International Journal of Electrical Power System and Technology

Open Access  Subscription or Fee Access

In today's world there is a rapid increase and advancement in new and innovative technology, fuzzy logic is a practical approach of mathematics into the Logic of Boolean. The practical application of it can be easily seen in the field of engineering and science. In this paper we discussed and review about different applications of fuzzy logic controllers in the field of power system, power electronics and control system.

Keywords: fuzzy logic controller, power quality improvement, takagi-sugeno(TS

Akagi H., Kanazawa Y., Nabae A. Instantaneous reactive power compensators comprising switching devices without energy storage components. IEEE Trans. Ind. Appl. 1984; 20(3): 625–30p.

Peng F. Z., Akagi H., Nabae A. Study of active power filters using quad series voltage source PWM converters for harmonic compensation. IEEE Trans. Power Electron. 1990; 5(1): 9–15p.

Grady W.M., Samotyj M.J., Noyola A.H. Survey of active power line conditioning methodologies. IEEE Trans. Power Del.,1990; 5(3): 1536–42p.

Singh B., Chandra A., Al-Haddad K. Computer-aided modelling and simulation of active power filters. Elect. Mach. Power Syst. 1999; 27: 1227–41p.

Chatterjee K., Fernandes B. G., Dubey G. K. An instantaneous reactive volt-ampere compensator and harmonic suppressor system. IEEE Trans. Power Electron. 1999; 14(2): 381–92p.

Jain S., Agarwal P., Gupta H. O. Design simulation and experimental investigations on a shunt active power filter for harmonics and reactive power compensation. Elect. Power Compon. Syst., 2003; 32(7): 671–92p.

Bose B. K. Expert Systems, Fuzzy Logic and Neural Network Applications in Power Electronics and Motion Control. Piscataway, NJ: IEEE Press, 1999, ch. 11.

Raviraj V. S. C., Sen P. C. Comparative study of proportional-integral, sliding mode, and fuzzy logic controllers for power converters. IEEE Trans. Ind. Appl. 1997; 33(2): 518–24p.

Dell’Aquila A., Lecci A., Monopoli V.G. Fuzzy controlled active filter driven by an innovative current reference for cost reduction. In Proc. IEEE Int. Symp. Ind. Electron. 2002; 3: 948–52p.

Viswanathan K., Srinivasan D., Oruganti R. Design and analysis of SISO fuzzy logic controller for power electronic converters. In Proc. IEEE Int. Conf. Fuzzy Syst. 2004; 3: 1293–98p.

Jain S. K., Agrawal P., Gupta H. O. Fuzzy logic controlled shunt active power filter for power quality improvement. Proc. Inst. Elect Eng., Electr. Power Appl. 2002; 149(5).

Ying H. Constructing nonlinear variable gain controllers via the Takagi-Sugeno fuzzy control. IEEE Trans. Fuzzy Syst. 1998; 6(2): 226–35p.

Mishra S., Dash P. K., Panda G. TS-fuzzy controller for UPFC in a multi-machine power system. Proc, Inst. Elect. Eng., Gen., Transm. Distrib. 2000; 174(1): 15–22p.

Yan Z., Jiaxing Z. Application of fuzzy logic control approach in a microcontroller-based sun tracking system. WASE International Conference on Information Engineering. 2010.

Aquila A.D., Lecci A., Liserre M. Microcontroller-based fuzzy logic active filter for selective harmonic compensation.

Bhende C. N., Mishra S., Jain S. K. TS-fuzzy-controlled active power filter for load compensation. IEEE Trans. Power Delivery. 2006; 21(3).

Khorashadi-Zadeh H., Li Z., Madani V. Adaptive dependable and secure protection systems for electric power systems.