Title :
Multi-stage Fuzzy PID Load Frequency Control via SPHBMO in deregulated environment
Author :
Abedinia, O. ; Amjady, Nima ; Naderi, M.S.
Author_Institution :
Electr. Eng. Dept., Semnan Univ., Semnan, Iran
Abstract :
A Strength Pareto Honey Bee Mating Optimization (SPHBMO) based Multi-stage Fuzzy (MSF) PID controller is proposed in this paper to solve the Load Frequency Control (LFC) problem in a deregulated environment. The power system LFC problems are caused by small load perturbations which continuously disturb the normal operation of power system. The objectives of LFC are to minimize the transient deviations in theses variables (area frequency and tie-line power interchange) and to ensure their steady state errors to be zeros. The results of the proposed controller are compared with the classical fuzzy PID type and MSF PID controller optimized by Modified Genetic Algorithm (MGA) through ITAE and FD performance indices.
Keywords :
Pareto optimisation; fuzzy control; load regulation; three-term control; SPHBMO; area frequency; classical fuzzy PID type; deregulated environment; load frequency control problem; modified genetic algorithm; multistage fuzzy PID controller; multistage fuzzy PID load frequency control; power system LFC problems; small load perturbations; steady state errors; strength Pareto honey bee mating optimization; tie-line power interchange; transient deviations; Contracts; Electrical engineering; Frequency control; Genetic algorithms; Optimization; Power systems; Vectors; Deregulated enviroment; LFC; Multi-stage PID; SPHBMO;
Conference_Titel :
Environment and Electrical Engineering (EEEIC), 2012 11th International Conference on
Conference_Location :
Venice
Print_ISBN :
978-1-4577-1830-4
DOI :
10.1109/EEEIC.2012.6221424
