Title :
A Dynamic Mode Decomposition Framework for Global Power System Oscillation Analysis
Author :
Barocio, Emilio ; Pal, Bikash C. ; Thornhill, Nina F. ; Messina, Arturo Roman
Author_Institution :
Imperial Coll. London, London, UK
Abstract :
A global multiscale method based on a dynamic mode decomposition (DMD) algorithm to characterize the global behavior of transient processes recorded using wide-area sensors is proposed. The method interprets global dynamic behavior in terms of both, spatial patterns or shapes and temporal patterns associated with dynamic modes containing essentially single-frequency components, from which the mode shapes, frequencies and growth and decay rates of the modes can be extracted simultaneously. These modes are then used to detect the coherent and dominant structures within the data. The technique is well suited for fast wide-area monitoring and assessment of global instability in the context of modern data fusion-based estimation techniques. Results of the application of the proposed method to large, high-dimensional data sets are encouraging.
Keywords :
oscillations; power system dynamic stability; power system measurement; spatiotemporal phenomena; DMD algorithm; decay rates; dominant structures; dynamic mode decomposition algorithm; dynamic modes; fast wide-area monitoring; global dynamic behavior; global instability assessment; global multiscale method; global power system oscillation analysis; mode shapes; modern data fusion-based estimation techniques; single-frequency components; spatial patterns; temporal patterns; transient processes; wide-area sensors; Algorithm design and analysis; Eigenvalues and eigenfunctions; Matrix decomposition; Monitoring; Power system dynamics; Power system management; Dynamic mode decomposition; inter-area oscillations; mode-shape;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2014.2368078
