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Adaptive fuzzy neural control of multiple-link robot manipulators

Yang Gao, M.H. Er

发表年份
2001
引用次数
4

摘要

This article presents the design, development, and implementation of a new adaptive fuzzy neural controller (AFNC) suitable for real-time industrial applications. The developed AFNC consists of a combination of a fuzzy neural network (FNN) controller and a supervisory PD controller. The salient features of the AFNC are: (1) dynamic fuzzy neural structure, that is, fuzzy control rules can be generated or deleted automatically; (2) fast on-line learning ability; (3) fast convergence of tracking error; (4) adaptive control; and (5) robust control, where global stability of the system is established using Lyapunov approach. Experimental evaluation conducted on a SEIKO TT-3000 SCARA robot demonstrates that excellent tracking performance can be achieved under time-varying conditions. The proposed controller also outperforms some of the existing adaptive fuzzy and neural controllers in terms of tracking speed and accuracy.

关键词

SCARAControl theory (sociology)Controller (irrigation)Artificial neural networkFuzzy logicComputer scienceFuzzy control systemControl engineeringAdaptive controlAdaptive neuro fuzzy inference system

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