Title :
Reactive Power Optimization Based on SA-NLWPSO Algorithm
Author :
Suang-Ye, Chen ; Lei, Ren
Author_Institution :
Electron. Inf. & Control Eng. Inst., Beijing Univ. of Technol., Beijing, China
Abstract :
Particle swarm optimization algorithm was applied to reduce power loss and to prevent the decline of the power supply quality caused by the imbalance of reactive power, but reactive power optimization is a mixed non-linear programming problem with lots of variables and uncertain parameters, PSO algorithm also has some limitations such as premature convergence, which causes the bad accuracy of convergence. And then the coevolution of Particle Swarm Optimization (PSO) with nonlinear inertia weight factor (w) and Simulated Annealing algorithm (SA) is established to improve the original algorithm which is named as SA-NLWPSO. Compared with the algorithms such as PSO, SA-PSO and SA-WPSO, SA-NLWPSO is better for global convergence and higher accuracy of reactive power optimization by using IEEE-10 bus system as a model for the simulation.
Keywords :
nonlinear programming; particle swarm optimisation; power supply quality; reactive power; simulated annealing; IEEE-10 bus system; PSO algorithm; SA-NLWPSO algorithm; nonlinear inertia weight factor; nonlinear programming problem; particle swarm optimization algorithm; power loss; power supply quality; premature convergence; reactive power imbalance; reactive power optimization; simulated annealing algorithm; Convergence; Heuristic algorithms; Particle swarm optimization; Reactive power; Simulated annealing; Inertia Weight; SA-NLWPSO; power loss; reactive power optimization;
Conference_Titel :
Intelligent Human-Machine Systems and Cybernetics (IHMSC), 2012 4th International Conference on
Conference_Location :
Nanchang, Jiangxi
Print_ISBN :
978-1-4673-1902-7
DOI :
10.1109/IHMSC.2012.31
