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Adaptive neural network control of robot manipulators in task space

Shuzhi Sam Ge, C.C. Hang, L.C. Woon

Year
1997
Citations
188

Abstract

In this paper, the adaptive neural network control of robot manipulators in the task space is considered. The controller is developed based on a neural network modeling technique which neither requires the evaluation of inverse dynamical model nor the time-consuming training process. It is shown that, if Gaussian radial basis function networks are used, uniformly stable adaptation is assured and asymptotically tracking is achieved. The controller thus obtained does not require the inverse of the Jacobian matrix. In addition, robust control can be easily incorporated to suppress the neural network modeling errors and the bounded disturbances. Numerical simulations are provided to show the effectiveness of the approach.

Keywords

Jacobian matrix and determinantControl theory (sociology)Artificial neural networkAdaptive controlComputer scienceController (irrigation)Bounded functionControl engineeringArtificial intelligenceMathematics

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