Title :
A novel software implementation concept for power quality study
Author :
Kezunovic, Mladen ; Liao, Yuan
Author_Institution :
Dept. of Electr. Eng., Texas A&M Univ., College Station, TX, USA
fDate :
4/1/2002 12:00:00 AM
Abstract :
A novel concept for power quality study is proposed. The concept integrates the power system modeling, classifying and characterizing of power quality events, studying equipment sensitivity to the event disturbance, and locating point of event occurrence into one unified frame. Both Fourier and wavelet analyzes are applied far extracting distinct features of various types of events as well as for characterizing the events. A new fuzzy expert system for classifying power quality events based on such features is presented with improved performance over previous neural network based methods. A novel simulation method is outlined for evaluating the operating characteristics of the equipment during specific events. A software prototype implementing the concept has been developed in MATLAB. The voltage sag event is taken as an example for illustrating the analysis methods and software implementation issues. It is concluded that the proposed approach is feasible and promising for real world applications
Keywords :
Fourier analysis; digital simulation; expert systems; fuzzy systems; pattern classification; power supply quality; power system simulation; signal processing; wavelet transforms; MATLAB; equipment sensitivity; event disturbance; event occurrence point location; fuzzy expert system; pattern classification; power quality events; power quality study; power system modeling; signal processing; software implementation; voltage sag event; wavelet transforms; Discrete event simulation; Feature extraction; Hybrid intelligent systems; Neural networks; Power quality; Power system modeling; Software prototyping; Software quality; Voltage fluctuations; Wavelet analysis;
Journal_Title :
Power Delivery, IEEE Transactions on
