Open AccessDesign and Implementation of a Fuzzy Controller for Small Rotation Angles
Author(s) -
Mohammed A. Hussein
Publication year - 2011
Publication title -
iraqi journal for electrical and electronic engineering
Language(s) - English
Resource type - Journals
eISSN - 2078-6069
pISSN - 1814-5892
DOI - 10.37917/ijeee.7.1.4
Subject(s) - overshoot (microwave communication) , settling time , control theory (sociology) , fuzzy logic , controller (irrigation) , computer science , rotation (mathematics) , position (finance) , supervisor , fuzzy control system , voice coil , control engineering , step response , engineering , electromagnetic coil , artificial intelligence , control (management) , electrical engineering , telecommunications , agronomy , finance , biology , law , political science , economics
This paper present an adaptation mechanism for fuzzy logic controller FLC in order to perfect the response performance against small rotation angles of real D.C. motor with unknown parameters. A supervisor fuzzy controller SFC is designed to continuously adjust, on-line, the universe of discourse UOD of the basic fuzzy controller BFC input variables based on position error and change of position error. Performance of the proposed adaptive fuzzy controller is compared with corresponding conventional FLC in terms of several performance measures such rise time, settling time, peak overshoot, and steady state error. The system design and implementation are carried out using LabVIEW 2009 with NI PCI-6251 data acquisition DAQ card. The practical results demonstrate using self tuning FLC scheme grant a better performance as compared with conventional FLC which is incapable of rotating a motor if the rotation angle is being small.
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