Title :
Optimal metering systems for monitoring power networks under multiple topological scenarios
Author :
De Souza, Julio Cesar Stacchini ; Filho, Milton Brown Do Coutto ; Schilling, Marcus Th ; de Capdeville, Charles
Author_Institution :
Dept. of Electr. Eng., Fluminense Fed. Univ., Rio de Janeiro, Brazil
Abstract :
This work presents a methodology for designing optimal metering systems for real-time power system monitoring, taking into account different topologies that the network may experiment. Genetic algorithms are employed to achieve a trade-off between investment costs and reliability of the state estimation process under many different topology scenarios. This is done by formulating a fitness function where the cost of the metering system is minimized, while no critical measurements and/or critical sets are allowed in the optimal solution. An efficient algorithm for the identification of critical measurements and sets (irrespective of state estimation runs) is employed during the evaluation of the fitness function. Simulation results illustrate the performance of the proposed method.
Keywords :
cost reduction; genetic algorithms; investment; power distribution reliability; power system measurement; power system simulation; power system state estimation; power transmission reliability; real-time systems; cost reduction; genetic algorithms; investment; multiple topological scenarios; optimal metering system; optimization; power networks; power system monitoring; real-time power system; reliability; state estimation; trade-off; Costs; Investments; Monitoring; Network topology; Observability; Power system planning; Power system reliability; Power system security; Power system simulation; Redundancy; Genetic algorithms (GAs); optimization; power system monitoring;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2005.857941
