Title :
Constrained neural network-based identification of harmonic sources
Author :
Hartana, Rutisurhata K. ; Richards, Gill G.
Author_Institution :
Dept. of Electr. & Comput. Eng., Louisiana State Univ., Baton Rouge, LA, USA
Abstract :
Constrained neural nets are used to identify the location and magnitude of harmonic sources in power systems with nonlinear loads, in situations where sufficient direct measurement data are not available. This approach permits measurement of harmonics with relatively few permanent harmonic measuring instruments. A simulated power distribution system is used to show that neural nets can be trained to use available measurements to estimate harmonic sources. These estimates are constrained to conform to the available direct harmonic measurements, which improve their accuracy. Suspected harmonic sources can be identified and measured by a process of hypothesis testing
Keywords :
distribution networks; neural nets; pattern recognition; power engineering computing; power system harmonics; power system measurement; constrained neural nets; harmonic measuring instruments; harmonic sources; harmonics identification; hypothesis testing; neural net training; nonlinear loads; power distribution system; power systems; Computer networks; Distortion measurement; Instruments; Monitoring; Neural networks; Power distribution; Power measurement; Power system harmonics; Power system measurements; Power system simulation;
Journal_Title :
Industry Applications, IEEE Transactions on
