Title :
Power system state estimation: methods, Implementation and evaluation
Author :
Kazempour, F. ; Poshtkouhi, Shahab
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Toronto, Toronto, ON, Canada
fDate :
April 29 2012-May 2 2012
Abstract :
This paper introduces and analyzes different methods used to solve the problem of state estimation in nonlinear power systems. The classic Newton, Quasi-Newton, Sequential Quadratic Programming (SQP) and Linear Programming (LP) based methods are discussed and implemented to attack the problem. These various techniques have been compared for their computation effort, accuracy and robustness based on the simulation results for a 6-bus power system. Two full sets of erred data with different variances are generated to provide the basis for this comparison. The linear programming method minimizes the norm-1 objective function and has the advantage of rejecting bad measurements or topological errors. The SQP method is an effective method to solve the problem if the estimation is required to satisfy further equality and inequality constraints.
Keywords :
Newton method; linear programming; power system state estimation; quadratic programming; 6-bus power system; LP method; SQP method; equality constraints; inequality constraints; linear programming method; nonlinear power systems; norm-1 objective function; power system state estimation; quasi-Newton based methods; sequential quadratic programming; Linear programming; Newton method; Power measurement; Power systems; Robustness; State estimation; Voltage measurement; Newton methods; linear programming; nonlinear programming; power systems; state estimation;
Conference_Titel :
Electrical & Computer Engineering (CCECE), 2012 25th IEEE Canadian Conference on
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4673-1431-2
Electronic_ISBN :
0840-7789
DOI :
10.1109/CCECE.2012.6334858
