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MANIPULATION

Intelligent robot deburring using adaptive fuzzy hybrid position/force control

Feng-Yi Hsu, Li‐Chen Fu

Year
2000
Citations
104

Abstract

The overwhelming complexity of the deburring process and imprecise knowledge about robot manipulators leads to a certain control problem. In the paper, a new design of hybrid position/force control of robot manipulators via an adaptive fuzzy control approach is proposed to solve these problems. The control architecture consists of an outer-loop command generator which can automatically determine the robot motion profile to yield the desired chamfering force and an inner-loop adaptive fuzzy hybrid position/force controller which can achieve the desired chamfer depth compliantly as well as the aforementioned command in real time. The proposed adaptive fuzzy controller using B-spline type membership functions can compensate the uncertainties in a much smoother and locally weighted manner and consequently guarantee global stability of closed-loop systems. To demonstrate the effectiveness of the developed work, it is applied to the control of an industrial robot arm for deburring tasks.

Keywords

Control theory (sociology)Controller (irrigation)Fuzzy control systemControl engineeringFuzzy logicRobotComputer scienceAdaptive controlEngineeringArtificial intelligence

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