Open AccessSymplectic Principal Component Analysis: A New Method for Time Series Analysis
Author(s) -
Min Lei,
Guang Meng
Publication year - 2011
Publication title -
mathematical problems in engineering
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.262
H-Index - 62
eISSN - 1026-7077
pISSN - 1024-123X
DOI - 10.1155/2011/793429
Subject(s) - singular spectrum analysis , principal component analysis , singular value decomposition , chaotic , nonlinear system , symplectic geometry , series (stratigraphy) , noise (video) , lorenz system , time series , algorithm , computer science , mathematics , pattern recognition (psychology) , artificial intelligence , machine learning , mathematical analysis , image (mathematics) , physics , paleontology , quantum mechanics , biology
Experimental data are often very complex since the underlying dynamical system may be unknown and the data may heavily be corrupted by noise. It is a crucial task to properly analyze data to get maximal information of the underlying dynamical system. This paper presents a novel principal component analysis (PCA) method based on symplectic geometry, called symplectic PCA (SPCA), to study nonlinear time series. Being nonlinear, it is different from the traditional PCA method based on linear singular value decomposition (SVD). It is thus perceived to be able to better represent nonlinear, especially chaotic data, than PCA. Using the chaotic Lorenz time series data, we show that this is indeed the case. Furthermore, we show that SPCA can conveniently reduce measurement noise
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