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On Independent Component Analysis with Stochastic Volatility Models
Author(s) -
Markus Matilainen,
J.K. Miettinen,
Klaus Nordhausen,
Hannu Oja,
Sara Taskinen
Publication year - 2017
Publication title -
austrian journal of statistics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.342
H-Index - 9
ISSN - 1026-597X
DOI - 10.17713/ajs.v46i3-4.671
Subject(s) - independent component analysis , fastica , estimator , series (stratigraphy) , autocorrelation , volatility (finance) , econometrics , computer science , autoregressive conditional heteroskedasticity , stochastic volatility , time series , component (thermodynamics) , nonlinear system , mathematics , blind signal separation , artificial intelligence , statistics , machine learning , physics , computer network , paleontology , thermodynamics , quantum mechanics , biology , channel (broadcasting)
Consider a multivariate time series where each component series is assumed to be a linear mixture of latent mutually independent stationary time series. Classical independent component analysis (ICA) tools, such as fastICA, are often used to extract latent series, but they don't utilize any information on temporal dependence. Also financial time series often have periods of low and high volatility. In such settings second order source separation methods, such as SOBI, fail. We review here some classical methods used for time series with stochastic volatility, and suggest modifications of them by proposing a family of vSOBI estimators. These estimators use different nonlinearity functions to capture nonlinear autocorrelation of the time series and extract the independent components. Simulation study shows that the proposed method outperforms the existing methods when latent components follow GARCH and SV models. This paper is an invited extended version of the paper presented at the CDAM 2016 conference.

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