocated sensor; robot actuators; sensor location effect; time delay; Actuators; Adaptive control; Control systems; Delay effects; Feedback loop; Fuzzy logic; Jacobian matrices; Robot control; Robot sensing systems; Trajectory;

fLanguage

English

Publisher

ieee

Conference_Titel

Robot Motion and Control, 2004. RoMoCo'04. Proceedings of the Fourth International Workshop on

Print_ISBN

83-7143-272-0

Type

conf

DOI

10.1109/ROMOCO.2004.240736

Filename

1359520