Title :
A channel matching approach for estimating electromechanical mode shape and coherence
Author :
Dosiek, L. ; Pierre, J.W. ; Trudnowski, Dan J. ; Zhou, Ning
Author_Institution :
Univ. of Wyoming, Laramie, WY, USA
Abstract :
A method of estimating a power system´s electromechanical mode shape and coherence from time synchronized phasor measurements is presented. The approach uses a parametric estimate of the transfer function (TF) between signals at different buses throughout the power system. The relationship between the TF and mode shape and coherence is reviewed. A non-causal autoregressive exogenous (ARX) model is used in a least squares (LS) minimization to estimate the TF parameters and to estimate the magnitude squared coherence function. The method is applied to both a simulated system and measured data from the western North American power system and is compared to the traditional Welch periodogram averaging approach.
Keywords :
autoregressive processes; phase measurement; power system measurement; power system stability; power system state estimation; synchronisation; transfer functions; Welch periodogram averaging approach; channel matching approach; coherence estimation; least squares minimization; magnitude squared coherence function; noncausal autoregressive exogenous model; power system electromechanical mode shape estimation; small-signal stability; time synchronized phasor measurement; transfer function; western North American power system; Coherence; Least squares approximation; Parameter estimation; Power measurement; Power system measurements; Power system modeling; Power system simulation; Shape measurement; Time measurement; Transfer functions; Electromechanical dynamics; coherence; mode shape; small-signal stability; synchronized phasor measurements; system identification;
Conference_Titel :
Power & Energy Society General Meeting, 2009. PES '09. IEEE
Conference_Location :
Calgary, AB
Print_ISBN :
978-1-4244-4241-6
DOI :
10.1109/PES.2009.5275947
