Accurate Real-Time Estimation of Power System Transients Using Constrained Symmetric Strong Tracking Square-Root Cubature Kalman Filter

The paper presents a fast and accurate algorithm for estimating four significant parameters (i.e., amplitude, frequency, phase angle, and damping factor) of a typical transient signal. The method can be connoted as the constrained symmetric strong tracking square-root cubature Kalman filter (CSSTSCK...

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Bibliographic Details
Published inIEEE access Vol. 7; pp. 165692 - 165709
Main Authors Pramanik, Meghabriti, Routray, Aurobinda, Mitra, Pabitra
Format Journal Article
LanguageEnglish
Published Piscataway IEEE 2019
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Algorithms
Cholesky triangular decomposition
Constraints
Covariance matrices
Covariance matrix
Damping
Estimation
fading factor (FF)
inequality constraints
Kalman filters
logarithmic barrier function
Mathematical analysis
Matrix methods
Microprocessors
Nonlinear analysis
Nonlinear filters
Parameter estimation
Performance evaluation
power system transient
Real time
Real-time systems
Signal processing
Stability analysis
State vectors
strong tracking square-root cubature Kalman filter (STSCKF)
Symmetry
Tracking
Transient analysis
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Summary:The paper presents a fast and accurate algorithm for estimating four significant parameters (i.e., amplitude, frequency, phase angle, and damping factor) of a typical transient signal. The method can be connoted as the constrained symmetric strong tracking square-root cubature Kalman filter (CSSTSCKF). The important aspects of the proposed algorithm are: 1) constraints are imposed on the state vectors by way of a logarithmic barrier function that is either ignored or handled heuristically; 2) symmetric sub-optimal multiple fading factors (FFs) are augmented into the predicted covariance matrix to capture sudden changes and to tune the gain matrix in real-time; moreover, symmetry of the covariance matrix is guaranteed by the influence of Cholesky triangular decomposition; 3) effect of noise can be adjusted by tuning the soften factor. Several case studies have been simulated to evaluate the proposed algorithm with respect to some of the well-known state-of-the-art methods. The real-time performance has been evaluated by flashing the filter codes into an ARM Cortex-M7 processor board and tracking the real-time signal from the experimental test bench. The results, presented herein, indicate that the CSSTSCKF remarkably outperforms all other considered techniques. Furthermore, the stability analysis of the nonlinear filter has been proved based on the constructor expression considering the boundedness of the estimation errors and other sub-items.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2019.2951309