Title :
Making Prony analysis more accurate using multiple signals
Author :
Trudnowski, D.J. ; Johnson, J.M. ; Hauer, J.F.
Author_Institution :
Montana Tech., Montana Univ., Butte, MT, USA
fDate :
2/1/1999 12:00:00 AM
Abstract :
Prony analysis has proven to be a valuable tool in estimating the modal content of power oscillations from measured ringdowns. The accuracy of the mode estimates is limited by the noise content always found in field measured signals. Current Prony analysis methods assume the system to be single output, and individual signals are analyzed independently often resulting in conflicting frequency and damping estimates (due to noise effects). This paper considers a simple extension to Prony analysis that allows multiple signals to be analyzed simultaneously resulting in one set of mode estimates. Examples are used to show that this extension improves the accuracy of modal estimates and simplifies the analysis steps. The first example uses a Monte Carlo type simulation model and the second analyzes field measured data from the western North American power system
Keywords :
Monte Carlo methods; damping; oscillations; power system stability; Monte Carlo type simulation model; Prony analysis; damping; field measured data analysis; field measured signals; measured ringdowns; multiple signals; noise content; power oscillations; power systems; western North American power system; Analytical models; Damping; Data analysis; Frequency estimation; Monte Carlo methods; Noise measurement; Power measurement; Power system modeling; Power system simulation; Signal analysis;
Journal_Title :
Power Systems, IEEE Transactions on
