Speed control of dc motor using Self-tuned fuzzy PID controller

Faisal, Fahim; Rahman, Mahdi; Hashem, Fahad Bin

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dc.contributor.author	Faisal, Fahim
dc.contributor.author	Rahman, Mahdi
dc.contributor.author	Hashem, Fahad Bin
dc.date.accessioned	2022-04-26T04:17:35Z
dc.date.available	2022-04-26T04:17:35Z
dc.date.issued	2015-11-30
dc.identifier.citation	1. Seda Aydemir, Serkan Sezen, H.Metin Ertunc, “Fuzzy Logic Speed Control of a DC Motor”, Kocaeli University Izniit, Kocaeli, Turkey. 2. Umesh Kumar Bansal and Rakesh Narvey, “Speed Control of DC Motor using Fuzzy PID Controller”, Advance in Electronic and Electric Engineering. ISSN 2231-1297, Volume 3, Number 9 (2013), pp. 1209-1220. 3. Khoei, A.. Hadidi, Kh., Microprocessor Based Closed-Loop Speed Control Systeni For DC Motor Using Power Mosfet. Electronics Circuits and Systems IEEE International Conference ICECS’96, Vol. 2, 1247-1250, 1996. 4. O. Imoru, J. Tsado. “Modeling of an Electronically Commutated (Brushless DC) Motor Drives with Back-EMF Sensing”, Proceedings of the IEEE International Conference on Machine Design, China, pp 828-831, June 2012. 5. Md Mustafa kamal, Dr.(Mrs.)Lini Mathew, Dr. S. Chatterji, “Speed Control of Brushless DC Motor Using Fuzzy Based Controllers”, 2014 IEEE Students’ Conference on Electrical, Electronics and Computer Science. 6. www.facstaff.bucknell.edu/mastascu/econtrolhtml/pid/pid3.html 7. radio.feld.cvut.cz/matlab/toolbox/fuzzy/fuzzyin2.html 8. Mohan, Undeland, Robbins, “Power Electronics” (John Wiley & Sons) pp. 379- 384. 9. Bennett, Stuart (1993), “A History of Control Engineering”, 1930-1955. IET. pp. 48. 10. Ang, K.H., Chong, G.C.Y., and Li, Y. (2005), ”PID Control System Analysis, Design and Technology”, IEEE Trans Control Systems Tech, 13(4), pp.559- 576. 11. www.wikipedia.org/wiki/PID_controller 12. Jinghua Zhong (Spring 2006). "PID Controller Tuning: A Short Tutorial". 13. Prahlad Kumar Sahoo, “ Speed Control of Separately Excited DC Motor using Self Tuned Fuzzy PID Controller”, 2010-2011 Department of Electrical Engineering, National Institute of Technology Rourkela. 14. L.A. Zadeh, ”Making computers think like people,” IEEE. Spectrum, 8/1984, pp. 26-32. 15. L.A. Zadeh, Fuzzy Sets, Information and Control, 1965. SPEED CONTROL OF DC MOTOR USING SELF-TUNED FUZZY PID CONTROLLER 66 16. L.A. Zadeh, Outline of A New Approach to the Analysis of of Complex Systems and Decision, Processes, 1973. 17. L.A. Zadeh, ”Fuzzy algorithms,” Info. & Ctl., Vol. 12, 1968, pp. 94-102. 18. M. Hellmann, “Fuzzy Logic Introduction”, Laboratoire Antennes Radar Telecom, F.R.E CNRS 2272, Equipe Radar Polarimetrie, Universit´e de Rennes, France. 19. L.A. Zadeh, Fuzzy Sets, Information and Control, 1965. 20. www.bindichen.co.uk/post/AI/fuzzy-inference-membership-function.html 21. Seda Aydemir, Serkan Sezen, H.Metin Ertunc, “Fuzzy Logic Speed Control of a DC Motor”, Kocaeli University Izniit, Kocaeli, Turkey. 22. Maher M.F. Algreer and Yhya R. M. Kuraz, “Design Fuzzy Self Tuning of PID Controller for Chopper-Fed DC Motor drive.” 23. Nur Azliza Ali, “Fuzzy Logic Controller for Controlling DC Motor Speed using MATLAB Applications”. 24. Manafeddin Namazov and Onur Basturk, “DC Motor Position Control using Fuzzy Proportional-Derivative Controllers with Different Defuzzification Methods”, Turkish Journal of Fuzzy Systems (eISSN: 1309–1190), Vol.1, No.1, pp. 36-54, 2010 25. Wang Xiao-kan, Sun Zhong-liang, Wanglei, Feng Dong-qing, "Design and Research Based on Fuzzy PID-Parameters Self-Tuning Controller with MATLAB," Advanced Computer Theory and Engineering, International Conference on, pp. 996-999, 2008 International Conference on Advanced Computer Theory and Engineering, 2008. 26. M. Chow and A. Menozzi ,”On the Comparison of Emerging and Conventional Techniques for DC Motor Control” proc.IECON, pp.1008-1013, 1992. 27. Norman S Nise, “Control System Engineering”, sixth edition (John Wiley & Sons) pp. 179	en_US
dc.identifier.uri	http://hdl.handle.net/123456789/1417
dc.description	Supervised by Prof. Dr. Md. Ashraful Hoque, Department of Electrical and Electronic Engineering Islamic University of Technology (IUT), Organisation of Islamic Cooperation (OIC), Dhaka, Bangladesh.	en_US
dc.description.abstract	This thesis work describes how the speed of a DC motor can be controlled by a selftuned fuzzy controller. The speed of a DC motor depends on armature voltage, field current and the torque demand. In this thesis, the armature voltage is changed in order to have the required speed output. The armature voltage is firstly controlled by a simple proportional (P) controller and then controlled by a proportional-integral-derivative (PID) controller and finally the values of the proportional, integral and derivative constants are controlled and tuned by a fuzzy logic controller (FLC), hence the name Self-tuned fuzzy PID controller. There are two inputs to the FLC. One input is the difference between the reference speed (the desired speed) and the actual speed available as the output. This difference is known as the speed error (e). The other input is the rate of change of this speed error (de). Both of these are crisp (binary valued) sets. The FLC takes these two crisp sets, convert them into two separate fuzzy sets, takes decision based on a fuzzy inference system comprising of 25 rules in case of our model, then defuzzify the result into three crisp sets of the proportional gain (Kp), integral gain (Ki) and derivative gain (Kd). Basically the PID controller alone can control the speed of the motor, which is first shown in the paper. However, it is difficult to fathom the values of the parameters of the PID controller (Kp, Ki, Kd) that would give the best output (i.e., an output that has small rise time, settling time and fall time, small overshoot, and small or no steady state error). It is not practically feasible to make a trial and error analysis to figure out the values and the calculations regarding the computations of the accurate values can be quite complex, time consuming and not suitable at all in a practical application where a wide range of motor running speed may be desired. The FLC tunes the values of PID parameters based on the fuzzy rules fed into it and gives a satisfactory as well as controlled output wave shape for wide range of motor speed variation which is shown later. All block diagrams and simulations are done utilizing MATLAB Simulink, and the Fuzzy Logic Toolbox of MATLAB is used to design our proposed model of FLC.	en_US
dc.language.iso	en	en_US
dc.publisher	Department of Electrical and Electronic Engineering, Islamic University of Technology (IUT), Board Bazar, Gazipur-1704, Bangladesh	en_US
dc.title	Speed control of dc motor using Self-tuned fuzzy PID controller	en_US
dc.type	Thesis	en_US