TY - CONF CY - Langkawi AV - none N1 - cited By 9; Conference of 2013 IEEE Conference on Clean Energy and Technology, CEAT 2013 ; Conference Date: 18 November 2013 Through 20 November 2013; Conference Code:104516 N2 - For the development of speed and/or torque control, this study represents the technique for the control of induction motor (IM) drive which is indirect field-oriented control. The Fuzzy-PI and Conventional-PI controller have been studied in a closed-loop speed control. By separating the current produced by the stator into flux producing (d-q) and the torque currents' profile of an IM have been convoluted in the indirect field-oriented control. Via an intelligence-based Fuzzy-PI controller, the components of the current (Iqs and Ids,) have been established for an IM. By considering the behavior of the Fuzzy Logic Controller (FLC), the speedy responses, torque and stator currents have been observed and used later for comparison with the PI-Controller. By employing MATLAB/Simulink, the simulation has been executed for the purpose of determining the performance of the controller. It was found out from the results that the results shown by the Fuzzy-PI controller were more reliable and accurate than the PI-controller. © 2013 IEEE. KW - Electric drives; Fuzzy logic; Induction motors; Speed control; Stators; Water craft KW - Conventional-PI controller; Fuzzy logic controllers; Fuzzy-PI controllers; Indirect field oriented control; Induction motor drive; MATLAB /simulink; Speed controller; Stator currents KW - Controllers SP - 327 ID - scholars3843 TI - An intelligent speed controller for indirect field-oriented controlled induction motor drives Y1 - 2013/// PB - IEEE Computer Society UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84898782775&doi=10.1109%2fCEAT.2013.6775650&partnerID=40&md5=021481d0e51f81267df3fe0237fbb410 A1 - Magzoub, M.A. A1 - Saad, N.B. A1 - Ibrahim, R.B. EP - 331 ER -