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Precision position control of servo systems using adaptive back-stepping and recurrent fuzzy neural networks
Han Me Kim/Seong Ik Han/Jong Shik Kim
The Journal of Mechanical Science and Technology, vol. 23, no. 11, pp.3059-3070, 2009
Abstract : To improve position tracking performance of servo systems, a position tracking control using adaptive back-stepping
control(ABSC) scheme and recurrent fuzzy neural networks(RFNN) is proposed. An adaptive rule of the ABSC based
on system dynamics and dynamic friction model is also suggested to compensate nonlinear dynamic friction characteristics.
However, it is difficult to reduce the position tracking error of servo systems by using only the ABSC scheme
because of the system uncertainties which cannot be exactly identified during the modeling of servo systems. Therefore,
in order to overcome system uncertainties and then to improve position tracking performance of servo systems, the
RFNN technique is additionally applied to the servo system. The feasibility of the proposed control scheme for a servo
system is validated through experiments. Experimental results show that the servo system with ABS controller based
on the dual friction observer and RFNN including the reconstruction error estimator can achieve desired tracking performance
and robustness.
Keyword : LuGre model; Adaptive back-stepping; Dual friction observer; Recurrent fuzzy neural networks |
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