%0 Journal Article
%T Stabilization of an inverted pendulum system via an SIRM neuro-fuzzy controller
%A Khwanon
%A S.
%A Kulworawanichpong
%A T.
%A Sujitjorn
%A S.
%J Songklanakarin Journal of Science and Technology
%D 2005
%I Songkla University
%X This article presents a new neuro-fuzzy controller to stabilize an inverted pendulum system. The proposed controller consists of the Single Input Rule Modules (SIRMs), the artificial neural network (ANN) and the dynamic importance degrees (DIDs). It simultaneously controls both the angle of the pendulum and the position of the cart. The learning of the ANN results in the DIDs. The proposed controller has a simple structure that can decrease the number of fuzzy rules. The simulation results show that the proposed neurofuzzy controller has an ability to stabilize a wide range of the inverted pendulum system within a short periodof time. Moreover, the comparisons of the simulation results between the proposed neuro-fuzzy controller and the SIRMs fuzzy controller are revealed in this article.
%K Single Input Rule Module (SIRM)
%K Dynamic Importance Degree (DID)
%K Artificial Neural Network (ANN)
%K Fuzzy Logic
%U http://www.sjst.psu.ac.th/journal/27-1-pdf/11neuro-fuzzy.pdf