Ö. A. TEKİN (2007). Implementation of real-time fuzzy controllers. M.S. thesis, Dept. Electron. Eng., İstanbul Teknik Univ., İstanbul, Turkey.
A. L. Zadeh (1965). Fuzzy sets information and control. World Scientific Publishing, New York. Pages. 339–353.
R. Krishanan (2011). Switched reluctance motor drives: Modeling Simulation, Analysis, Design and Applications. ,CRC Press.
O. F. Bay and C. Elmas (2013). Modeling of the inductance variation and control of the switched reluctance motor based on fuzzy logic. Intelligent Automation and Soft Computing, vol. 10, Pages. 233–246.
Ç. Elmas, M. A. Akcayol and T. Yiğit (2007). Fuzzy PI controller for speed control of switched reluctance motor. J. Fac. Eng. Arch. Gazi Univ., Vol. 22. Pages. 65–72.
E. Karakas and S. Vardarbasi (2007). Speed control of SR motor by self-tuning fuzzy PI controller with artificial neural network. Sadhana, Vol. 32. Pages. 587–596.
S. Paramasivam and R. Arumugam (2005). Hybrid fuzzy controller for speed control of switched reluctance motor drives. Energy Conversion and Management. Vol. 46. Pages. 1365–1378.
M. A. Akcayol and C. Elmas (2005). NEFCLASS-based neuro-fuzzy controller for SRM drive. Engineering Applications of Artificial Intelligence. Vol. 18. Pages. 595–602.
B. M. Dehkordi, A. Passapoor, M. Moallem and C. Lucas (2011). Sensorless speed control of switched reluctance motor using brain emotional learning-based intelligent controller. Energy Conversion and Management. Vol. 52. Pages. 85–96.
E. Daryabeigi and B. M. Dehkordi (2014). Smart bacterial foraging algorithm based controller for speed control of switched reluctance motor drives. International Journal of Electrical Power & Energy Systems, vol. 62, pp. 364–373, 2014.
M. J.Er, M. T. Lim and H. S. Lim (2001). Real-time hybrid adaptive fuzzy control of an SCARA robot. Microprocessor sand Microsystems. Vol. 25. Pages. 369–378.
H. Açıkgöz, Ö.F. Keçecioğlu, A. Gani and M. Şekkeli (2014). Speed control of direct torque controlled induction motor by using PI, anti-windup PI and fuzzy logic controller. International Journal of Intelligent Systems and Applications in Engineering. Vol. 2. Pages. 58-63.
H.R. Jayetileke,W.R. de Meland H.U.W. Ratnayake (2014). Real-time fuzzy logic speed tracking controller for a DC motor using Arduino Due. In Conf. Rec. 2014 IEEE Int. Conf. Information and Automation for Sustainability. Pages. 22–24.
P. Bhatkhande and T. C. Havensand (2014). Real-Time Fuzzy Controller For Quadrotor Stability Control. In Conf. Rec. 2014 IEEE Int. Conf.on Fuzzy Systems. Pages. 913–919.
S. Paramasivam and R. Arumugam (2005). Real-time DSP-based adaptive controller implementation for 6/4 pole switched reluctance motor drive. Songklanakarin J.Sci. Technol. Vol. 27. Pages. 523–534.
E. A. E. M. Ramadan, M. El-Bardini, N. M. El-Rabaie and M. A. Fkirin (2014). Embedded system based on a real-time fuzzy motor speed controller. Ain Shams Engineering journal. Vol. 5. Pages. 399–409.
M. A. Akçayol (2004). Application of adaptive neuro-fuzzy controller for SRM. Advances in Engineering Software. Vol. 35. Pages. 129–137.
I. Koyuncu (2016). Design and implementation of high speed artificial neural network based Sprott 94 S system on FPGA. International Journal of Intelligent Systems and Applications in Engineering. Vol.4. Pages. 33-39.
D. S. Reay (2014). Hands-on real-timed teaching using inexpensive arm cortex m4 development systems. In Conf. Rec. 2014 IEEE Int. Conf.on Acoustic, Speech and Signal Processing, Pages. 2224–2227.
İ. İlhan (2016). Solution for the travelling salesman problem with a microcontroller-based instantaneous system. International Journal of Intelligent Systems and Applications in Engineering. Vol.4. Pages. 122-127.
T. J. E. Miller, J. M. Stephenson, S. R. Macminn and J.R. Handersot (2004). Switched reluctance drives. IEEE Industry Applications Society. Tutorial Course.
E. Soylu and R. Bayir (2016). Measurement of Electrical Conditions of Rechargeable Batteries. Meas. Control. Vol. 49. Pages. 72–81.
C. C. Lee (1990). Fuzzy logic in control systems: Fuzzy logic controller, Part II. IEEE Transactions on systems, Manan F cybernetics. Vol.20. Pages. 419–435.