DocumentCode
1249097
Title
Instantaneous Oscillating Phasor Estimates With Taylor 
-Kalman Filters
Author
De la O Serna, José Antonio ; Rodríguez-Maldonado, Johnny
Author_Institution
State Univ. of Nuevo Leon, Monterrey, Mexico
Volume
26
Issue
4
fYear
2011
Firstpage
2336
Lastpage
2344
Abstract
The state-transition matrix of the Kth order Taylor approximation to the dynamic phasor and its first derivatives leads to a plurality of state-space representations to approach the bandpass signal model of a power oscillation. With these truncated signal models, the Kalman filter algorithm can be applied to their state vectors in order to find observers able to estimate the dynamic phasor and its first derivatives. The estimates obtained through this technique, from oscillatory signals, are not only instantaneous (no delay) but also synchronous, an important attribute for control applications. They also provide frequency estimates. The new filters reduce the total vector error achieved with the traditional Kalman filter; are much more stable, with settling times five times lower; and improve the phasor estimates of oscillations with frequency offset.
Keywords
Kalman filters; approximation theory; frequency estimation; matrix algebra; power system measurement; power system stability; Taylor approximation; TaylorK-Kalman filters; bandpass signal model; frequency estimation; instantaneous oscillating phasor estimates; state vectors; state-transition matrix; truncated signal models; Frequency estimation; Kalman filters; Power system dynamics; Power system measurements; State estimation; Wide area networks; Dynamic phasor estimation; Fourier filter; Kalman filter; frequency estimation; power system measurements and protection; state estimation; synchrophasors; wide area networks;
fLanguage
English
Journal_Title
Power Systems, IEEE Transactions on
Publisher
ieee
ISSN
0885-8950
Type
jour
DOI
10.1109/TPWRS.2011.2157539
Filename
5898440
Link To Document